"The whitest paint in the world has been created in a lab at Purdue University," reports USA Today, "a paint so white that it could eventually reduce or even eliminate the need for air conditioning, scientists say.

"The paint has now made it into the Guinness World Records book as the whitest ever made."

Long-time Slashdot reader phalse phace shared their report: "When we started this project about seven years ago, we had saving energy and fighting climate change in mind," said Xiulin Ruan, a professor of mechanical engineering at Purdue, in a statement. The idea was to make a paint that would reflect sunlight away from a building, researchers said. Making this paint really reflective, however, also made it really white, according to Purdue University. The paint reflects 98.1% of solar radiation while also emitting infrared heat.

Because the paint absorbs less heat from the sun than it emits, a surface coated with this paint is cooled below the surrounding temperature without consuming power. Using this new paint to cover a roof area of about 1,000 square feet could result in a cooling power of 10 kilowatts. "That's more powerful than the air conditioners used by most houses," Ruan said. Typical commercial white paint gets warmer rather than cooler. Paints on the market that are designed to reject heat reflect only 80% to 90% of sunlight and can't make surfaces cooler than their surroundings...

Researchers at Purdue have partnered with a company to put this ultra-white paint on the market, according to a news release.
"This white paint is the result of research building on attempts going back to the 1970s," adds a statement from Purdue University, "to develop radiative cooling paint as a feasible alternative to traditional air conditioners.

"Ruan's lab had considered over 100 different materials, narrowed them down to 10 and tested about 50 different formulations for each material..." Two features make this paint ultra-white: a very high concentration of a chemical compound called barium sulfate — also used in photo paper and cosmetics — and different particle sizes of barium sulfate in the paint. What wavelength of sunlight each particle scatters depends on its size, so a wider range of particle sizes allows the paint to scatter more of the light spectrum from the sun.

An anonymous reader quotes a report from InterestingEngineering: As global carbon emissions that stem from fossil fuels keep adding to our ever-growing climate change issue, energy companies have turned their focus on renewables to generate fuel. One of those companies is Synhelion from Switzerland. The company harnesses the energy of the heat of the sun and converts the collected carbon dioxide into synthetic fuels, in turn offering a green and sustainable solution. The system is quite genius. Synhelion uses a mirror field filled with heliostats to reflect the radiation of solar power. The radiation is then concentrated in the solar receiver and turned into clean, high-temperature process heat at around 2.732F (1.500C). Next, the produced heat is turned into a CO2 and H2O mixture in a thermochemical reactor. The end product, the syngas, is then turned into gasoline, diesel, or jet fuel with a gas-to-liquid technology process. What makes this sustainable is the fact that the company's thermal energy storage (TES) saves the excess heat after each process which keeps the operation going 24/7.

And how does the solar receiver work? The company says the technology is inspired by nature. To reach ultra-high temperatures, the solar receiver mimics Earth's greenhouse gas effect. The chamber is filled with greenhouse gases that are usually water vapor or water and CO2 mixtures. After solar radiation collected with heliostats enters the chamber, the black surface of the chamber absorbs the heat, thermalizes, and re-radiates it. The greenhouse gas then absorbs the thermal radiation, acting as a heat transfer fluid (HTF), which can, later on, be turned into any type of liquid fuel. And liquid fuels are easy to transport which makes them low-cost compared to their solid counterparts. When there's no sun, the HTF flows through the TES in the opposite direction to recover the previously stored thermal energy. The hot HTF from the storage drives the thermochemical processes in the reactor that keeps the operation working. "The company states that through this technology, it can provide fuels at a cheaper price with a 50 to 100 percent lower carbon footprint compared to fossil fuels," the report adds. "In addition to Synhelion's aligned motives with the Paris Agreement's CO2 reduction targets, it is supported by larger industries looking to cut their emissions -- and eventually achieve net-zero -- by 2030."

Scientists found evidence that a region of northern Mars called Arabia Terra experienced thousands of "super eruptions," the biggest volcanic eruptions known, over a 500-million-year period. NASA reports the findings in a post: Some volcanoes can produce eruptions so powerful they release oceans of dust and toxic gases into the air, blocking out sunlight and changing a planet's climate for decades. By studying the topography and mineral composition of a portion of the Arabia Terra region in northern Mars, scientists recently found evidence for thousands of such eruptions, or "super eruptions," which are the most violent volcanic explosions known. Spewing water vapor, carbon dioxide, and sulfur dioxide into the air, these explosions tore through the Martian surface over a 500-million-year period about 4 billion years ago. Scientists reported this estimate in a paper published in the journal Geophysical Research Letters in July 2021. "Each one of these eruptions would have had a significant climate impact -- maybe the released gas made the atmosphere thicker or blocked the Sun and made the atmosphere colder," said Patrick Whelley, a geologist at NASA's Goddard Space Flight Center in Greenbelt, Maryland, who led the Arabia Terra analysis. "Modelers of the Martian climate will have some work to do to try to understand the impact of the volcanoes."
[...]
One remaining question is how a planet can have only one type of volcano littering a region. On Earth volcanoes capable of super eruptions -- the most recent erupted 76,000 years ago in Sumatra, Indonesia -- are dispersed around the globe and exist in the same areas as other volcano types. Mars, too, has many other types of volcanoes, including the biggest volcano in the solar system called Olympus Mons. Olympus Mons is 100 times larger by volume than Earth's largest volcano of Mauna Loa in Hawaii, and is known as a "shield volcano," which drains lava down a gently sloping mountain. Arabia Terra so far has the only evidence of explosive volcanoes on Mars. It's possible that super-eruptive volcanoes were concentrated in regions on Earth but have been eroded physically and chemically or moved around the globe as continents shifted due to plate tectonics. These types of explosive volcanoes also could exist in regions of Jupiter's moon Io or could have been clustered on Venus. Whatever the case may be, Richardson hopes Arabia Terra will teach scientists something new about geological processes that help shape planets and moons.

An anonymous reader shares a report (paywalled): Gas made up the largest share of the UK's energy mix in 2020, at 34%; followed by wind on a quarter; nuclear at 17%; biomass at 6.5% and solar at 4.4%. Despite the progress of renewables, detractors note the problems arise when the sun doesn't shine and the wind doesn't blow. Until reliable battery storage for renewable energy is developed, these sources can only ever be intermittent, critics argue, and some infrastructure will continue to use oil for back-up generation. It is a case made by the nuclear industry, which says that it is uniquely placed to provide the zero-emissions baseload the grid requires. Runaway gas prices are already sparking concern across the energy sector, with fears that consumers are facing a "bill shock" this winter. Personal finance expert Martin Lewis warned his readers last week: "This autumn's signature noise will be a deep thud... the sound of jaws hitting the floor as people finally see the practical evidence of the energy bill catastrophe laid bare."

UK gas prices reached 130p per therm last week, compared to 30p a year ago. In an unusual inversion, gas prices are trading above the equivalent price of Brent, the benchmark for crude oil. Both supply and demand factors are at play. The reopening of economies after Covid lockdowns has pushed up demand for gas. Countries are also trying to cut their use of coal, and switching to less polluting gas as a result. Europe is thus competing with Asia for shipments of liquid natural gas (LNG), a more mobile form of gas that is increasingly popular. Supply is also tight: a particularly cold winter meant Europe used up more reserves than usual and these have not been replenished. A spate of outages at gas production plants in different parts of the world have compounded the problem. To make matters worse, the UK has relatively low levels of gas storage. The country has eight gas storage sites that can hold an estimated 12 days of supply. Storage capacity was drastically reduced when the Rough site under the North Sea was closed in 2017 for safety and economic reasons. Rough, a disused oil field, could hold around 70% of UK gas reserves. "The market hasn't been able to fill up storage as we move into this winter. And hence we are very exposed, especially if it is another cold winter like last year," said James Huckstepp, analyst at S&P Platts. "Consumers are starting to recognise that their energy bills are going to be much higher this winter."

The Biden administration on Wednesday released a blueprint for producing almost half of the nation's electricity from the sun by 2050 -- something that would require the country to double the amount of solar energy installed every year over the next four years and then double it again by 2030. From a report: The expansion of solar energy is part of President Biden's effort to fight climate change, but there would be little historical precedent for increasing solar energy, which contributed less than 4 percent of the country's electricity last year, that quickly. Such a large increase, laid out in an Energy Department report, is in line with what most climate scientists say is needed to stave off the worst effects of global warming. It would require a vast transformation in technology, the energy industry and the way people live.

The Energy Department said its calculations showed that solar panels had fallen so much in cost that they could produce 40 percent of the country's electricity by 2035 -- enough to power all American homes -- and 45 percent by 2050. Getting there will mean trillions of dollars in investments by homeowners, businesses and the government. The electric grid -- built for hulking coal, natural gas and nuclear power plants -- would have to be almost completely remade with the addition of batteries, transmission lines and other technologies that can soak up electricity when the sun is shining and to send it from one corner of the country to another.

An anonymous reader quotes a report from CNN: The Perseverance rover successfully drilled into a Martian rock on Thursday, creating an intact core sample that could one day be returned to Earth. But NASA wants better images to make sure the sample is safely in the tube before it's sealed up and stowed on the rover. So far, data sent back by the rover and initial images suggest an intact sample was inside the tube after Perseverance drilled into a rock selected by the mission's science team. After the initial images were taken, the rover vibrated the drill bit and tube for five one-second bursts to clear both of any residual material from outside of the tube. It's possible that this caused the sample to slide down further inside the tube.

The next images taken after this were "inconclusive due to poor sunlight conditions," according to the agency. Perseverance will use its cameras to take more images under better lighting conditions before conducting the next steps of the sampling process. The extra step of taking additional images before sealing and stowing the sample tube was added after Perseverance attempted to drill into another rock target on August 5. During that attempt, the rock crumbled and there was no sample present in the tube once it was stowed.

Perseverance is currently exploring the Citadelle location in Jezero Crater, which -- billions of years ago -- was once the site of an ancient lake. The rover's specific target was a rock called Rochette, which is about the size of a briefcase and is part of a half-mile ridgeline of rock outcrops and boulders. The mission team should receive more images of what's inside the sample tube by September 4. If images taken while the sun is at a better angle don't help the team determine whether a sample is present, the tube will be sealed and the rover will measure its volume. If Perseverance is able to successfully collect samples from Mars, they will be returned to Earth by future missions -- and they could reveal if microbial life ever existed on Mars.

Some scientists believe there is a ninth planet lurking out there in the inky blackness at the edge of the solar system. A new analysis (PDF) supports the notion that there's something out there, and it also narrows the region we need to search if we want to find the contentious Planet Nine. ExtremeTech reports: Astronomers started talking seriously about a ninth planet in 2016 when Caltech's Mike Brown and Konstantin Batygin published a study detailing the unusual orbital behavior of Kuiper Belt Objects (KBOs). These icy chunks of rock orbit the sun out beyond the orbit of Neptune. Pluto might not be a planet anymore, but it was the first KBO ever discovered. According to the original study, the uneven distribution of orbits among KBOs points to the presence of a massive object in the outer solar system. All searches for this planet have come up empty, though. While some astronomers believe Planet Nine is a good explanation for KBO orbits, there has also been intense criticism of the study. Now, Brown and Batygin are back with a new analysis that aims to address some of those complaints. Chiefly, other scientists noted that it's difficult to observe KBOs, so many searches focus on the more convenient regions of the sky. Thus, we could simply be looking a biased data.

The Planet Nine duo kept some of the original KBOs in the new data set, but it also includes new space rocks. They also discarded any object that appeared to be influenced by Neptune's gravity. The updated set of 11 KBOs still shows an unusual orbital distribution. The study claims there is just a 0.4 percent chance that these orbits are a coincidence. A greater than 99 percent chance that there is a massive object affecting KBOs sounds high, but it's actually lower than the chance assigned to Planet Nine in the original 2016 study. You could argue, of course, that this is a much more realistic number.

Based on the new simulations, Batygin has created a "treasure map" of sorts that points the way to Planet Nine's most likely orbital arc. That expansive area crosses the luminous plane of the Milky Way, which might have helped Planet Nine hide from previous searches. This includes a chance in the expected orbit, bringing Planet Nine in closer to Earth. The original analysis estimated it has an orbital period of 18,500 Earth years, but now it's believed to be in the neighborhood of 7,400 Earth years. The pair believe we are only a few years away from spotting Planet Nine, and it may be the upcoming Vera Rubin Observatory in Chile.

sciencehabit shares a report from Science Magazine, written by Adam Mann: Like the Greek god Chronos, a good number of stars devour their children. As many as one-third of them have swallowed one or more of their own planets, a new study suggests. The findings could help astronomers rule out stellar systems unlikely to contain Earth-like worlds. The team investigated how often this happens by looking at 107 binary systems containing two Sun-like stars -- akin to the fictional two-sunned world Tatooine in Star Wars. In 33 of these pairs, one of the companions showed elevated levels of iron compared with the other, a sign of planetary cannibalism. These same partners were also rich in lithium, giving further credence to the world-munching hypothesis. Although Sun-like stars are born with substantial amounts of lithium, they burn it away within the first 100 million years of their lives, so seeing it in the older stars in the study sample indicated it likely came from a planet. Using these different lines of evidence, the team was able to model that between 20% and 35% of Sun-like stars consume a few Earths' worth of their offspring. Such events could happen in systems where gravitational interactions among the planets would either fling one into the central star or bring it close enough for the star to slowly vaporize and devour it. The findings have been published in the journal Nature Astronomy.

For a fraction of a second, 10 quadrillion watts of fusion power were produced this month by researchers at Lawrence Livermore National Laboratory.

The author of The Star Builders: Nuclear Fusion and the Race to Power the Planet explains what might happen next: The aim of these experiments is — for now — to show proof of principle only: that energy can be generated. The team behind the success are very close to achieving this: they have managed a more than 1,000-fold improvement in energy release between 2011 and today. Prof Jeremy Chittenden, co-director of the Centre for Inertial Fusion Studies at Imperial College London, said last month that "The pace of improvement in energy output has been rapid, suggesting we may soon reach more energy milestones, such as exceeding the energy input from the lasers used to kickstart the process...."

Many recent advances have been made with a different type of fusion device, the tokamak: a doughnut-shaped machine that uses a tube of magnetic fields to confine its fuel for as long as possible. China's Experimental Advanced Superconducting Tokamak (East) set another world record in May by keeping fuel stable for 100 seconds at a temperature of 120m degrees celsius — eight times hotter than the sun's core. The world's largest ever magnetic fusion machine, Iter, is under construction in the south of France and many experts think it will have the scale needed to reach net energy gain. The UK-based Joint European Torus (Jet), which holds the current magnetic fusion record for power of 67%, is about to attempt to produce the largest total amount of energy of any fusion machine in history. Alternative designs are also being explored: the UK government has announced plans for an advanced tokamak with an innovative spherical geometry, and "stellarators", a type of fusion device that had been consigned to the history books, are enjoying a revival having been enabled by new technologies such as superconducting magnets.

This is a lot of progress, but it's not even the biggest change: that would be the emergence of private sector fusion firms. The recently formed Fusion Industry Association estimates that more than $2bn of investment has flooded into fusion startups. The construction of experimental reactors by these firms is proceeding at a phenomenal rate: Commonwealth Fusion Systems, which has its origins in MIT research, has begun building a demonstration reactor in Massachusetts; TAE Technologies has just raised $280m to build its next device; and Canadian-based General Fusion has opted to house its new $400m plant in the UK. This will be constructed in Oxfordshire, an emerging hotspot for the industry that is home to private ventures First Light Fusion and Tokamak Energy as well as the publicly funded Jet and Mast (Mega Amp Spherical Tokamak) Upgrade devices run by the UK Atomic Energy Authority...

For now, publicly funded labs are producing results a long way ahead of the private firms — but this could change.
"Whether commercial fusion energy is ready in time to help with global warming or not depends on us as a society and how badly we want — no, need — star power on our side," the author concludes.

He also calls fusion energy "the only feasible way we can explore space beyond Earth's immediate vicinity."

Eric Niiler writes via Wired: The landscape of Titan, Saturn's largest moon, is both familiar and strange. Like Earth, Titan has rivers, lakes, clouds, and falling raindrops, as well as mountains of ice and a thick atmosphere. But instead of water, Titan's chemical cycle is composed of liquid methane, an organic molecule made from one carbon and four hydrogen atoms. Researchers believe this swirling mixture of methane, combined with the moon's nitrogen-laden atmosphere, surface water ice, and maybe some energy from either a volcano or a meteor impact, might have been the perfect recipe to create some kind of simple life form. [...] Now, A researcher has recreated Titan's environment in a small glass cylinder and mixed organic chemicals under the same temperature and pressure conditions found on that moon. Organic molecules that are liquid on Earth -- such as methane and benzene -- become solid icy mineral crystals on Titan because it's so cold, sometimes down to -290 Fahrenheit, according to Tomce Runcevski, an assistant professor of chemistry at Southern Methodist University, and the principal investigator on a study presented this week at the American Chemical Society meeting.

In a series of experiments, Runcevski took tiny glass tubes, sucked the air out of them with a pump, and added water ice. Then, one at a time, he added nitrogen, methane, its chemical relative ethane, and other organic compounds. Each time, he varied the composition of the chemical mixture inside the glass cylinders to see what would happen. He next applied pressure -- equivalent to about 1.45 times Earth's atmosphere -- and reduced the temperature by surrounding the vials with extremely cold air. [...] Under that moon's atmospheric pressure and temperature, he found that two organic molecules abundant on Titan and toxic to humans here on Earth -- acetonitrile and propionitrile -- become a single crystalline form. On Titan, these two molecules are formed by the combination of nitrogen and methane, plus energy from the sun, Saturn's magnetic field, and cosmic rays. Acetonitrile and propionitrile start as a gas in the atmosphere, then condense into aerosols, and then rain down onto the moon's surface and become chunks of solid minerals in several forms.

It's the first time that these two chemicals have been combined into a crystal shape on Earth under the conditions present on Titan. Another important finding is that the outer facet of the crystal also has a slight electric charge, or polarity, on its surface. That surface charge can attract other molecules such as water -- which would be necessary to form the building blocks of carbon-based life. This new experiment doesn't prove that there's life on Titan, but it means that researchers can discover new things about its weird, frigid surface environment even before the NASA Dragonfly spacecraft lands there.

"In the long-running TV show Doctor Who, aliens known as time lords derived their power from the captured heart of a black hole, which provided energy for their planet and time travel technology," writes Science magazine.

"The idea has merit, according to a new study."

Slashdot reader sciencehabit quotes their report: Researchers have shown that highly advanced alien civilizations could theoretically build megastructures called Dyson spheres around black holes to harness their energy, which can be 100,000 times that of our Sun. The work could even give us a way to detect the existence of these extraterrestrial societies...

Black holes are typically thought of as consumers rather than producers of energy. Yet their huge gravitational fields can generate power through several theoretical processes. These include the radiation emitted from the accumulation of gas around the hole, the spinning "accretion" disk of matter slowly falling toward the event horizon, the relativistic jets of matter and energy that shoot out along the hole's axis of rotation, and Hawking radiation—a theoretical way that black holes can lose mass, releasing energy in the process.

From their calculations, researchers concluded that the accretion disk, surrounding gas, and jets of black holes can all serve as viable energy sources. In fact, the energy from the accretion disk alone of a stellar black hole of 20 solar masses could provide the same amount of power as Dyson spheres around 100,000 stars, the team will report next month in the Monthly Notices of the Royal Astronomical Society. Were a supermassive black hole harnessed, the energy it could provide might be 1 million times larger still.

If such technology is at work, there may be a way to spot it. According to the researchers, the waste heat signal from a so-called "hot" Dyson sphere—one somehow capable of surviving temperatures in excess of 3000 kelvin, above the melting point of known metals—around a stellar mass black hole in the Milky Way would be detectible at ultraviolet wavelengths. Such signals might be found in the data from various telescopes, including NASA's Hubble Space Telescope and Galaxy Evolution Explorer.

An anonymous reader quotes a report from The Verge: On Wednesday, Facebook released a report about what content was most viewed by people in the US last quarter. It was the first time it had released such a report. But according to The New York Times, Facebook was working on a similar report for the first quarter of 2021 that it opted not to share because it might have reflected poorly on the company. The New York Times, which obtained a copy of the report, says that the most-viewed link in the first quarter had a headline that could promote COVID-19 vaccine hesitancy, which has been an issue on the social media platform. The headline read, "A 'healthy' doctor died two weeks after getting a COVID-19 vaccine; CDC is investigating why." The article was published by The South Florida Sun Sentinel and republished by The Chicago Tribune, The New York Times says.

Facebook was working on releasing this report, but executives, including Alex Schultz, Facebook's CMO and VP of analytics, apparently "debated whether it would cause a public relations problem, according to the internal emails" and ultimately decided not to publish it, The New York Times reported. "We considered making the report public earlier but since we knew the attention it would garner, exactly as we saw this week, there were fixes to the system we wanted to make," Facebook spokesman Andy Stone said in a statement. Stone also clarified Schultz's opinion on if Facebook should release the report, saying that Schultz "advocated for putting out the report."
UPDATE: Later Saturday Facebook relented and released the report online.

James Temple writes via MIT Technology Review: In 1987, dozens of nations adopted the Montreal Protocol, agreeing to phase out the use of chlorofluorocarbons and other chemicals used in refrigerants, solvents, and other industrial products that were breaking down Earth's protective ozone layer. It was a landmark achievement, the most successful example of nations pulling together in the face of a complex, collective threat to the environment. Three decades later, the atmospheric ozone layer is slowly recovering, preventing additional levels of ultraviolet radiation that cause cancer, eye damage, and other health problems. But the virtues of the agreement, ultimately ratified by every country, are more widespread than its impact on the ozone hole. Many of those chemicals are also powerful greenhouse gases. So as a major side benefit, their reduction over the last three decades has already eased warming and could cut as much as 1C off worldwide average temperatures by 2050.

Now, a new study in Nature highlights yet another crucial, if inadvertent, bonus: reducing the strain that ultraviolet radiation from the sun puts on plants, inhibiting photosynthesis and slowing growth. The Montreal Protocol avoided "a catastrophic collapse of forests and croplands" that would have added hundreds of billions of tons of carbon to the atmosphere, Anna Harper, a senior lecturer in climate science at the University of Exeter and a coauthor of the paper, said in an email. The Nature paper, published August 18, found that if production of ozone-depleting substances had continued ticking up 3% each year, the additional UV radiation would have curtailed the growth of trees, grasses, ferns, flowers, and crops across the globe.

The world's plants would absorb less carbon dioxide, releasing as much as 645 billion tons of carbon from the land to the atmosphere this century. That could drive global warming up to 1C higher over the same period. It would also have devastating effects on agricultural yields and food supplies around the globe. The impact of rising CFCs levels on plants, plus their direct warming effect in the atmosphere, could have pushed temperatures around 2.5C higher this century, the researchers found. That would all come on top of the already dire warming projections for 2100.

The asteroid credited with the extinction of the dinosaurs 66 million years ago is likely to have originated from the outer half of the solar system's main asteroid belt, according to new research by Southwest Research Institute (SwRI). Space.com reports: Known as the Chicxulub impactor, this large object has an estimated width of 6 miles (9.6 kilometers) and produced a crater in Mexico's Yucatan peninsula that spans 90 miles (145 kilometers). After its sudden contact with Earth, the asteroid wiped out not only the dinosaurs, but around 75 percent of the planet's animal species. It is widely accepted that this explosive force created was responsible for the mass extinction that ended the Mesozoic era. Researchers used computer models to analyse how asteroids are pulled from their orbit in different areas of the asteroid belt and drawn towards planets. The observations of 130,000 model asteroids, along with data and behaviour seen in other known impactors, found that objects are 10 times more likely to reach Earth from the outer asteroid belt than previously thought.

Prior to crashing into Earth, the extinction-causing asteroid orbited the sun with others, in the main asteroid belt. This concentrated band lies between planets Mars and Jupiter, with its contents usually kept in place by the forces of gravity. Before this study was released, scientists thought that very few of Earth's impactors escaped from the belt's outer half. But, researchers at SwRI discovered that "escape hatches" could be created by thermal forces, which pull more distant asteroids out of orbit and in the direction of Earth. The objects found in these outermost parts of the asteroid belt include many carbonaceous chondrite impactors. These are dark, porous and carbon-containing rocks which can also be found on Earth. Leading up to this research, other scientists have attempted to learn more about the object that doomed the dinosaurs. This included examinations of 66-million-year-old rocks. By doing this, geologists discovered that the Chicxulub asteroid had a similar composition to today's carbonaceous chondrites. By looking at wide timescales of the Chicxulub asteroid, the scientists could predict that a 6-mile asteroid is likely to come into contact with Earth once every 250 million years. Their model showed almost 50 percent of these significant impactors to be of the same carbonaceous chondrite composition. Details of the new study will be published in the November 2021 issue of the journal Icarus.

An anonymous reader quotes a report from The New York Times: Scientists have come tantalizingly close to reproducing the power of the sun -- albeit only in a speck of hydrogen for a fraction of a second. Researchers at Lawrence Livermore National Laboratory reported on Tuesday that by using 192 gigantic lasers to annihilate a pellet of hydrogen, they were able to ignite a burst of more than 10 quadrillion watts of fusion power -- energy released when hydrogen atoms are fused into helium, the same process that occurs within stars. Indeed, Mark Herrmann, Livermore's deputy program director for fundamental weapons physics, compared the fusion reaction to the 170 quadrillion watts of sunshine that bathe Earth's surface. "This about 10 percent of that," Dr. Herrmann said. And all of the fusion energy emanated from a hot spot about as wide as a human hair, he said.

But the burst -- essentially a miniature hydrogen bomb -- lasted only 100-trillionths of a second. Still, that spurred a burst of optimism for fusion scientists who have long hoped that fusion could someday provide a boundless, clean energy source for humanity. The success also signified a moment of redemption for Livermore's football-stadium-size laser apparatus, which is named the National Ignition Facility, or N.I.F. Despite an investment of billions of dollars -- construction started in 1997 and operations began in 2009 -- the apparatus initially generated hardly any fusion at all. In 2014, Livermore scientists finally reported success, but the energy produced then was minuscule -- the equivalent of what a 60-watt light bulb consumes in five minutes. On Aug. 8, the burst of energy was much greater -- 70 percent as much as the energy of laser light hitting the hydrogen target. That is still a losing proposition as an energy source, consuming more power than it produces. But scientists are confident that further jumps in energy output were possible with fine-tuning of the experiment.

A new paper suggests Saturn's core is more like a fluid than a solid, and makes up more of the planet's interior than we thought. From a report: With its massive rings stretching out 175,000 miles in diameter, Saturn is a one-of-a-kind planet in the solar system. Turns out its insides are pretty unique as well. A new study published in Nature Astronomy on Monday suggests the sixth planet from the sun has a "fuzzy" core that jiggles around. It's quite a surprising find. "The conventional picture for Saturn or Jupiter's interior structure is that of a compact core of rocky or icy material, surrounded by a lower-density envelope of hydrogen and helium," says Christopher Mankovich, a planetary scientist at Caltech and coauthor of the new study, along with his colleague Jim Fuller.

What Mankovich and Fuller glimpsed "is essentially a blurred-out version of that conventional structure." Instead of seeing a tidy boundary dividing the heavier rocks and ice from the lighter elements, they found that the core is oscillating so that there is no single, clear separation. This diffuse core extends out to about 60% of Saturn's radius -- a huge leap from the 10 to 20% of a planet's radius that a traditional core would occupy. One of the wildest aspects of the study is that the findings did not come from measuring the core directly -- something we've never been able to do. Instead, Mankovich and Fuller turned to seismographic data on Saturn's rings first collected by NASA's Cassini mission, which explored the Saturnian system from 2004 to 2017.

"Saturn essentially rings like a bell at all times," says Mankovich. As the core wobbles, it creates gravitational perturbations that affect the surrounding rings, creating subtle "waves" that can be measured. When the planet's core was oscillating, Cassini was able to study Saturn's C ring (the second block of rings from the planet) and measure the small yet consistent gravitational "ringing" caused by the core. Mankovich and Fuller looked at the data and created a model for Saturn's structure that would explain these seismographic waves -- and the result is a fuzzy interior. "This study is the only direct evidence for a diffuse core structure in a fluid planet to date," says Mankovich.

An anonymous reader quotes a report from Interesting Engineering: The Manatee Energy Storage Center -- the world's largest solar-powered battery storage facility -- is now 75% finished with 100 of 132 total containers already installed, reveals a press release from Florida Power and Light Company (FPL). The battery is housed in Manatee County as the name indicates and is expected to be fully operational by the end of the year. When completed, the system will have a 409-MW capacity with the ability to deliver 900 MWh of energy. This is enough electricity to power 329,000 homes for more than two hours.

The battery will serve to replace FPL's coal plants. The battery will store energy in order to bring electricity to homes even when the sun's not shining (at night and on cloudy days) meaning other more polluting power sources will not be required. Although customers are bound to see some financial benefits the main gains will be environmental. According to FPL, each battery module is capable of storing an amount of solar energy equivalent to roughly 2,000 iPhone batteries. The complete battery system will be equivalent to 100 million iPhone batteries and the energy storage containers will be organized across a 40-acre plot of land (the equivalent of 30 football fields). The battery will have a lifespan of 40 years.

"A start-up founded by scientists at the Massachusetts Institute of Technology says it is nearing a technological milestone that could take the world a step closer to fusion energy, which has eluded scientists for decades," reports the New York Times: Researchers at M.I.T.'s Plasma Science and Fusion Center and engineers at the company, Commonwealth Fusion Systems, have begun testing an extremely powerful magnet that is needed to generate immense heat that can then be converted to electricity. It would open the gates toward what they believe could eventually be a fusion reactor... Though a fusion energy breakthrough remains elusive, it is still held out as one of the possible high-technology paths to ending reliance on fossil fuels. And some researchers believe that fusion research could finally take a leap forward this decade. More than two dozen private ventures in the United States, Europe, China and Australia and government-funded consortia are now investing heavily in efforts to build commercial fusion reactors. Total investment by people such as Bill Gates and Jeff Bezos is edging toward $2 billion. The federal government is also spending about $600 million each year on fusion research, and there is a proposed amendment to add $1 billion to the Biden administration's infrastructure bill, said Andrew Holland, chief executive of the Fusion Industry Association...

Commonwealth's new magnet, which will be one of the world's most powerful, will be a crucial component in a compact nuclear fusion reactor known as a Tokamak, a design that uses magnetic forces to compress plasma until it is hotter than the sun... Commonwealth Fusion executives claim that the magnet is a significant technology breakthrough that will make Tokamak designs commercially viable for the first time. They say they are not yet ready to test their reactor prototype, but the researchers are finishing the magnet and hope it will be workable by 2025...

Commonwealth, which has raised more than $250 million so far and employs 150 people, received a significant boost last year when physicists at M.I.T.'s Plasma Science and Fusion Center and the company published seven peer-reviewed papers in the Journal of Plasma Physics explaining that the reactor will work as planned. What remains to be proved is that the Commonwealth prototype reactor can produce more energy than it consumes, an ability that physicists define as Q greater than 1. The company is hoping that its prototype, when complete, will produce 10 times the energy it consumes.
Commonwealth's chief executive (also a plasma physicist) explains to the Times how fusion energy is different than other sources: because it really doesn't require any resources. "You add up all the costs, the cost of normal stuff like concrete and steel, and it will make as much power as a gas plant, but without having to pay for the gas."

A pretty little white flower that grows near urban centers of the Pacific Northwest turns out to be a killer. NPR reports: The bog-dwelling western false asphodel, Triantha occidentalis, was first described in the scientific literature in 1879. But until now, no one realized that this sweet looking plant used its sticky stem to catch and digest insects, according to researchers who note in their study published Monday that it's the first new carnivorous plant to be discovered in about 20 years. "We had no idea it was carnivorous," says Sean Graham, a botanist with the University of British Columbia. "This was not found in some exotic tropical location, but really right on our doorstep in Vancouver. You could literally walk out from Vancouver to this field site." Fewer than a thousand plant species are carnivorous, and these plants tend to live in places with abundant sun and water, but nutrient-poor soil.

Graham's team was doing an unrelated project on plant genetics and noticed that the western false asphodel had a genetic deletion that's sometimes seen in carnivorous plants. The researchers started to think about the fact that this flower grew in the kind of environment that's home to various other insect-eating plants. "And then they have these sticky stems," says Graham. "So, you know, it was kind of like, hmm, I wonder if this could be a sign that this might be carnivorous."

To see if the plants could actually take in nutrients from insects, researcher Qianshi Lin, now at the University of Toronto, Mississauga, fed fruit flies nitrogen-15 isotopes, so that this nitrogen could be used as a tracker. He then stuck these flies to stems of this plant. Later, an analysis showed that nitrogen from the dead insects was indeed getting into the plants. In fact, Triantha was getting more than half of its nitrogen from prey. In the Proceedings of the National Academy of Sciences published online Monday, Lin and his colleagues say that this is comparable to what's seen in other carnivorous plants. What's more, the researchers showed that the sticky hairs on the flower stalk produce a digestive enzyme that's known to be used by many carnivorous plants. And when the research team looked at specimens of this plant preserved in herbariums, they found small dead insects stuck to the stems.

Slashdot reader fahrbot-bot quotes the New York Times: Two red things are hiding in a part of the solar system where they shouldn't be. The space rocks may have come from beyond Neptune, and potentially offer hints at the chaos of the early solar system.

Scientists led by Sunao Hasegawa from JAXA, the Japanese space agency, reported in The Astrophysical Journal Letters on July 26, 2021 that two objects, called 203 Pompeja and 269 Justitia, spotted in the asteroid belt between Mars and Jupiter appear to have originated beyond Neptune. The discoveries could one day provide direct evidence of the chaos that existed in the early solar system.

"If true it would be a huge deal," says Hal Levison, a planetary scientist at the Southwest Research Institute in Colorado, who was not involved in the research...

"People have been talking about some fraction of asteroids coming from the Kuiper belt for quite a while now," said Josh Emery, a planetary scientist from Northern Arizona University who was not involved in the paper. He said the research "definitely takes a step" toward finding evidence to support that hypothesis. Not everyone is convinced just yet. Dr. Levison, who was also not involved in the paper, says objects should become less red as they approach the sun. "It seems to be inconsistent with our models," said Dr. Levison, who is the head of NASA's Lucy mission, which is scheduled to launch in October to study Jupiter's Trojans [asteroids captured in its orbit].

Michaël Marsset from the Massachusetts Institute of Technology, a co-author on the paper, agrees that it's not clear why they would be so red, but it is possibly related to how long it took them to become implanted into the asteroid belt. Some Trojans may also be as red, but haven't been found yet.

To truly confirm the origin of 203 Pompeja and 269 Justitia, a spacecraft would likely need to visit them.