A new NASA study of its Apollo lunar soils clarifies the Moon’s record of meteorite impacts and timing of water delivery. These findings place upper bounds on how much water meteorites could have supplied later in Earth’s history.

Research has previously shown that meteorites may have been a significant source of Earth’s water as they bombarded our planet early in the solar system’s development. In a paper published Tuesday in the Proceedings to the National Academy of Sciences, researchers led by Tony Gargano, a postdoctoral fellow at NASA’s Johnson Space Center and the Lunar and Planetary Institute (LPI), both in Houston, used a novel method for analyzing the dusty debris that covers the Moon’s surface called regolith. They learned that even under generous assumptions, meteorite delivery since about four billion years ago could only have supplied a small fraction of Earth’s water.

The Moon serves as an ancient archive of the impact history the Earth-Moon system has experienced over billions of years. Where Earth’s dynamic crust and weather erase such records, lunar samples preserve them. The records don’t come without challenge, though. Traditional methods of studying regolith have relied on analyzing metal-loving elements. These elements can get muddied by repeated impacts on the Moon, making it harder to untangle and reconstruct what the original meteoroids contained.

Enter triple oxygen isotopes, high precision “fingerprints” that take advantage of the fact that oxygen, the dominant element by mass in rocks, is unaffected by impact or other external forces. The isotopes offer a clearer understanding of the composition of meteorites that impacted the Earth-Moon system. The oxygen-isotope measurements revealed that at least ~1% by mass of the regolith contained material from carbon-rich meteorites that were partially vaporized when they hit the Moon. Using the known properties of such meteorites allowed the team to calculate the amount of water that would have been carried within.   

“The lunar regolith is one of the rare places we can still interpret a time-integrated record of what was hitting Earth’s neighborhood for billions of years,” said Gargano. “The oxygen-isotope fingerprint lets us pull an impactor signal out of a mixture that’s been melted, vaporized, and reworked countless times.”

The findings have implications for our understanding of water sources on Earth and the Moon. When scaled up by roughly 20 times to account for the substantially higher rate of impacts on Earth, the cumulative water shown in the model made up only a small percent of the water in Earth’s oceans. That makes it difficult to reconcile the hypothesis that late delivery of water-rich meteorites was the dominant source of Earth’s water.

“Our results don’t say meteorites delivered no water,” added co-author Justin Simon, a planetary scientist at NASA Johnson’s Astromaterials Research and Exploration Science Division. “They say the Moon’s long-term record makes it very hard for late meteorite delivery to be the dominant source of Earth’s oceans.”

For the Moon, the implied delivery since about 4 billion years ago is tiny on an Earth-ocean scale but is not insignificant for the Moon. The Moon’s accessible water inventory is concentrated in small, permanently shadowed regions at the North and South Poles. These are some of the coldest spots in the solar system and introduce unique opportunities for scientific discovery and potential resources for lunar exploration when NASA lands astronauts on the Moon through Artemis III and beyond.

The samples analyzed for this study came from parts of the Moon near the equator on the side of the Moon facing Earth, where all six Apollo missions landed. The rocks and dust collected more than 50 years ago continue to reveal new insights but are constrained to a small portion of the Moon. Samples delivered through Artemis will open the door for a new generation of discoveries for decades to come.

“I’m part of the next generation of Apollo scientists —people who didn’t fly the missions, but who were trained on the samples and the questions Apollo made possible,” said Gargano. “The value of the Moon is that it gives us ground truth: real, physical material we can measure in the lab and use to anchor what we infer from orbital data and telescopes. I can’t wait to see what the Artemis samples have to teach us and the next generation about our place in the solar system.”

For more information on NASA’s Astromaterials Research and Exploration Science Division, visit:

https://science.nasa.gov/astromaterials

Karen Fox / Molly Wasser
Headquarters, Washington
240-285-5155 / 240-419-1732
karen.c.fox@nasa.gov / molly.l.wasser@nasa.gov   

Victoria Segovia
NASA’s Johnson Space Center
281-483-5111
victoria.segovia@nasa.gov

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Late Wednesday, X Safety confirmed that Grok was tweaked to stop undressing images of people without their consent.

"We have implemented technological measures to prevent the Grok account from allowing the editing of images of real people in revealing clothing such as bikinis," X Safety said. "This restriction applies to all users, including paid subscribers."

The update includes restricting "image creation and the ability to edit images via the Grok account on the X platform," which "are now only available to paid subscribers. This adds an extra layer of protection by helping to ensure that individuals who attempt to abuse the Grok account to violate the law or our policies can be held accountable," X Safety said.

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For weeks, xAI has faced backlash over undressing and sexualizing images of women and children generated by Grok. One researcher conducted a 24-hour analysis of the Grok account on X and estimated that the chatbot generated over 6,000 images an hour flagged as "sexually suggestive or nudifying," Bloomberg reported.

While the chatbot claimed that xAI supposedly "identified lapses in safeguards" that allowed outputs flagged as child sexual abuse material (CSAM) and was "urgently fixing them," Grok has proven to be an unreliable spokesperson, and xAI has not announced any fixes.

A quick look at Grok's safety guidelines on its public GitHub shows they were last updated two months ago. The GitHub also indicates that, despite prohibiting such content, Grok maintains programming that could make it likely to generate CSAM.

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This coverage is made possible through a partnership between Grist and The Salt Lake Tribune, a nonprofit newsroom in Utah.

Only a few years ago, if you popped open a can of soda anywhere in the United States, the container you held more likely than not contained bits of magnesium harvested from the Great Salt Lake.

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It seems that instead of updating Grok to prevent outputs of sexualized images of minors, X is planning to purge users generating content that the platform deems illegal, including Grok-generated child sexual abuse material (CSAM).

On Saturday, X Safety finally posted an official response after nearly a week of backlash over Grok outputs that sexualized real people without consent. Offering no apology for Grok's functionality, X Safety blamed users for prompting Grok to produce CSAM while reminding them that such prompts can trigger account suspensions and possible legal consequences.

"We take action against illegal content on X, including Child Sexual Abuse Material (CSAM), by removing it, permanently suspending accounts, and working with local governments and law enforcement as necessary," X Safety said. "Anyone using or prompting Grok to make illegal content will suffer the same consequences as if they upload illegal content."

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This coverage is made possible through a partnership between Gristand The Salt Lake Tribune, a nonprofit newsroom in Utah.

A Utah company says it has unearthed a massive deposit of minerals crucial for building electric vehicles, semiconductors, satellites, magnets, and more.

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President Donald Trump spent most of 2025 hacking away at large parts of the federal government. His administration fired, bought out, or otherwise ousted hundreds of thousands of federal employees. Entire agencies were gutted. By so many metrics, this year in politics has been defined more by what has been cut away than by what’s been added on. 

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On December 4, the White House released its National Security Strategy, detailing President Donald Trump’s plans for promoting his “America First” philosophy. The strategy includes a stronger military presence in pivotal regions, bringing countries into Washington’s orbit by negotiating peace settlements, and “securing access to critical supply chains and materials,” among several other priorities.

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Months after raising $59 million in venture capital to commercialize its miniaturized 3D sensors, Redmond, Wash.-based Lumotive is going global.

The company says it has opened offices in Oman and Taiwan to help bring its products to market — and has added two senior tech industry leaders to its management team.

“These milestones mark a pivotal moment for Lumotive as we move from innovation to large-scale commercialization,” Lumotive CEO Sam Heidari said today in a news release.

Founded in 2017, Lumotive is one of several startups that were spun off from Bellevue, Wash.-based Intellectual Ventures to take advantage of an innovation known as metamaterials. The technology makes it possible for signals to be “steered” electronically without moving parts.

Lumotive’s Light Control Metasurface platform, also known as LCM, can steer laser light to capture a 3D rendering of its surroundings, using a device that’s smaller than a credit card. Such laser-based location sensing is known generically as lidar (an acronym that stands for “light detection and ranging”)

The company’s backers include Microsoft co-founder Bill Gates‘ investment fund as well as Samsung Ventures, the Amazon Industrial Innovation Fund, Silicon Valley’s MetaVC and Oman’s ITHCA Group.

When Lumotive was founded, the spotlight was on the technology’s use in lidar systems for self-driving cars. Since then, lidar sensing has turned up in a wider array of devices, ranging from robots to smartphones.

“To be honest, even though we have had good engagements in automotive, our primary focus has been robotics,” Heidari told GeekWire. Lumotive has announced deals to provide its 3D sensor systems to three robotics companies: Hokuyo Automatic in Japan, Namuga in South Korea, and E-Photonics in Saudi Arabia. More deals are in the works.

To address anticipated demand, Lumotive has added Oman and Taiwan to a list of corporate locales that includes its Redmond HQ and branch offices in San Jose, Calif.; and Vancouver, B.C.

Lumotive’s Center of Excellence in Muscat, Oman, provides dedicated customer engineering and program management resources for Middle East and European markets. The Taiwan office beefs up Lumotive’s manufacturing operations, sales and field application capabilities near key partners in Asia.

Heidari said Lumotive has expanded its workforce by 50% over the past year. The current tally has risen to nearly 80 employees worldwide, roughly half of whom are based in Redmond.

That expansion is driven by two factors. “One is that as more customers come up, we need to build the infrastructure to be able to support them and help them through their designs,” Heidari said. “The second thing is that we’re actually looking at new areas of design, to augment our product and increase our market presence.”

Heidari highlighted two hires: Lumotive’s executive vice president of global business, Tristan Joo, brings more than two decades of experience in optical semiconductors at companies including Ofilm, Polight and ams OSRAM. Hassan Moussa, vice president of customer engineering and general manager of Lumotive Oman, previously led Valeo’s lidar program and has more than 20 years of experience in automotive sensing systems.

Lumotive has also expanded its distribution network and its partner ecosystem. In today’s news release, Joo said the new offices and partnerships will give Lumotive “the reach, capital and scalability to lead this next phase of global adoption — from robotics and automation to automotive and smart infrastructure.”

Moussa said Lumotive is redefining how 3D sensors are built, “shifting 3D sensing from niche lidar systems to a broader ecosystem where anyone can build it, just like cameras.”

When the bulk of this year’s Series B round was announced in February, The Wall Street Journal noted that Lumotive was bucking a trend that favored investment in artificial intelligence over non-AI technologies. Months later, Heidari acknowledges that getting investors excited about 3D sensing hasn’t always been easy.

“Coming up with something that is not AI today — sometimes you just don’t get the audience, even though what we are doing obviously is going to benefit the AI revolution,” he said. “AI is like a brain, right? Your brain without your senses is very limited. You need the eyes and the ears to absorb the physical world in order to utilize your brain.”

Looking more broadly, Heidari sees opportunities for optical semiconductors in the data centers that are powering the AI revolution.

“In data centers, there are switches that connect different racks of CPUs or GPUs, and these switches today are very power-hungry and very expensive,” Heidari said. “There are initiatives in the industry to simplify them by keeping them all in the optical domain, versus a hybrid of optical and electronic types of switches. So we are planning to be active in that market as well.”

In the meantime, the semiconductor industry is taking notice. Electronic Product Design & Test, a British journal focusing on electronics design, put Lumotive on its list of the year’s top startups last month. And just last week, the Global Semiconductor Alliance gave Lumotive its “Startup to Watch” award.

“We had Jensen Huang, the CEO of Nvidia, and many other brand names in the semiconductor space in the room,” Heidari said. “It was attended by 1,700 people, all executives and managers of semiconductor companies, and we were honored to receive the award for the best startup.”

The signals from Washington on critical minerals are no longer ambiguous; they are decisive, strategic and aligned with Australia’s long-term interests. The issue is whether Canberra and industry can convert this momentum into concrete projects that deliver secure supply chains, new processing capacity, domestic industrial depth and worthwhile commercial returns. To do that, Australia must move at speed, locking in partnerships, prioritizing specific minerals, and supporting companies ready to diversify minerals markets.

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The 2025 G20 Summit was held in Johannesburg on 22–23 November 2025. The United States (US) abstained from participating in the summit due to its diplomatic rift with the host, South Africa. President Xi Jinping also did not attend the summit, and Premier Li Qiang represented China. Russian President Vladimir Putin also did not participate in the summit. However, this did not dampen the spirit of the deliberations, and at the end of the summit, G20 members adopted the declaration by consensus.

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Ahh, today is that glorious day when I realize that my plan to write one or even two articles a month on my wonderful blog is failing. And then I remind myself that my worth checking series is not only there to share knowledge and interesting material but also to save my ass in just such situations. To

I hope you haven’t forgotten about the Worth Checking series. Here you can check out the latest one. I thought I’d post monthly in this format, but it would turn out that I’d have more entries like this than my own :) If there were maybe 10 articles a month, it would make as much sense as possible.

Welcome to the first article of never ending (or till I die) series called Worth checking episode 1.

Weird introduction

Being a security researcher or pentester, red teamer, hacker, or other specialist in a