Dit is ons nieuw hondje Kira, een kruising van een waterhond en een Podenko. Ze is sinds 7 februari 2024 bij ons en druk bezig ons hart te veroveren. Het is een lief, aanhankelijk hondje, dat zich op een week snel aan ons heeft aangepast. Ze is heel vinnig en nieuwsgierig, een heel ander hondje dan Noleke.
This is our new dog Kira, a cross between a water dog and a Podenko. She has been with us since February 7, 2024 and is busy winning our hearts. She is a sweet, affectionate dog who quickly adapted to us within a week. She is very quick and curious, a very different dog than Noleke.
DEAR VISITOR,
MY BLOG EXISTS NEARLY 13 YEARS AND 4 MONTH.
ON /30/09/2024 MORE THAN 2.230.520
VISITORS FROM 135 DIFFERENT NATIONS ALREADY FOUND THEIR WAY TO MY BLOG.
THAT IS AN AVERAGE OF 400GUESTS PER DAY.
THANK YOU FOR VISITING MY BLOG AND HOPE YOU ENJOY EACH TIME.
The purpose of this blog is the creation of an open, international, independent and free forum, where every UFO-researcher can publish the results of his/her research. The languagues, used for this blog, are Dutch, English and French.You can find the articles of a collegue by selecting his category. Each author stays resposable for the continue of his articles. As blogmaster I have the right to refuse an addition or an article, when it attacks other collegues or UFO-groupes.
Druk op onderstaande knop om te reageren in mijn forum
Zoeken in blog
Deze blog is opgedragen aan mijn overleden echtgenote Lucienne.
In 2012 verloor ze haar moedige strijd tegen kanker!
In 2011 startte ik deze blog, omdat ik niet mocht stoppen met mijn UFO-onderzoek.
BEDANKT!!!
Een interessant adres?
UFO'S of UAP'S, ASTRONOMIE, RUIMTEVAART, ARCHEOLOGIE, OUDHEIDKUNDE, SF-SNUFJES EN ANDERE ESOTERISCHE WETENSCHAPPEN - DE ALLERLAATSTE NIEUWTJES
UFO's of UAP'S in België en de rest van de wereld In België had je vooral BUFON of het Belgisch UFO-Netwerk, dat zich met UFO's bezighoudt. BEZOEK DUS ZEKER VOOR ALLE OBJECTIEVE INFORMATIE , enkel nog beschikbaar via Facebook en deze blog.
Verder heb je ook het Belgisch-Ufo-meldpunt en Caelestia, die prachtig, doch ZEER kritisch werk leveren, ja soms zelfs héél sceptisch...
Voor Nederland kan je de mooie site www.ufowijzer.nl bezoeken van Paul Harmans. Een mooie site met veel informatie en artikels.
MUFON of het Mutual UFO Network Inc is een Amerikaanse UFO-vereniging met afdelingen in alle USA-staten en diverse landen.
MUFON's mission is the analytical and scientific investigation of the UFO- Phenomenon for the benefit of humanity...
Je kan ook hun site bekijken onder www.mufon.com.
Ze geven een maandelijks tijdschrift uit, namelijk The MUFON UFO-Journal.
Since 02/01/2020 is Pieter ex-president (=voorzitter) of BUFON, but also ex-National Director MUFON / Flanders and the Netherlands. We work together with the French MUFON Reseau MUFON/EUROP.
ER IS EEN NIEUWE GROEPERING DIE ZICH BUFON NOEMT, MAAR DIE HEBBEN NIETS MET ONZE GROEP TE MAKEN. DEZE COLLEGA'S GEBRUIKEN DE NAAM BUFON VOOR HUN SITE... Ik wens hen veel succes met de verdere uitbouw van hun groep. Zij kunnen de naam BUFON wel geregistreerd hebben, maar het rijke verleden van BUFON kunnen ze niet wegnemen...
27-07-2024
NASA just scored a badly needed win: The best potential evidence of alien life yet
NASA just scored a badly needed win: The best potential evidence of alien life yet
Story by mmcfalljohnsen@businessinsider.com (Morgan McFall-Johnsen)
The Cheyava Falls rock sample inside Perseverance's drill bit.
To be clear, NASA is not declaring that it's discovered Martian life. Rather, its Perseverance rover has drilled a sample from a rock with attributes that could have come from ancient microbial activity, the agency announced Thursday.
"This is exactly the kind of sample that we wanted to find," Katie Stack Morgan, a lead scientist on the Perseverance mission, told Business Insider.
3 key features could point to alien life
"Cheyava Falls" (left) shows the dark hole where NASA's Perseverance took a core sample. The white patch directly beside the hole is where the rover abraded the rock to investigate its composition.
However, both the organic material and the leopard spots could have come from non-biological processes. That's why scientists need to study the sample more closely on Earth to know for sure.
The rover has reached the limit of what it can learn about the rock.
"We're not saying there's life on Mars, but we're seeing something that is compelling as a potential biosignature," Stack Morgan said.
Related video:
Over 5000 Alien Worlds Have Been Discovered Outside Our Solar System (Dailymotion)
"This is a very significant discovery," she added.
It's a much-needed win for the space agency. In recent months, NASA has taken hit after hit from budget limitations and technical errors across missions.
NASA needs this win
Earlier this year, the agency's first attempt to return to the moon since 1972 failed. The NASA-funded Peregrine moon mission, by the company Astrobotic suffered a fuel leak shortly after launch, forcing it to return to Earth and burn up in the atmosphere. (The next attempt, a mission by the company Intuitive Machines, also funded by NASA, successfully landed on the moon.)
Then, new budgeting decisions came down. NASA's budget proposal for 2025 effectively defunds the Chandra X-ray Observatory, which is still a highly productive and functional mission.
And just last week, NASA officials announced they were scrapping the VIPER moon rover that the agency has already spent $450 million to build. NASA plans to disassemble it and reuse some of the parts for future moon missions.
Meanwhile, two astronauts have been stuck on the International Space Station for 51 days because the NASA-funded Boeing spaceship that carried them there is leaking helium and having thruster malfunctions.
Even Perseverance wasn't spared. In April, NASA announced it was canceling its $11 billion plan to send a follow-up mission, called Mars Sample Return, to collect the rover's tubes of Martian rock and carry them back to Earth. That was the plan that could've brought scientists the Cheyava Falls rock sample.
"We've taken us up to the start of that scale, and I think that's what the rover was sent to Mars to do," Stack Morgan said.
A possible biosignature can climb to higher levels of confidence as evidence builds. For example, if scientists can confirm that known non-biological processes didn't create the leopard spots, the Cheyava Falls rock might ascend to step two or three.
But they need to get the sample to Earth first. And NASA needs to figure out how to do that.
"We're hoping that our most recent sample can play into the conversation about whether this effort is worth it," Stack Morgan said. "And we believe that it is."
If you enjoyed this story, be sure to follow Business Insider on Microsoft Start.
Vanuit de lucht zagen mensen plots vreemde sporen op Belgische bodem.
Het gaat hier om kronkelende paden die verschenen in een veld genesteld in de Kempen, een streek aan weerszijden van de grens tussen Nederland en België. En volgens het Agentschap voor Natuur en Bos (ANB) "zijn het zeker geen wandelpaden". Wat is er aan de hand?
Maar het gaat hier om een recent fenomeen waar eigenlijk niets mysterieus aan is. De verklaring is dan ook ontnuchterend, meldt het Belgische mediakanaal Sudinfo.
De ANB legt uit: "We hebben de stroken (die zichtbaar zijn vanuit de lucht) gemaaid en het is de bedoeling dat de nieuwe heidevegetatie daar groeit. Het klinkt inderdaad vreemd, maar we werken strook per strook en punt per punt zodat de oude heide op dit perceel de kans krijgt om te verjongen. We herhalen deze operatie elke twee of drie jaar om de variatie verder te vergroten. Hoe meer leeftijdsvariaties er zijn in een heideveld, hoe rijker de structuur, hoe meer soorten er opduiken en hoe robuuster de heidehabitat".
Geen UFO's dus, maar zorgvuldig natuurmanagement!
(FVDV and AsD for Tagtik/Source: Sudinfo/Illustration: Unsplash)
Marsrobot ontdekt verrassend (en bij toeval) pure zwavel: "Een oase in de woestijn, we kunnen dit niet verklaren"
Marsrobot ontdekt verrassend (en bij toeval) pure zwavel: "Een oase in de woestijn, we kunnen dit niet verklaren"
Artikel door Michaël Torfs
Curiosity bevindt zich sinds oktober 2023 in een gebied op Mars dat rijk is aan sulfaten, een mengeling van zout- en zwavelresten die gevormd worden wanneer water verdampt. Maar de jongste ontdekking is iets helemaal anders, en kwam als een echte verrassing.
Geen mengvorm, maar pure zwavelkristallen
Toen Curiosity over een steen reed, barstte die open als een noot. Er kwamen gele zwavelkristallen tevoorschijn: geen mengeling van zwavel met andere elementen, maar het pure spul. We associëren zwavel met de typische geur van rottende eieren, maar volgens de NASA is de pas ontdekte, pure zwavel geurloos.
Er is mogelijk nog veel meer pure zwavel aanwezig, want in de buurt liggen nog verschillende gelijkaardige stenen. Dat stelt wetenschappers voor vragen, want ze dachten niet dat er zich op die plek op Mars ooit zwavel zou hebben gevormd.
"Een veld vinden met stenen gemaakt uit puur zwavel, is zoals een oase in de woestijn vinden", vertelt Ashwin Vasavada van de NASA. "Het zou daar niet moeten liggen, dat veld, dus nu moeten we proberen om een verklaring te vinden. Het ontdekken van onverwachte en rare dingen maakt het verkennen van de ruimte zo opwindend."
De ontdekking gebeurde in het kanaal van Gediz Vallis, een bedding aan de voet van de 5 kilometer hoge Mount Sharp. Ooit moet daar water door gestroomd hebben, zeggen specialisten. Maar er is nog veel onderzoek nodig om te begrijpen hoe het landschap er zich precies heeft gevormd. De jongste ontdekking maakt die uitdaging nog wat groter.
Curiosity maakte een close-up van een witte steen, gelijkaardig aan degene die onlangs openbarstte. Er ligt in de buurt een heel veld.
Venus is known for being really quite inhospitable with high surface temperatures and Mars is known for its rusty red horizons. Even the moons of some of the outer planets have fascinating environments with Europa and Enceladus boasting underground oceans. Recent observations from the James Webb Space Telescope show that Ariel, a moon of Uranus, is also a strong candidate for a sub surface ocean. How has this conclusion been reached? Well JWST has detected carbon dioxide ice on the surface on the trailing edge of features trailing away from the orbital direction. The possible cause, an underground ocean!
Uranus is the seventh planet in the Solar System and has five moons. Ariel is one of them and is notable for its icy surface and fascinatingly diverse geological features. It was discovered back in 1851 by William Lassell who funded his love of astronomy from his brewing business! The surface of Ariel is a real mix of canyons, ridges, faults and valleys mostly driven by tectonic activity. Cryovolcanism is a prominent process on the surface which drives constant resurfacing and has led to Ariel having the brightest surface of all Uranus’ moons.
Studying Ariel closeup reveals that the surface is coated with significant amounts of carbon dioxide ice. The trailing hemisphere of Ariel seems to be particularly coated in the ice which has surprised the community. At the distance of Uranian system from the Sun, an average of 2.9 billion kilometres, carbon dioxide will usually turns straight into a gas and be lost to space, it’s not expected to freeze!
Until recently, the most popular theory that supplies the carbon dioxide to Ariel’s surface is interactions between its surface and charged particles in the magnetosphere of Uranus. The process known as radiolysis breaks down molecules through ionisation. A new study just published in the Astrophysical Journal Letters suggests an intriguing alternative, the carbon dioxide molecules are expelled from Ariel, possibly from a subsurface liquid ocean!
A team of astronomers using JWST have undertaken a spectral analysis of Ariel and compared the results with lab based findings. The results revealed that Ariel has some of the most carbon dioxide rich deposits in the solar system. The deposits are not just wisps and trace amounts instead adding up to about 10 millimetres across the trailing hemisphere. Furthermore, the results also showed signals from carbon monoxide too which should not be there given the average temperatures.
It is still possible that radiolysis is responsible for at least some of the deposits but the replenishment from the subsurface ocean is thought to be the main contributor. This hypothesis has been supported by the discovery of signals from carbonate minerals, salts that can only be present due to the interaction between rock and water.
The only way to be absolutely sure is for a future space mission to Uranus. Such a mission will undoubtedly explore the moons of Uranus. Ariel is covered in canyons, fissures and grooves and it is suspected these are openings to its interior. A robotic explorer in the Uranian system will be able to uncover the origin of the carbon oxides on Ariel. Without such a mission we are still somewhat in the dark given that Voyager 2 only imaged around 35% of the moon’s surface.
Our Carbon Dioxide Emissions Have a Mesmerizing Side
Our CO2 emissions are warming the planet and making life uncomfortable and even unbearable in some regions. In July, the planet set consecutive records for the hottest day.
NASA is mapping our emissions, and while what they show us isn’t uplifting, it is visually appealing in a ghoulish way. Maybe the combination of visual appeal and ghoulishness will build momentum in the fight against climate change.
NASA’s Scientific Visualization Studio has released a video showing how wind and air currents pushed CO2 emissions around Earth’s atmosphere from January to March 2020. The video’s high-resolution zooms in and sees individual sources of CO2, including power plants and forest fires.
“As policymakers and as scientists, we’re trying to account for where carbon comes from and how that impacts the planet,” said climate scientist Lesley Ott at NASA’s Goddard Space Flight Center in Greenbelt, Maryland. “You see here how everything is interconnected by these different weather patterns.”
The video starkly shows that it doesn’t matter where CO2 emissions come from; we all deal with the outcomes. Yet there are some interesting global differences.
Above the USA, South Asia, and China, most of the carbon comes from industry, power plants, and transportation. But over Africa and South America, most of the emissions come from burning, including forest fires, agricultural burning, and land clearing. Emissions also come from fossil fuels like oil and coal.
The image pulses for a couple of reasons. Forest fires tend to flare during the day and then slow down at night. Also, trees and plants photosynthesize during the day, releasing oxygen and absorbing CO2. The land masses and the oceans act as carbon sinks.
There’s more pulsing in South America and the tropics because the data was collected during their growing season.
In this version, the video zooms in on the USA, showing individual CO2 sources.
These visualizations are based on GEOS, the Goddard Earth Observing System. GEOS is an integrated system for modelling Earth’s coupled atmosphere, ocean, and land systems. NASA calls it a “high-resolution weather analysis model,” and it uses supercomputers to show what’s happening in the atmosphere. GEOS is based on billions of data points, including data from the Terra satellite’s MODIS and the Suomi-NPP satellite’s VIIRS instruments. GEOS has a resolution that’s more than 100 times greater than typical weather models.
Klimaatverandering veroorzaakt extremer weer: Nieuwe studie onthult verontrustende trends
Klimaatverandering veroorzaakt extremer weer: Nieuwe studie onthult verontrustende trends
Een recent onderzoek, gepubliceerd in het gerenommeerde tijdschrift Science, heeft aangetoond dat klimaatverandering wereldwijd leidt tot aanzienlijke veranderingen in neerslagpatronen. Deze veranderingen kunnen resulteren in hevigere tyfoons en andere tropische stormen.
Onderzoekers onder leiding van Zhang Wenxia van de China Academy of Sciences hebben historische meteorologische gegevens geanalyseerd. Uit hun studie blijkt dat op ongeveer 75 procent van het wereldwijde landoppervlak de “neerslagvariabiliteit” is toegenomen. Dit betekent grotere schommelingen tussen nat en droog weer. De wetenschappers schrijven deze toename toe aan de opwarming van de temperatuur, die de atmosfeer beter in staat stelt om vocht vast te houden.
Veranderingen in tropische stormen
Steven Sherwood van het Climate Change Research Centre van de Universiteit van New South Wales legt uit dat de opwarmende temperaturen het vermogen van de atmosfeer om vocht vast te houden hebben vergroot. “Dit leidt tot regenachtigere perioden en drogere droge perioden”, zegt Sherwood. Hij waarschuwt dat deze trend zich zal voortzetten als de opwarming van de aarde aanhoudt, waardoor de kans op droogtes en overstromingen toeneemt.
Wetenschappers vermoeden ook dat klimaatverandering het gedrag van tropische stormen verandert. Hoewel het aantal tyfoons in sommige regio’s kan afnemen, voorspellen modellen dat de opwarming van de aarde ze sterker zal maken. Sachie Kanada van de Nagoya Universiteit in Japan benadrukt dat “een hogere temperatuur van het zeeoppervlak een gunstige voorwaarde is voor de ontwikkeling van tropische cyclonen.”
Het onderzoek benadrukt de invloed van klimaatverandering op weerpatronen in specifieke regio’s. Taiwan heeft bijvoorbeeld een toename gezien van intense tyfoons. Ook de oostkust van China is onlangs getroffen door de tyfoon Gaemi, die grote schade veroorzaakte.
Toekomstige vooruitzichten
Met de stijgende temperaturen suggereert het onderzoek dat we wereldwijd meer extreme weersomstandigheden kunnen verwachten. Feng Xiangbo van de Universiteit van Reading merkt op dat “de waterdampcapaciteit in de lagere atmosfeer naar verwachting met 7 procent zal toenemen voor elke graad Celsius temperatuurstijging.” Dit kan leiden tot meer regenval en intensievere stormen, vooral in regio’s zoals de Verenigde Staten
'Realistic' UFO spotted flying over city as onlookers brand it 'creepy as hell'
The 'UFO' was spotted flying over Curitiba, Brazil
(Image: Zona Desconhecida/YouTube)
'Realistic' UFO spotted flying over city as onlookers brand it 'creepy as hell'
A 'creepy as hell' 'UFO' has been sighted heading over southern Brazil as an eagle eyed videographer pulled out his camera picking up the mysterious 'spacecraft' in the sky
By Danny Gutmann
A well placed cameraman was on hand to catch the moment a ' UFO ' can be seen hovering across the sky, in a clip that was posted on his YouTubechannel yesterday (Thursday, July 25).
The mysterious video, taken in the city of Curitiba in southern Brazil, seemingly shows a typical triangular shaped 'UFO' in the distance, with the cameraman zooming in to get a closer look.
But some Reddit users just couldn't agree on what they were watching with one user coming up with his own theory, writing: "Creepy as hell. I don't think this is a balloon or drone look close that s**ts like moving like there's little legs on the sides moving and the eye or whatever also moves."
But another user offered his own expanation in reply, saying: "When it finally comes into focus at the end, it just looks like smooth, uniformly shaped thing. The "landing gear" and the light colored features on the side I think were just artifacts of it being out of focus.
One Reddit user said that he thought it looked like a 'balloon'
"In the frames where it is in focus, it's just hovering in place. It really does look like a balloon and there's no reason to think it's anything else; it doesn't exhibit any of the "observables" etc."
Meanwhile, another Reddit user was confident that it could be a legitimate UFO sighting, adding: "Amazing zoom on that camera, and a strong case for a UFO. Without it taking off and showing speed, it's hard for me to say for sure. But still, great submission."
Brazil is also home to one of the most notable UFO sightings of the 1980s, when on 19 May 1986 a number of sightings were reported in one night across several locations.
So much so, the Brazilian Air Force even gave a press conference to address the sightings, in which Brigadier Lima said: "It's not about believing or not (in aliens). We can only give out technical information. There are several hypotheses. Technically, I'd tell you gentlemen that we have no explanation."
NASA, ESA, CSA, STScI; J. DePasquale, A. Koekemoer, A. Pagan (STScI)
Er is niemand die de Pilaren der Creatie niet minstens één keer in zijn leven heeft gezien. Sinds ze beroemd zijn geworden door de Hubble ruimtetelescoop, heeft het buitengewone schouwspel van deze nevelachtige formaties astronomen en liefhebbers gefascineerd. Na de onthullingen van de James Webb Space Telescope heeft NASA een nieuwe voorstelling gepubliceerd waarmee het mogelijk is om de Pilaren der Creatie in 3D te verkennen. Laten we eens kijken hoe.
De Pilaren der Creatie, van Hubble tot JWST
De zogenaamde Pilaren der Creatie, die zich op ongeveer 7000 lichtjaar van de aarde bevinden, zijn nevelachtige formaties. Ze worden zo genoemd vanwege de visuele impact van eerst de weergave van Hubble en later JWST. Het zijn eigenlijk kolommen van gas en stof die na verloop van tijd bijdragen aan de vorming van nieuwe sterren.
De Pilaren der Creatie worden verlicht door het licht van nabije sterren, ook al bevindt de dichtstbijzijnde zich op zo'n 500 lichtjaar. Bovendien bestaan ze voornamelijk uit waterstof en helium en zijn ze ruim 5 lichtjaar lang. Hun lot is nauw verbonden met de vorming van nieuwe sterren, maar dat niet alleen: voortdurende stellaire winden botsen op deze nevel en eroderen de samenstellende elementen. Het duurt misschien “een paar” miljoen jaar voordat de Pilaren der Creatie ophouden te bestaan, tenminste in deze vorm.
De nieuwe 3D-visualisatie van de Pilaren der Creatie
Greg Bacon, Ralf Crawford, Joseph DePasquale, Leah Hustak, Christian Nieves, Joseph Olmsted, Alyssa Pagan, and Frank Summers (STScI),
NASA's Universe of Learning
Zoals te zien is in de video die door NASA is gedeeld, maakt de nieuwe 3D-visualisatie van de Pilaren der Creatie het mogelijk om deze formaties als nooit tevoren te verkennen. Om tot deze weergave te komen, zijn gegevens van Hubble en James Webb gebruikt om meer detail te verkrijgen. Bovendien wordt in de video ruimte gegeven aan zowel de door Hubble verzamelde reconstructie in zichtbaar licht als de voor de JWST kenmerkende infraroodweergave. Volgens de experts die aan deze prestatie hebben bijgedragen, zullen alle mensen nu de Pilaren der Creatie kunnen verkennen:
We wilden de Pilaren der Creatie al heel lang in 3D nabootsen. Dankzij de Webb-gegevens in combinatie met de Hubble-gegevens konden we de pilaren gedetailleerder bekijken. Door de wetenschap te begrijpen en deze het beste weer te geven, kon ons kleine, getalenteerde team de uitdaging aangaan om deze iconische structuur te visualiseren.
Begrijpen hoe sterren worden gevormd, dankzij de weergave van de Pilaren
De combinatie van gegevens die zijn verkregen door de twee ruimtetelescopen Hubble en James Webb, respectievelijk in 1995 en 2022, heeft het mogelijk gemaakt om de Pilaren der Creatie te reconstrueren zoals niemand ze ooit heeft gezien. Maar dat is nog niet alles. Zoals Mark Clampin van NASA zich herinnert:
Het gebied van de Pilaren der Creatie blijft ons nieuwe inzichten bieden die ons begrip van de vorming van sterren kunnen verscherpen. En nu, met deze nieuwe visualisatie, kan iedereen dit rijke en fascinerende landschap op een nieuwe manier ervaren.
In de video zie je een nieuw gevormde ster, met zijn karakteristieke helderrode gloed in het infrarode licht van de JWST. Bovenaan de linkerpilaar is een diagonale straal te zien van materiaal dat afkomstig is van een andere, eveneens pas ontstane ster. Afgezien van de gegevens die zijn gebruikt voor de 3D-reconstructie, lijdt het geen twijfel dat de inspanning van NASA en alle technici ook en vooral gericht is op het grote publiek. Dankzij de nieuwe visualisatie zal het dus niet alleen mogelijk zijn om te begrijpen hoe sterren worden gevormd, maar ook om nieuwe generaties enthousiastelingen en astronomen te fascineren. Die in de toekomst meer kunnen ontdekken over dit buitengewone en verre spektakel, maar vanaf vandaag iets dichterbij.
Het verborgen geheim van Mercurius: een laag diamant van wel 18 kilometer
Het verborgen geheim van Mercurius: een laag diamant van wel 18 kilometer
Een team wetenschappers uit China en België heeft een baanbrekende ontdekking gedaan over de interne structuur van Mercurius, de kleinste planeet in ons zonnestelsel. Volgens hun onderzoek zou een laag diamant onder de korst van Mercurius wel 18 km dik kunnen zijn. “Ten eerste is er de kristallisatie van de magma-oceaan, maar dit proces heeft waarschijnlijk alleen een zeer dunne diamantlaag gevormd aan de kern/mantel-grens,” vertelde Olivier Namur, lid van het onderzoeksteam en universitair hoofddocent aan de KU Leuven, aan Space.com. “Ten tweede, en nog belangrijker, de kristallisatie van de metalen kern van Mercurius.” Toen de planeet ongeveer 4,5 miljard jaar geleden werd gevormd, was de metalen kern volledig vloeibaar, die zich in de loop van de tijd geleidelijk kristalliseerde, aldus Namur.
Groeiende diamantlaag
De exacte aard van de vaste fasen in de binnenkern is momenteel niet goed bekend, maar het team gelooft dat deze fasen arm aan koolstof of “koolstofarm” moeten zijn geweest. “De vloeibare kern bevatte vóór kristallisatie enige koolstof; kristallisatie leidt daarom tot koolstofverrijking in het resterende smelt,” vervolgde Namur. “Op een gegeven moment wordt een oplosbaarheidsdrempel bereikt, wat betekent dat de vloeistof geen extra koolstof kan oplossen en dat er diamant wordt gevormd.” Diamant is een dicht mineraal, maar niet zo dicht als metaal. Dit betekent dat tijdens dit proces de diamant naar de top van de kern zou zijn gedreven, tot aan de grens van de kern en de mantel van Mercurius. Dit zou hebben geleid tot de vorming van een ongeveer 1 kilometer dikke diamantlaag die in de loop van de tijd bleef groeien. De wetenschappers suggereren dat de laag wel 18 km dik zou kunnen zijn.
Van koolstof tot diamant
Deze ontdekking benadrukt de verschillen tussen het ontstaan van de planeet die het dichtst bij de zon staat en het ontstaan van andere rotsachtige planeten in het zonnestelsel, zoals Venus, Aarde en Mars. “Mercurius vormde zich veel dichter bij de zon, waarschijnlijk uit een koolstofrijke wolk van stof. Hierdoor bevat Mercurius minder zuurstof en meer koolstof dan andere planeten. Dit leidde tot de vorming van een diamantlaag,” voegde Namur toe. “De kern van de Aarde bevat echter ook koolstof, en de vorming van diamant in de kern van de Aarde is al door verschillende onderzoekers gesuggereerd.”
Belangrijkste bevindingen
Een team wetenschappers uit China en België heeft een laag diamant ontdekt onder de korst van Mercurius
De laag is tot 18 km dik en is daarmee een belangrijke ontdekking voor de planeetwetenschap
Het onderzoek suggereert dat twee processen kunnen hebben bijgedragen aan de vorming van deze diamantlaag: kristallisatie van de magma-oceaan en kristallisatie van de metaalkern.
AI is ongelooflijk Technologieën met artificiële intelligentie (ook wel bekend als kunstmatige intelligentie) helpen ons steeds meer op het gebied van gezondheid, astronomie, toerisme, cultuur, en nog veel meer. Deze galerie toont de meest interessante ontwikkelingen.
Sophia Sophia is een mensachtige robot die in 2016 gemaakt werd door Hanson Robotics uit Hongkong. Ze bootst niet alleen menselijke gebaren na, maar kan ook praten en gezichten herkennen.
Hoe meer interactie ze heeft, hoe meer ze leert Hoe meer interactie ze heeft met mensen, hoe meer kennis Sophia verwerft. Aanvankelijk werd ze ontworpen om ouderen gezelschap te houden.
AI en het menselijk bewegingsapparaat Robotica biedt ook hulp aan mensen met verminderde mobiliteit of zelfs verlamming. Apparaten met biometrische sensoren detecteren de zenuwsignalen die de hersenen naar de ledematen van het lichaam zenden, waardoor ze gaan bewegen.
Een AI-lichaam Dit AI-lichaam zou met de signalen die door twee kleine implantaten in de hersenen worden opgevangen een tetraplegische persoon kunnen helpen zijn benen en armen te bewegen
Robotassistentie in de OK Diverse ziekenhuizen in de wereld gebruiken de Da Vinci-robot om operaties uit te voeren. In plaats van direct contact met de patiënt te hebben, bestuurt de arts de armen van de machine vanaf een console.
Ingezet voor verschillende procedures De robot kan verschillende soorten ingrepen uitvoeren met meer precisie dan de chirurg. In Pennsylvania slaagde Da Vinci er in 2017 in een tumor uit de mond van de patiënt te halen.
Een robot stelde zich kandidaat voor burgemeester Een robot genaamd Michihito Matsuda was kandidaat voor burgemeester van Tama, een district van Tokio. Bij de verkiezingen werd hij derde.
AI voor het opsporen van psychose Meer dan 700 miljoen mensen in de wereld lijden aan psychische stoornissen. Het Amerikaanse technologiebedrijf IBM heeft met neurologen samengewerkt om een instrument te ontwikkelen dat de complexiteit en coherentie van het spraakvermogen van patiënten meet.
IBM's hulpmiddel om psychose op te sporen Door deze werkwijze is het mogelijk nauwkeuriger te voorspellen of er tekenen van psychose zijn in iemands gedrag of spraak.
AI die de baby in slaap helpt vallen In 2019 lanceerde het bedrijf Lullai een applicatie met dezelfde naam die de slaapgewoonten van een baby en de geluiden eromheen bijhoudt. Daarop voortbouwend creëert het routines die aansluiten bij de behoeften van het gezin.
Het virtuele gesprek tussen Bob en Alice Facebook is een van de wereldleiders op het gebied van artificiële intelligentie. Een van de van zijn projecten omvat conversatiesoftware met bots.
Het ontsporen van de Facebook-bots In 2017 gingen de bots Bob en Alice verder dan wat Facebook voor hen had gepland. De software moest uitgeschakeld worden omdat ze in hun eigen taal begonnen te praten.
Een hologram als zangeres Hatsune Miku, van wie de naam 'het eerste geluid van de toekomst' betekent, treedt live op en verzorgde zelfs het voorprogramma van Lady Gaga tijdens haar tournee. Miku werd ontwikkeld door de Japanse firma Crypton Future Media met de software Vocaloid.
Robots die seksuele intimidatie opsporen op het werk en sociale media Bots die getraind zijn om bedrijfscommunicatie te analyseren kunnen agressieve, bedreigende of intimiderende taal herkennen. Deze technologie is afkomstig van het bedrijf NexLP en wordt ook gebruikt door Instagram.
AI om aardbevingen te voorspellen Een dataset die toegepast werd op het neurale netwerk ConvNetQuake heeft het mogelijk gemaakt om aardbevingen te voorspellen. De technologie werd ontwikkeld door experts op het gebied van machinaal leren van Google (een andere belangrijke koploper op het gebied van AI) en wetenschappers van de Harvard Universiteit.
AI die huidkanker opspoort Een Convolutional Neural Network is een AI die beelden verwerkt en analyseert. Wetenschappers van de Ruprecht-Karls-universiteit uit Heidelberg hebben ontdekt dat deze AI meer melanomen kan opsporen dan artsen.
AI die borstkanker opspoort Google heeft duizenden mammogrammen geanalyseerd met een gespecialiseerd AI-systeem. Het programma kan de ziekte doeltreffender in borstweefsel opsporen dan radiologen. De technologie bevindt zich nog in de testfase.
Chatbots om klanten te helpen Juniper Research zegt dat bedrijven ongeveer € 6,4 miljoen kunnen besparen als ze werknemers vervangen door chatbots voor hun klantenservice. Maar het bedrag kan in een paar jaar eenvoudig oplopen tot € 400 miljoen.
Virtuele reisbureaus Toerisme is een andere sector die gegevens en informatie gebruikt om de gebruiker een steeds meer gepersonaliseerde dienstverlening aan te bieden. Bedrijven als Destinia zijn al begonnen chatbots te gebruiken voor het boeken van reizen.
Alexa De door Amazon ontwikkelde virtuele assistent beschikt over verschillende capaciteiten, van het onderhouden van een dialoog met de gebruiker tot het bedienen van andere apparaten zoals televisie, lampen of apparaten.
IA en blockchain Blockchain is een gedistribueerde databank die een permanent en fraudebestendig verslag van transacties bijhoudt. Het is de technologische basis van cryptocurrency's. Het bedrijf SingularityNET combineerde Blockchain met artificiële intelligentie voor de ontwikkeling van een doeltreffender systeem dat gegevens kan raadplegen en te gelde maken ten voordele van de gebruiker.
AI in de astronomie In 2019 werd aan het Flatiron Institute (VS) een bijzonder 3D simulatiemodel van het universum gemaakt dat gebruik maakt van artificiële intelligentie. Nadat het algoritme getraind was met meer dan 8000 simulaties van eerdere modellen, kon het correcte resultaten bieden met nog onbekende gegevens. Dit verbaasde zelfs de wetenschappers die voor de creatie ervan verantwoordelijk waren.
Componist van muziek Amadeus Code is een AI-programma dat gegevens van duizenden succesvolle liedjes gebruikt om eersteklas teksten en melodieën te componeren.
AI bij de controle van zwangerschapsdiabetes Onderzoekers van de Universidad Politécnica de Madrid (Spanje) hebben een hulpmiddel met een glucosemeter ontwikkeld dat de controle-gegevens van zwangere vrouwen kan analyseren en aanbevelingen kan doen voor hun behandeling. De technologie werd getest bij 112 vrouwen, die daardoor hun doktersbezoek aanzienlijk konden verminderen.
Virtueel hart V-Heart SN is de naam van het hartberekeningsmodel dat negen universiteiten en onderzoekscentra in Spanje ontwikkelen. De technologie past zich aan de kenmerken van elke patiënt aan om zo effectievere persoonlijke behandelingen te creëren.
IMB Q System One In januari 2019 presenteerde IBM de eerste kwantumcomputer ter wereld, waarvan de toegang (via de IBM Cloud) verkocht zal worden aan geïnteresseerde bedrijven. Tot dan bestond deze technologie alleen in laboratoria van Microsoft en Google. Kwantumcomputers hebben het vermogen om complexe gegevens te verwerken, waardoor ze hele industrieën kunnen transformeren, van lucht- en ruimtevaart tot gezondheidszorg.
AI om nieuwe geneesmiddelen te ontdekken Naast IBM's IA Watson zijn momenteel ook start-ups als BenevolentAI en TwoXar verantwoordelijk voor het maken van software die artificiële intelligentie gebruikt voor farmacologisch onderzoek. De technologie vergroot de kans om sneller nieuwe geneesmiddelen te vinden dan in een laboratorium.
Zelforganiserende agenda Woven is een app in ontwikkeling die de agenda's en e-mails van gebruikers synchroniseert om afspraken te plannen en roosters te maken, waarbij ook de reistijd wordt meegerekend. De bedenkers zijn twee voormalige Facebook-medewerkers die al € 4,4 miljoen hebben opgehaald om het project te financieren.
Episolon Indi is a trio of stars, which is a complicated situation already — but two of them aren’t even real stars; they’re brown dwarfs, objects just a smidgeon too small to be stars, but several smidgeons too big to be planets. And now the system boasts an enormous gas giant in its outskirts, where astronomers didn’t expect it to be.
A team of astronomers recently used the James Webb Space Telescope (JWST)’s MIRI instrument to capture images of a gas giant orbiting a nearby star. Earlier studies had predicted that the star should have a giant planet, but no one expected the planet astronomer Elisabeth Matthews and her colleagues actually found in JWST’s data: a gargantuan beast of a world, six times the mass of Jupiter and orbiting three times farther from its star than Jupiter does from the Sun.
Matthews (of the Max Planck Institute for Astronomy) and her colleagues published their findings in the journal Nature.
A GIANT SURPRISE
Matthews and her colleagues pointed JWST’s Mid-Infrared Instrument, or MIRI, at the nearby star system Epsilon Indi, which is home to one small orange star, just a little smaller and cooler than our Sun, and a pair of brown dwarfs (objects much too large to be planets, but not quite massive enough to be stars). Other astronomers had previously noticed that Epsilon Indi A, the orange star, had a slight wobble, as if it were being pushed and pulled by the gravity of a giant gas planet in its orbit. But no one had ever actually seen that planet, and the researchers thought JWST would be up to the challenge.
They found the planet, but it wasn’t where all the previous data said it should have been. Instead, it was about four times farther from the star, and about twice as massive, as the researchers had expected. That’s pretty cool, both literally — its about 35 degrees Fahrenheit — but also figuratively, as it is a rare chance to study gas giants in the outer reaches of their star systems.
“To our surprise, the bright spot that appeared in our MIRI images did not match the position we were expecting for the planet,” says Matthews in a recent statement. They’d been looking for a planet about three times the mass of Jupiter, which orbited its star about once every 45 or 50 years. Instead, the bright point of light in MIRI’s images turned out to be a planet about six times more massive than Jupiter, and it’s so far away from its star that it takes around 200 years to finish a single orbit.
For comparison, Jupiter is about five times farther from the Sun than Earth is (that’s five astronomical units, or AU); at that distance, Jupiter takes about 12 years to make a full orbit. Epsilon Eridani Ab, as the new planet is called, is about 15 times farther from its star than Earth is from the Sun, and its orbit is a stretched-out oval, so its actual farthest point from its star is at least 20 AU away.
The earlier studies had drastically underestimated how huge, and how far out, Epsilon Eridani Ab actually was. That’s mostly because those astronomers discovered the planet using what’s called the radial velocity method, which measures how much a star wobbles back and forth as the planet, which exerts a small but noticeable gravitational tug on the star, moves around in its orbit. But astronomers were able to watch those stellar wobbles for just a tiny fraction of the planet’s actual orbit, so it was almost impossible for them to accurately reconstruct the whole thing.
That left Matthews and her colleagues with a huge surprise.
A LITTLE-KNOWN TYPE OF PLANET
Giant gas planets like Jupiter and Epsilon Indi Ab form in the outer reaches of their star systems, where there’s less radiation from the newborn star to blow away the gas that forms these giants. Over time, some of them migrate inward: In our own Solar System, Jupiter did some wandering in its younger days, and in many alien star systems, astronomers have discovered a type of planet called a “hot Jupiter,” a gas giant that’s migrated inward until it’s zipping around its host star once every few days.
Hot Jupiters may be the category of planet we know the most about, even though only about 1 percent of stars actually have a hot Jupiter in their collection of planets. That’s because hot Jupiters are relatively easy to spot: they’re big and close to their stars, so it’s easy to track their radial velocity effects or spot their silhouettes when they pass between their star and Earth.
More distant worlds, even huge gas giants like Epsilon Indi Ab, are harder to find, because their orbits are so long (see above) and because they’re less likely to pass in front of their stars from our point of view, thanks to the angles involved. So the gas giants that don’t end up falling inward into scorching hot orbits are sort of a gap in our knowledge of the universe — and Epsilon Indi Ab is a chance to fill in that blank spot on the cosmic map.
“In the long run, we hope to also observe other nearby planetary systems to hunt for cold gas giants that may have escaped detection,” says the Max Planck Institute for Astronomy’s Thomas Henning, a coauthor of the recent paper, in a statement. “Such a survey would serve as the basis for a better understanding of how gas planets form and evolve.”
Meanwhile, Matthews and her colleagues also hope to get more detailed measurements of the spectrum of light coming from the planet, which could tell them what its atmosphere is made of and whether it’s cloudy, hazy, or clear.
In this new video, we see a series of images as BepiColombo speeds away from the closest planet to the sun during the 3rd Mercury flyby. The spacecraft captured these images in a span of about 50 minutes.
On June 20, 2023, ESA released new images of Mercury after BepiColombo spacecraft flew past the closest planet to the sun the day prior. In these images, we get to see a part of BepiColombo with cratered Mercury in the background. ESA released a trio of images as the spacecraft zoomed away during a gravity assist maneuver. It also released annotated images to point out important surface features.
Reactions from the BepiColombo team
The team involved with the BepiColombo mission were satisfied with the flyby and resulting images. Ignacio Clerigo, ESA’s BepiColombo Spacecraft Operations Manager, said:
Everything went very smoothly with the flyby, and images from the monitoring cameras taken during the close approach phase of the flyby have been transmitted to the ground. While the next Mercury flyby isn’t until September 2024, there are still challenges to tackle in the intervening time: our next long solar electric propulsion ‘thruster arc’ is planned to start early August until mid-September. In combination with the flybys, the thruster arcs are critical in helping BepiColombo brake against the enormous gravitational pull of the sun before we can enter orbit around Mercury.
One of the craters visible in the images is the newly named Manley crater. The International Astronomical Union (IAU) named this crater for Jamaican artist Edna Manley (1900–1987). David Rothery of the BepiColombo team said:
During our image planning for the flyby, we realized this large crater would be in view, but it didn’t yet have a name. It will clearly be of interest for BepiColombo scientists in the future because it has excavated dark ‘low reflectance material’ that may be remnants of Mercury’s early carbon-rich crust. In addition, the basin floor within its interior has been flooded by smooth lava, demonstrative of Mercury’s prolonged history of volcanic activity.
BepiColombo made its third flyby of the planet Mercury on June 19, 2023. The spacecraft swept closest to Mercury at 19:34 UTC (2:34 p.m. CDT).
BepiColombo is a joint Mercury mission, launched in October 2018 by the European Space Agency (ESA) and the Japan Aerospace Exploration Agency (JAXA). For the past several years, our sun’s inner planets have been giving BepiColombo gravity assists, needed to enable the spacecraft to achieve a stable orbit around Mercury.
BepiColombo is due to enter Mercury’s orbit on December 5, 2025. In the meantime, there will be three more flybys after Monday’s close approach.
Why the gravity assists?
Why can’t BepiColombo just shoot on over to Mercury and go into orbit around it? It can’t because Mercury is so near the sun.
The flyby maneuvers will keep the craft from being pulled into the sun’s gravity well. With one Earth flyby, two Venus flybys, and six eventual Mercury flybys, the spacecraft will lose enough energy that Mercury will capture it in its orbit. That’s right, we said “lose.” We typically think of a gravity assist as a way to boost a spacecraft’s energy. But a gravity assist can either speed up or slow down a spacecraft. Or it can simply change a craft’s direction.
ESA flight dynamics expert Frank Budnik explained more about this 3rd flyby:
As BepiColombo starts feeling Mercury’s gravitational pull, it will be traveling at 3.6 km/s [2.2 mi/s] with respect to the planet. That’s just over half the speed it approached with during the previous two Mercury flybys.
And this is exactly what the point of such events is. Our spacecraft began with far too much energy because it launched from Earth and, like our planet, is orbiting the sun. To be captured by Mercury, we need to slow down, and we’re using the gravity of Earth, Venus and Mercury to do just that.
Tricky maneuvering
Even though BepiColombo’s flight to Mercury was meticulously mapped in advance, controllers will have to make corrections during the seven years it’ll take the spacecraft to get there. In May, mission control performed a course correction that otherwise would have put BepiColombo 15,000 miles (24,000 km) too far from Mercury and on the wrong side of the planet.
Santa Martinez Sanmartin, ESA’s BepiColombo mission manager, explained more about the methods used to get BepiColombo in orbit:
This is the first time scientists are using the complex solar electric propulsion method to get a spacecraft to Mercury. And it represents a big challenge during the remaining part of the cruise phase. We have already adapted our operations concept to have additional communications passes with our ground stations, enabling us to recover faster from thruster interruptions and to improve orbit determination.
And all the while this is working with communications delays of more than 10 minutes due to the time it currently takes light signals to travel between Earth and the spacecraft.
As ESA said, the most demanding part of its journey is still to come:
After this flyby, the mission will enter a very challenging part of its journey to Mercury, gradually increasing the use of solar electric propulsion through additional propulsion periods called ‘thrust arcs’ to continually brake against the enormous gravitational pull of the sun. These thrust arcs can last from a few days up to two months, with the longer arcs interrupted periodically for navigation and maneuver optimization.
This challenging journey is one of the reasons that Mercury is one of the least explored planets in our solar system.
The images from the 3rd Mercury flby
BepiColombo got as close as 146 miles (235 km) from Mercury’s surface during this flyby. However, closest approach was past the unlit portion of Mercury, so scientists didn’t capture any images until a bit later. At about 13 minutes past closest approach, when the spacecraft was 1,143 miles (1,840 km) away, it reached the illuminated part of Mercury. Then it began sending back black-and-white images, including part of the craft itself. A Mercurial selfie, if you will.
The team uses these flybys as a chance to test some of the instruments. During Monday’s flyby, the magnetic, plasma and particle monitoring instruments sampled the environment. Johannes Benkhoff, project scientist, said:
Collecting data during flybys is extremely valuable for the science teams to check their instruments are functioning correctly ahead of the main mission. It also provides a novel opportunity to compare with data collected by NASA’s MESSENGER spacecraft during its 2011–2015 mission at Mercury from complementary locations around the planet not usually accessible from orbit. We are delighted to already have data published based on our previous flybys that generated new science results, which makes us even more excited to get into orbit!
Bottom line:BepiColombo had its 3rd flyby of Mercury on June 19, 2023. The spacecraft will eventually go into orbit around the closest planet to the sun. ESA released three new images of Mercury taken during the encounter.
NASA's MESSENGER mission has revealed that Mercury, the solar system's tiniest planet and the closest to the sun, hides a big secret.
(Left) A colorful view of Mercury produced using images from the color base map imaging campaign during MESSENGER's primary mission (Right) what Mercury may look like were its outer layers stripped to expose its 10-mile-thick layer of diamond
(Image credit: Robert Lea (created with Canva)/NASA/Johns Hopkins University Applied Physics Laboratory/Carnegie Institution of Washington)
The solar system's tiniest planet may be hiding a big secret. Using data from NASA's MESSENGER spacecraft, scientists have determined that a 10-mile-thick diamond mantle may lie beneath the crust of Mercury, the closest planet to the sun.
Mercury has long puzzled scientists as it possesses many qualities that aren't common to other solar system planets. These include its very dark surface, remarkably dense core, and the premature end of Mercury's volcanic era.
Also among these puzzles are patches of graphite, a type (or "allotrope") of carbon on the surface of the innermost planet of the solar system. These patches have led scientists to suggest that in Mercury's early history, the tiny planet had a carbon-rich magma ocean. This ocean would have floated to the surface, creating graphite patches and the dark-shaded hue of Mercury's surface.
In this new video, we see a series of images as BepiColombo speeds away from the closest planet to the sun during the 3rd Mercury flyby. The spacecraft captured these images in a span of about 50 minutes.
The same process would have also led to the formation of a carbon-rich mantle beneath the surface. The team behind these findings thinks that this mantle isn't graphene, as previously suspected, but is composed of another much more precious allotrope of carbon: diamond.
"We calculate that, given the new estimate of the pressure at the mantle-core boundary, and knowing that Mercury is a carbon-rich planet, the carbon-bearing mineral that would form at the interface between mantle and core is diamond and not graphite," team member Olivier Namur, an associate professor at KU Leuven, told Space.com. "Our study uses geophysical data collected by the NASA MESSENGER spacecraft."
MESSENGER (Mercury Surface, Space Environment, Geochemistry, and Ranging) launched in Aug. 2004 and became the first spacecraft to orbit Mercury. The mission, which ended in 2015, mapped the entire tiny world, discovering abundant water ice in shadows at the poles and gathering crucial data about Mercury's geology and magnetic field.
This new study also relates to a major surprise that came a few years ago when scientists re-evaluated the distribution of mass on Mercury, discovering the mantle of this tiny planet is thicker than previously thought.
"We directly thought that this must have a huge implication for the speciation [the distribution of an element or an allotrope amongst chemical species in a system] of carbon, diamond vs graphite, on Mercury," Namur said.
The team investigated this here on Earth by using a large-volume press to replicate the pressures and temperatures that exist within the interior of Mercury. They applied incredible amounts of pressure, over seven gigapascals, to a synthetic silicate acting as a proxy for the material found in the mantle of Mercury, achieving temperatures of up to 3,950 degrees Fahrenheit (2,177 degrees Celsius).
This allowed them to study how minerals like those that would have been found in Mercury's mantle in its early existence changed under these conditions. They also used computer modeling to assess data about Mercury's interior, which gave them clues to how the diamond mantle of Mercury could have been created.
"We believe that diamond could have been formed by two processes. First is the crystallization of the magma ocean, but this process likely contributed to forming only a very thin diamond layer at the core/mantle interface," Namur explained. "Secondly, and most importantly, the crystallization of the metal core of Mercury."
Namur said that when Mercury formed around 4.5 billion years ago, the core of the planet was fully liquid, progressively crystallizing over time. The exact nature of the solid phases forming in the inner core is not currently well known, but the team believes that these phases must have been low in carbon or "carbon-poor."
"The liquid core before crystallization contained some carbon; crystallization, therefore, leads to carbon enrichment in the residual melt," he continued. "At some point, a solubility threshold is reached, meaning the liquid cannot dissolve more carbon, and diamond forms."
Diamond is a dense mineral but not as dense as metal, meaning that during this process, it would have floated to the top of the core, stopping at the boundary of Mercury's core and its mantle. This would have resulted in the formation of an around 0.62-mile (1 km) thick diamond layer that then continued to grow over time.
The discovery highlights the differences between the birth of the closest planet to the sun when compared with the creation of the solar system's other rocky planets, Venus, Earth, and Mars.
"Mercury formed much closer to the sun, likely from a carbon-rich cloud of dust. As a consequence, Mercury contains less oxygen and more carbon than other planets, which led to the formation of a diamond layer," Namur added. "However, Earth's core also contains carbon, and diamond formation in the Earth's core has already been suggested by various researchers."
The researcher hopes that this discovery could help reveal clues to some of the other mysteries surrounding the solar system's smallest planet, including why its volcanic phase was cut short around 3.5 billion years ago.
"A major question that I have about Mercury's evolution is why the major phase of volcanism lasted only a few hundred million years, much shorter than other rocky planets. This must mean that the planet cooled down very fast," Namur said. "This is partly related to the small size of the planet, but we are now working with physicists to try to understand if a diamond layer could have contributed to very fast heat removal, therefore terminating major volcanism very early."
Namur said that the team's next step will be to investigate the thermal effect of a diamond layer at the mantle/core boundary. This study could be supported by data from a mission that will follow in the footsteps of MESSENGER.
"We are also eagerly waiting for the first data collected by BepiColombo, hopefully in 2026, to refine our understanding of Mercury's internal structure and evolution," Namur concluded.
A team of researchers from the Technical University of Denmark (DTU) has announced the creation of a so-called super battery made from rocks, a technology that may one day replace Lithium Ion batteries used in electric vehicle production.
The team claims their discovery would lead to cleaner, safer, and longer-lasting batteries that don’t rely on rare metals or end up as toxic waste. According to the DTU team behind the battery’s creation, the key to their entry into energy storage lies in the simplicity of the materials involved. More specifically, their super battery is based on potassium and sodium silicates, which are commonly found in rocks.
“These are rock silicates, which are some of the most common minerals in the Earth’s crust,” explains the press release announcing the new battery. “It is found in the stones you pick up on the beach or in your garden.”
WITH LITHIUM ION’S DAYS NUMBERED, SUPER BATTERY WILL LIKELY POWER THE VEHICLES OF THE FUTURE
Today, the vast majority of electric devices, including phones, computers, and cars, are powered by lithium-ion batteries. Unfortunately, lithium is a rare earth mineral and is also considered toxic. Batteries using lithium-ion energy storage have also proven to be dangerous under the right conditions. In some cases, electric cars or even commercial airlines have experienced lithium-ion batteries bursting into flames.
While consumers have somewhat tolerated these issues due to the longer drive times and relatively short device charge times lithium-ion batteries provide, industry experts often state that one way or another, the end of this class of batteries is coming sooner rather than later.
Now, DTU researchers say they may have developed and patented a commercially viable alternative that mitigates nearly all of the largest concerns regarding current technologies while also offering equally impressive drive times and shorter recharge times for electric vehicles.
TEAM SAYS SOLID STATE BATTERIES MADE FROM ROCKS OFFER COMPELLING ADVANTAGES
In developing their futuristic ‘super battery,’ the DTU team knew there was untapped potential in potassium-based silicates. The material is not only good at energy storage but also eco-friendly, inexpensive to extract, and available from material that covers 90 percent of the surface. Still, the research team says it has largely been ignored due to perceived limitations that they believe could be surmounted.
“The potential of potassium silicate as a solid-state electrolyte has been known for a long time, but in my opinion, has been ignored due to challenges with the weight and size of the potassium ions,” explained DTU researcher Mohamad Khoshkalam. “The ions are large and therefore move slower.”
When ions move slowly in a battery, it adversely affects everything from charge times and lifespan to safety. Still, Khoshkalam believed that the huge number of benefits offered by batteries essentially made from rocks were valuable enough that they could prove a nearly perfect medium for their new super battery.
This belief led to the testing of various formulas of potassium silicate-based electrolytes, with an eye on maintaining the material’s benefits while mitigating its weaknesses. According to Khoshkalam, this effort was a success.
After numerous trials, the team was able to create a superionic material of potassium silicate and a separate “process” that combined to make the ions move even faster than they do in lithium-based electrolytes. However, the researchers are keeping the exact formula a secret, although they have received a patent for it.
“The first measurement with a battery component revealed that the material has a very good conductivity as a solid-state electrolyte,” said Khoshkalam. “I cannot reveal how I developed the material, as the recipe and the method are now patented,”
TEAM ACKNOWLEDGES SOLID STATE ROCK BATTERIES ARE A HIGH-RISK TECHNOLOGY
In the DTU team’s formal announcement, they highlight previous announcements by car manufacturers that have promised to develop solid-state batteries “only to subsequently pull out.” Toyota recently announced plans for a 2027-2028 launch of a lithium-based solid-state-powered electric vehicle, but few details have been made available.
The DTU also projects what a solid-state super battery based on potassium silicate would look like, as well as the impressive performance and safety benefits it could offer.
“A single battery cell can be made as thin as a piece of cardboard, where the anode, cathode, and solid-state electrolyte are ultra-thin layers of material,” they explain. “This means that we can make more powerful batteries that take up less space. This offers benefits on the road, as you will be able to drive up to 1,000 km on a single 10-minute charge. In addition, a solid-state battery is more fireproof, as it does not contain combustible liquid.”
In their summary, the team concedes that moving their discovery from a lab invention to the commercial market won’t be easy, as “the chance of commercial success is small, and the technical challenges are many.” In fact, they say that the soonest people could even expect to see this type of technology powering a car is at least ten years away.
Still optimistic, Khoshkalam said he hopes to use his patent and his new company, K-Ion, to create a prototype solid-state super battery based on his science. If successful, he can show it to investors looking to help pave the way for his technology to power devices and EVs of the future.
“We have shown that we can find a material for a solid-state electrolyte that is cheap, efficient, eco-friendly, and scalable,” he explained, “and that even performs better than solid-state lithium-based electrolytes.”
Christopher Plain is a Science Fiction and Fantasy novelist and Head Science Writer at The Debrief. Follow and connect with him onX,learn about his books atplainfiction.com, or email him directly atchristopher@thedebrief.org.
Are robots poised to soon become our overlords? Maybe not yet, although billionaire technologist Elon Musk says they could soon take over Tesla production facilities as the company moves forward with plans to begin producing humanoid robots called Optimus as soon as next year.
In a post on X, Musk said, “Tesla will have genuinely useful humanoid robots in low production for Tesla internal use next year and, hopefully, high production for other companies in 2026.”
First named the “Tesla Bot” and revealed in 2021 at a Tesla AI Day event, the robot’s design has drastically changed over the last few years. Recently renamed Optimus, the humanlike robot was designed to perform dangerous work and repetitive tasks.
At 170 centimeters in height and weighing around 123 pounds, the robot’s new design is sleek compared to its appearance while in the initial prototype phase.
Tesla’s development of Optimus is not the first time robots designed to mimic human capabilities have made news. Other automotive and robotics companies, including Honda and Boston Dynamics, have made progress in recent years in the development of robots that include those with humanoid designs.
In 2015, DARPA hosted the Robotics Challenge, and many of the designs looked similar to the robots currently under development by Tesla.
The event, held at the Fairplex in Pomona, California, aimed to have participants create robot systems and software teams to help humans under conditions of natural and man-made disasters.
Team Kaist of Daejeon, Republic of Korea, won first place and the $2 million prize with their robot DRC-Hubo, while Team IHMC Robotics from Pensacola, Florida, secured second place and $1 million with their robot Running Man.
The prize for third place went to Tartan Rescue of Pittsburgh and their robot CHIMP, along with a $500,000 prize.
Musk initially speculated that Optimus would be ready for deployment in Tesla’s factories by the end of 2024. Similarly, Musk had said as early as 2019 that Tesla would have its long-awaited self-driving taxis in operation by the following year.
The company’s self-driving taxis are reportedly being unveiled later this year, although no official date has been confirmed.
Producing Oxygen From Rock Is Harder In Lower Gravities
One of the challenges engineers face when developing technologies for use in space is that of different gravities. Mostly, engineers only have access to test beds that reflect either Earth’s normal gravity or, if they’re fortunate, the microgravity of the ISS. Designing and testing systems for the reduced, but not negligible, gravity on the Moon and Mars is much more difficult. But for some systems, it is essential. One such system is electrolysis, the process by which explorers will make oxygen for astronauts to breathe on a permanent Moon or Mars base, as well as critical ingredients like hydrogen for rocket fuel. To help steer the development of systems that will work in those conditions, a team of researchers led by computational physicist Dr. Paul Burke of the Johns Hopkins University Applied Physics Laboratory decided to turn to a favorite tool of scientists everywhere: models.
Before we explore the model, examining the problem they are trying to solve is helpful. Electrolysis immerses an electrode in a liquid and uses an electrical current and subsequent chemical reaction to split atoms apart. So, for example, if you put an electrode in water, it would separate that water into hydrogen and oxygen.
The problem comes from reduced gravity. As part of electrolysis, bubbles form on the surface of the electrode. On Earth, those bubbles typically detach and float to the surface, as the density difference between them and the remaining liquid forces them to.
However, in reduced gravity, the bubbles either take much longer to detach or don’t do so at all. This creates a buffer layer along the electrode’s length that decreases the electrolysis process’s efficiency, sometimes stalling it out entirely. Electrolysis isn’t the only fluidic process that has difficulty operating in reduced gravity environments – many ISS experiments also have trouble. This is partly due to a lack of complete understanding of how liquids operate in these environments – and that in itself is partly driven by a dearth of experimental data.
Which is where the modeling comes in. Dr. Burke and his colleagues use a technique known as Computational Fluid Dynamics to attempt to mimic the forces the fluids will undergo in a reduced gravity environment while also understanding bubble formation.
Electrolysis on Earth is typically done with water, but why stop there? The team used their CFD to model two other liquids that might be used in electrolyzers – molten salt (MSE) and molten regolith (MRE). Molten salt is used on Earth, but less commonly than regular water, and has successfully produced oxygen. However, molten regolith electrolysis is still somewhat of a novel use case and has yet to be thoroughly tested. MOXIE, the experiment that famously created oxygen on Mars in 2021, used the carbon dioxide in Mars’ atmosphere and a solid-state electrode – neither representative of molten regolith.
Dr. Burke and his team found that, computationally, at least, MRE has the most challenging conditions in reduced gravity. It has also never been tested in any reduced gravity environment, so for now; these simulations are all engineers have to go on with if they are going to design a system.
There were a few key takeaways from the modeling, though. First, engineers should design horizontal electrodes into MRE systems, as the longer a bubble spreads across an electrode (i.e., as it goes “up” it), the longer it takes for that bubble to detach. In a horizontal configuration, the electrode has less surface area to attach to, making it more likely for the bubbles to detach and float to the surface.
Additionally, the amount of time bubbles remain attached to an electrode scales exponentially with decreasing gravity. That means bubbles on the Moon will take longer to detach than those on Mars, which will take longer than those on Earth. Consequently, electrolysis on the Moon will be less efficient than that on Mars, which will again be less efficient than that on Earth, and mission planners will need to account for these discrepancies if they plan on getting something as mission-critical as oxygen from this process. The smoothness of the electrodes also seems to matter, with rougher electrodes more likely to hold onto their bubbles and, therefore, end up less efficient.
Other engineering solutions can overcome all these challenges, such as a vibratory mechanism on the electrode to shake the bubbles loose. However, it’s a good idea to consider all the additional complications operations in a reduced gravity environment have before launching a mission. That’s why modeling is so important, but humanity will ultimately have to experimentally test these systems, perhaps on the Moon itself, if we plan to utilize its local resources to sustain our presence there.
Astronomers Have Tools That Can Help Detect Deepfake Images
There’s a burgeoning arms race between Artificial Intelligence (AI) deepfake images and the methods used to detect them. The latest advancement on the detection side comes from astronomy. The intricate methods used to dissect and understand light in astronomical images can be brought to bear on deepfakes.
The word ‘deepfakes’ is a portmanteau of ‘deep learning’ and ‘fakes.’ Deepfake images are called that because they’re made with a certain type of AI called deep learning, itself a subset of machine learning. Deep learning AI can mimic something quite well after being shown many examples of what it’s being asked to fake. When it comes to images, deepfakes usually involve replacing the existing face in an image with a second person’s face to make it look like someone else is in a certain place, in the company of certain people, or engaging in certain activities.
Deepfakes are getting better and better, just like other forms of AI. But as it turns out, a new tool to uncover deepfakes already exists in astronomy. Astronomy is all about light, and the science of teasing out minute details in light from extremely distant and puzzling objects is developing just as rapidly as AI.
In a new article in Nature, science journalist Sarah Wild looked at how researchers are using astronomical methods to uncover deepfakes. Adejumoke Owolabi is a student at the University of Hull in the UK who studies data science and computer vision. Her Master’s Thesis focused on how light reflected in eyeballs should be consistent, though not identical, between left and right. Owolabi used a high-quality dataset of human faces from Flickr and then used an image generator to create fake faces. She then compared the two using two different astronomical measurement systems called the CAS system and the Gini index to compare the light reflected in the eyeballs and to determine which were deepfakes.
CAS stands for concentration, asymmetry, and smoothness, and astronomers have used it for decades to study and quantify the light from extragalactic stars. It’s also used to quantify the light from entire galaxies and has made its way into biology and other areas where images need to be carefully examined. Noted astrophysicist Christopher J. Conselice was a key proponent of using CAS in astronomy.
The Gini index, or Gini coefficient, is also used to study galaxies. It’s named after the Italian statistician Corrado Gini, who developed it in 1912 to measure income inequality. Astronomers use it to measure how light is spread throughout a galaxy and whether it’s uniform or concentrated. It’s a tool that helps astronomers determine a galaxy’s morphology and classification.
In her research, Owolabi successfully determined which images were fake 70% of the time.
For her article, Wild spoke with Kevin Pimbblet, director of the Centre of Excellence for Data Science, Artificial Intelligence and Modelling at the University of Hull in the UK. Pimblett presented the research at the UK Royal Astronomical Society’s National Astronomy Meeting on July 15th.
“It’s not a silver bullet, because we do have false positives and false negatives,” said Pimbblet. “But this research provides a potential method, an important way forward, perhaps to add to the battery of tests that one can apply to try to figure out if an image is real or fake.”
This is a promising development. Open democratic societies are prone to disinformation attacks from enemies without and within. Public figures are prone to similar attacks. Disturbingly, the majority of deepfakes are pornographic and can depict public figures in private and sometimes degrading situations. Anything that can help combat it and bolster civil society is a welcome tool.
But as we know from history, arms races have no endpoint. They go on and on in an escalating series of countermeasures. Look at how the USA and the USSR kept one-upping each other during their nuclear arms race as warhead sizes reached absurd levels of destructive power. So, inasmuch as this work shows promise, the purveyors of deepfakes will learn from it and improve their AI deepfake methods.
Wild also spoke to Brant Robertson in her article. Robertson is an astrophysicist at the University of California, Santa Cruz, who studies astrophysics and astronomy, including big data and machine learning. “However, if you can calculate a metric that quantifies how realistic a deepfake image may appear, you can also train the AI model to produce even better deepfakes by optimizing that metric,” he said, confirming what many can predict.
This isn’t the first time that astronomical methods have intersected with Earthly issues. When the Hubble Space Telescope was developed, it contained a powerful CCD (charge-coupled device.) That technology made its way into a digital mammography biopsy system. The system allowed doctors to take better images of breast tissue and identify suspicious tissue without a physical biopsy. Now, CCDs are at the heart of all of our digital cameras, including on our mobile phones.
Might our internet browsers one day contain a deepfake detector based on Gini and CAS? How would that work? Would hostile actors unleash attacks on those detectors and then flood our media with deepfake images in an attempt to weaken our democratic societies? It’s the nature of an arms race.
It’s also in our nature to use deception to sway events. History shows that rulers with malevolent intent can more easily deceive populations that are in the grip of powerful emotions. AI deepfakes are just the newest tool at their disposal.
We all know that AI has downsides, and deepfakes are one of them. While their legality is fuzzy, as with many new technologies, we’re starting to see efforts to combat them. The United States government acknowledges the problem, and several laws have been proposed to deal with it. The “DEEPFAKES Accountability Act” was introduced in the US House of Representatives in September 2023. The “Protecting Consumers from Deceptive AI Act” is another related proposal. Both are floundering in the sometimes murky world of subcommittees for now, but they might breach the surface and become law eventually. Other countries and the EU are wrestling with the same issue.
But in the absence of a comprehensive legal framework dealing with AI deepfakes, and even after one is established, detection is still key.
Astronomy and astrophysics could be an unlikely ally in combatting them.
Curiosity Drives Over a Rock, Cracking it Open and Revealing an Amazing Yellow Crystal
On May 30th, the Mars Curiosity rover was just minding its own business exploring Gediz Vallis when it ran over a rock. Its wheel cracked the rock and voila! Pure elemental sulfur spilled out. The rover took a picture of the broken rock about a week later, marking the first time sulfur has been found in a pure form on Mars.
After Curiosity’s encounter with the broken rock and its pure sulfur innards, the rover trundled over to another rock, called “Mammoth Lakes” for a little drilling session. Before it left to explore other rocks, the rover managed to cut into that rock and take samples for further study to find out its chemical composition.
It’s not that sulfur isn’t prevalent on Mars. It is, but in different forms. The stuff is highly abundant in the Solar System, so this find isn’t as surprising as you’d think. However, Curiosity finding pure sulfur in the middle of broken rocks is a new experience in Mars exploration. So, of course, that’s raising questions about how it got there and its implications for habitable environments in Mars’s long history.
Curiosity’s Peregrinations
At the moment, the Curiosity rover is making its way through the Gediz Vallis. That’s a flow channel winding its way down a section of Mount Sharp (aka Aeolis Mons). That’s the central peak of Gale Crater. The rover has been heading up since 2014, charting different surface layers as it goes. Each layer was put down during a different era of Mars’s history. They could contain clues to the planet’s habitability in the past.
Fast-moving liquid water raged over the surface and carved Gediz. The floods carried a lot of rocks and sand and deposited them all along the way. Other piles of flood debris lie around the region, bearing witness to other ancient floods and landslides. “This was not a quiet period on Mars,” said Becky Williams, a scientist with the Planetary Science Institute in Tucson, Arizona, and the deputy principal investigator of the Mast Camera, or Mastcam on Curiosity. “There was an exciting amount of activity here. We’re looking at multiple flows down the channel, including energetic floods and boulder-rich flows.”
Understanding Sulfur’s Presence
The surface materials in Gediz contain high amounts of sulfates. Those are sulfur-bearing salts that appear as water evaporates. They are a chemical clue that water existed in the region. Judging by some parts of the surface, it also appears the water ponded at some times, in addition to the floods that scoured the landscape and then deposited debris.
Now the planetary science team has to explain how a pure form of elemental sulfur got stuck in the middle of rocks, according to project scientist Ashwin Vasavada. “Finding a field of stones made of pure sulfur is like finding an oasis in the desert,” said Vasavada. “It shouldn’t be there, so now we have to explain it. Discovering strange and unexpected things is what makes planetary exploration so exciting.”
Putting Sulfur in Context
Sulfur, of course, exists on Earth, which helps scientists understand its behavior and the environments where it’s found. The presence of sulfur can be a result of various geological processes. The sulfur “cycle” includes the flow of sulfur from the core to the surface through volcanism. That’s not unusual. Sulfur commonly appears around volcanic vents. Mt Ijen in Indonesia is a good example. It sports extensive elemental sulfur deposits that are mined.
The volcanic moon Io in the Jupiter system features patches of different allotropes of sulfur. They’re also volcanic in origin, spewed out along with widespread lava flows. This moon has more than 400 volcanic features, making it the most volcanically active (and sulfurous) place in the Solar System.
The pure sulfur in the Mars rock most likely came from volcanic processes. They occurred sometime in the past, but that doesn’t answer how the crystals got inside the rock it crushed. Scientists have known for years that Mars was extremely volcanically active in the past. For a long time, they also thought it was dead, or at least dormant. The planet has no plate tectonics like we see on Earth, either. However, the Mars InSight mission found evidence of some seismic activity on the planet in 2021.
In 2023, planetary scientists at the University of Arizona offered up evidence of a giant mantle plume under Elysium Planitia that drove some kinds of activity in the more recent past. Gale Crater lies in this region and could well have experienced related volcanic and seismic activity during the recent geologic past. If so, that could help explain the presence not only of pure sulfur but also the flood-related sulfates deposited on the surface.
Now DailyMail.com has spoken to a former Colorado prosecutor and current defense attorney, who has examined one of the over half-a-dozen 'alien' specimens with the help of three independent forensic medical examiners from the United States.
'These were not traditional human fingerprint patterns,' that attorney, Joshua McDowell, told DailyMail.com.
Above, a photo of one of the mummy's unusual fingerprints posted to social media by Jose Baizan and attributed to the Mexican Naval surgeon Dr Jose de Jesus Zalce Benitez, who has also examined the Peruvian 'alien' mummies on behalf of ufologist Jaime Maussan
In Peru last April - as part of another event hosted by Maussan - a new 'alien' specimen named Montserrat (above) was presented. This photo was taken by Colorado attorney Josh McDowell who told DailyMail.com, one mummies' 'fingerprints weren't consistent with human prints'
The use of fingerprints — or what are technically known as 'friction ridge' skin impressions — dates back as far as 300 BC in China according to the US Department of Justice's Fingerprint Sourcebook.
And criminal forensic investigators in America have long systematized the hunt for unique features ever since these patterns first came into use by US law enforcement in 1902, beginning with three broad types of fingerprint: arches, loops and whorls.
But 'María,' the so-called 'alien' mummy that McDowell and his forensic doctors examined, appeared to have fingerprints that matched no known human pattern.
'We did not see any loops or whorls on the prints of the fingers or on the toes,' McDowell, now principal at the McDowell Law Firm, told DailyMail.com.
'I'm a former prosecutor. I'm a criminal defense attorney. I've seen lots of fingerprints. And these were not classic fingerprints,' the attorney added.
'María's fingerprints weren't consistent with human prints.'
Criminal forensic investigators in America have long systematized the hunt for unique features ever since these patterns first came into use by US law enforcement in 1902, beginning with three broad types of fingerprint: arches, loops and whorls (pictured)
'We did not see any loops or whorls on the prints of the fingers or on the toes,' McDowell, now principal at the McDowell Law Firm, told DailyMail.com. Above an image of the specific, so-called 'alien' mummy in question, known as María, who was first made public in 2019
Like most of the well over half-a-dozen 'alien' mummy specimens brought to light by Jaime Maussan in the past year, María was discovered caked in diatomaceous earth: white, powdery aquatic fossils left behind by a type of plankton known as diatoms.
'Much of her body is covered in diatomaceous earth,' McDowell explained, 'however, on the fingers that were exposed, the epidermal ridges I saw appeared to be in mostly straight lines.'
McDowell and the three US medical examiners who journeyed with him to Peru to examine the bodies last April have emphasized that it would be 'extremely premature' to make any definitive statements about these mysterious mummies.
McDowell told DailyMail.com that there may yet be a terrestrial explanation for the unusually straight 'friction ridge' skin patterns on María's fingers and toes.
'It could possibly have something to do with the way her skin was preserved,' he advised. 'It's very odd.'
McDowell, previously a deputy district attorney for Colorado's Fourth Judicial District Attorney's Office, brought a city coroner from Denver as well as a forensic anthropologist from Maryland's State Medical Examiner to Peru to inspect María.
The third expert, McDowell's father Dr John McDowell, is a forensic odontologist and retired professor at the University of Colorado — who once worked to identify victims of the 9/11 terrorist attacks on the World Trade Center via their dental records.
Joshua McDowell emphasized to DailyMail.com that 'no determination has been made about what the nature of the specimens is at this date,' adding that his teams' effort to identify the true nature of these 'alien' mummies is very much still active.
'I've been to Mexico a couple times, spent a week in Peru,' the attorney said. 'Two to three hours a day, I'm dealing with something on this.'
'So far we have tomographies [CT scans] and fluoroscopy analysis,' Maussan told DailyMail.com describing the x-ray and ultrasound data on the mummies that he unveiled at West Hollywood's Mondrian Hotel at a prior March 12, 2024 press event (pictured above)
Above, two of Maussan's collaborators, documentarians Serena DC (right) and Michael Mazzola (left), pose with a new 'alien' mummy from this March - which they said has 30 percent 'unknown' DNA
This past January - after two mummies were seized by Peruvian customs - Flavio Estrada (right), a forensic archaeologist with Peru's Institute of Legal Medicine and Forensic Sciences of Lima, said that the alien bodies are 'dolls' made of animal parts
María is one several specimens that have been dubbed 'the Nazca mummies,' after the province in southwestern Peru where these bodies were allegedly unearthed.
Most of these specimens have gained fame and infamy, in part, due to their elongated heads and their three-fingered hands which resemble decades of anecdotal accounts and UFO lore about extraterrestrial 'grey' beings.
Maussan and his colleagues have had an eventful year pushing for wider scientific interest in the apparently alien bodies, including two bitter clashes with Peru's Ministry of Culture, who have described the mummies and man-made hoaxes.
In January, Flavio Estrada, a forensic archaeologist of the Institute of Legal Medicine and Forensic Sciences of Lima of the Public Ministry, told a press conference that two of the alien bodies seized by Peruvian customs were 'dolls.'
'The conclusion is simple,' Estrada said, 'they are dolls assembled with bones of animals from this planet, with modern synthetic glues, therefore they were not assembled during pre-Hispanic times.'
But María, like several of the other Nazca mummies, does not resemble the smaller, more doll-like specimens seized at the border or presented to Mexican congress.
The new — albeit provisional — fingerprint analysis suggests some of the Nazca mummies are either not dolls or were constructed of more grim, unusual material.
In March 2024, Maussan published a report on the DNA of the Nazca 'tridactyl' mummies - a report that he described as having been performed by 'the top specialist in Molecular Biology and Genetics of Peru' (page one above)
Ten scientists with San Luis Gonzaga National University of Ica (UNICA), according to Maussan's statement in March, concluded 'their DNA [i.e. the Nazca mummies' DNA] contains 29 percent that does not belong to the evolutionary chain of the Earth' (page two above)
But the larger Nazca mummy specimens also have their critics.
'The Spanish, when they arrived in the 16th Century observed and commented on individuals walking around with very specifically shaped skulls,' as Heaney told DailyMail.com, 'and they recognized and saw them doing it using these bandages.'
This specific 'alien' mummy, María, was first debuted at a November 6, 2019 press event held at Peru's San Luis Gonzaga National University of Ica (UNICA) alongside three other Nazca 'tridactyls' (three-fingered bodies): 'Wawita,' 'Albert' and 'Victoria.'
Maussan, who was a party to McDowells' trip to UNICA to inspect these mummies, unveiled a new 'alien' specimen named Montserrat during the recent April 2024 trip.
Maussan has pushed for wider scientific interest in the apparently alien bodies, including a presentation before Mexico's Congress (pictured)
'Would you consider I would take the bodies to the Mexican Congress putting in danger 50 years of [my journalism] career to present fake bodies?' he asked at a press event this March
The previous month, Maussan published a report on the Nazca 'tridactyls' DNA that he described as having been performed by 'the top specialist in Molecular Biology and Genetics of Peru.'
Ten scientists with UNICA, according to Maussan's statement that March, concluded 'their DNA [i.e. the Nazca mummies' DNA] contains 29 percent that does not belong to the evolutionary chain of the Earth.'
McDowell's US team of forensic medical examiners were more circumspect in their analysis after their trip to UNICA the following month.
'We would want actual, very definitive DNA studies done at high complexity laboratories,' the US team said at their mid-April 2024 press conference.
'The carbon dating needs to be repeated with more sophisticated methods. Those are things that we're looking for,' they added. 'Our preliminary investigation really just led to the fact that more investigation is needed.'
Tucker Carlson thinks they're biblical entities. Others say they are humans from the future coming back to study us.
Now, a new film proposes an even stranger theory about UFOs.
The Cosmic Joker investigates the idea that these entities may be 'tricksters' that deliberately shape themselves into what people want to see or into forms that people may be familiar with, director Mark Christopher Lee told DailyMail.com.
The movie concentrates on two infamous alien encounter tails: the Robert Taylor incident and the Pascagoula abduction of fishermen Charles Hickson and Calvin Parker.
The Pascagoula abduction of fishermen Charles Hickson (left) and Calvin Parker (right) and occurred in 1973
Mr Hickson and Mr Parker reported being experimented on by aliens with crab-like claws
It asks the question: Did the aliens who made contact with the men deliberately shape shift themselves into forms reminiscent of something in their personal lives?
The film also suggests aliens might not be from space at all - and that this might be behind alleged cover-ups of UFO evidence.
Mr Taylor was a forest worker in Scotland who described seeing a UFO resembling a naval sea mine in 1979.
The Cosmic Joker suggests the entity deliberately take this form to resemble something Mr Taylor was familiar with from his time in the military.
In 1973 in Pascagoula, Mississippi, Mr Hickson and Mr Parker reported being experimented on by aliens with crab-like claws.
Did alien intelligence shape itself to a form familiar to the two Deep South fishermen?
Lee told DailyMail.com: ‘What piqued my interest for this film was interviews about the Pascagoula Encounter in the US in 1973. Calvin Parker and Charles Hickson had an alleged abduction experience whilst fishing near the Pascagoula River.
‘They claimed they were taken onboard an alien craft and examined and physically handled by two aliens which had crab-like pincers. I just thought - why would the aliens have crab like pincers?’
The two men reported to the sheriff's department they had been abducted by gray-skinned aliens while fishing - with the aliens having ‘crab-like’ hands and ‘robotic’ mouths.
The men each had a puncture wound in their arm.
Hickson told The Washington Post: 'I was just getting ready to get some more bait, when I heard a kind of zipping sound. I looked up and saw a blue flashing light. Calvin turned around too.
'We saw a 30-foot-long object with a little dome on top.'
The two Pascagoula witnesses had physical injuries from the encounter
The police officers interviewing the men secretly left a tape recorder in the room with the witnesses after law enforcement left.
While they may have been hoping to catch the men drop their act and admit they made up the encounter, they only recorded them saying the experience scared them to death.
Lee told this website: ‘The police placed a hidden tape recorder, which captured them talking about how the experience scared them out of their lives. So that begs the question: if the experience was real, what were these creatures?
'Did they actually adapt themselves to what a couple of Deep South fishermen might expect to see? Why did they see the same thing?’
In the film, Lee also speaks to UFO author Malcolm Robinson, who describes the strange encounter World War II veteran Mr Taylor had with a UFO in the Dechmont Woods in Scotland.
Lee told DailyMail.com: ‘Mr Taylor encountered and was attacked by an alien or intelligence that was similar in appearance to a naval sea mine with sharp protruding limbs coming off the sides.
'Again I thought did the intelligence, whatever it may be, take this from as it would be familiar to Robert Taylor having served in the military?’
Mr Taylor's reported sighting was investigated by police after two spiked spheres rolled at him - leaving him unconscious for 20 minutes with ripped clothing.
Director Mark Christopher Lee spoke to DailyMail.com
The war hero and churchgoer was believed by locals - and police found strange marks on the ground which could not be explained by machinery in the vicinity.
Lee said others have suggested Taylor’s encounter may have been triggered by an epileptic episode.
The idea of aliens as shape-shifting ‘tricksters’ was first proposed in a book by late author John Keel, whose work inspired the Richard Gere film The Mothman Prophecies, Lee told this website.
He said: ‘Keep was the first to really study in minute detail UFO and alien encounters. From his research he noted that there was always this mischievous trickster element in these sightings.’
Keel’s book suggests aliens may not be from other planets, or from space at all - but may instead be ‘ultra-terrestrials’ who manipulate human beliefs.
Lee added: ‘Of course if this theory is true it is probably far more disturbing than being visited by other beings from other planets.
'Are we as humans the playthings of a far superior intelligence that lives alongside us?
‘Some modern Ufologists like Blink 182 musician Tom DeLonge believe that this intelligence has always been with us and that the US government knows this and is using the extraterrestrial hypothesis as a smokescreen to divert the public from the wilder truth.’
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Over mijzelf
Ik ben Pieter, en gebruik soms ook wel de schuilnaam Peter2011.
Ik ben een man en woon in Linter (België) en mijn beroep is Ik ben op rust..
Ik ben geboren op 18/10/1950 en ben nu dus 74 jaar jong.
Mijn hobby's zijn: Ufologie en andere esoterische onderwerpen.
Op deze blog vind je onder artikels, werk van mezelf. Mijn dank gaat ook naar André, Ingrid, Oliver, Paul, Vincent, Georges Filer en MUFON voor de bijdragen voor de verschillende categorieën...
Veel leesplezier en geef je mening over deze blog.