From a paper on PNAS [PDF]: Can entire societies become more or less depressed over time? Here, we look for the historical traces of cognitive distortions, thinking patterns that are strongly associated with internalizing disorders such as depression and anxiety, in millions of books published over the course of the last two centuries in English, Spanish, and German. We find a pronounced "hockey stick" pattern: Over the past two decades the textual analogs of cognitive distortions surged well above historical levels, including those of World War I and II, after declining or stabilizing for most of the 20th century. Our results point to the possibility that recent socioeconomic changes, new technology, and social media are associated with a surge of cognitive distortions. Individuals with depression are prone to maladaptive patterns of thinking, known as cognitive distortions, whereby they think about themselves, the world, and the future in overly negative and inaccurate ways. These distortions are associated with marked changes in an individual's mood, behavior, and language. We hypothesize that societies can undergo similar changes in their collective psychology that are reflected in historical records of language use. Here, we investigate the prevalence of textual markers of cognitive distortions in over 14 million books for the past 125 y and observe a surge of their prevalence since the 1980s, to levels exceeding those of the Great Depression and both World Wars. This pattern does not seem to be driven by changes in word meaning, publishing and writing standards, or the Google Books sample. Our results suggest a recent societal shift toward language associated with cognitive distortions and internalizing disorders.

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An anonymous reader shares a report: With their crane-like necks, spindle legs and knobbly knees, giraffes are among the best loved and most recognizable of animals. Despite their elevated stature, however, giraffes have kept their surprisingly intricate social behavior under wraps. Once perceived as humble creatures that focused solely on feeding their majestic bodies, one book from 1991 described the giraffe as "socially aloof, forming no lasting bonds with its fellows and associating in the most casual way." But new research from the University of Bristol, published Tuesday in the journal Mammal Review, suggests giraffes have been misunderstood and are in fact a highly complex and social species. The most surprising thing for me is that it has taken until 2021 to recognize that giraffes have a complex social system. We have known for decades about other species of socially complex mammal, such as elephants, primates and cetaceans, but it is baffling to me how such a charismatic and well-known species as the giraffe could have been so understudied until recently," said Zoe Muller, study author and biologist at the University Of Bristol's School of Biological Sciences.

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Researchers around the world have continued breathing new life into a retracted study, which suggested that common antihypertensive medications were harmful in patients with COVID-19. From a report: Published online on May 1, 2020 in the New England Journal of Medicine, the study relied on Surgisphere data to claim an association between renin-angiotensin-aldosterone system (RAAS) inhibitor therapy and worse outcomes in hospitalized COVID-19 patients with cardiovascular disease. The journal retracted the paper due to concerns about fraudulent data on June 4, 2020 in a widely publicized move, but the study has continued to rack up citations -- totaling at least 652 as of May 31, 2021, reported Todd Lee, MD, MPH, of McGill University in Montreal, and colleagues. Just 17.6% of verified citations acknowledged or noted that the paper was retracted, according to their research letter published in JAMA Internal Medicine. In May of this year alone -- 11 months after the article was retracted -- it was referenced 21 times. "Our findings challenge authors, peer reviewers, journal editors, and academic institutions to do a better job of addressing the broader issues of ongoing citations of retracted scientific studies and protecting the integrity of the medical literature," Lee's group urged. The hypothesis that angiotensin-converting enzyme (ACE) inhibitors and angiotensin-receptor blockers (ARBs) may be harmful in patients with COVID-19 has been floated since the early days of the pandemic, with the reasoning being that since the SARS-CoV-2 virus enters human cells through ACE2 receptors, upregulation of these receptors could put patients at risk.

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Events in the genome of Welwitschia have given it the ability to survive in an unforgiving desert for thousands of years. From a report: The longest-lived leaves in the plant kingdom can be found only in the harsh, hyperarid desert that crosses the boundary between southern Angola and northern Namibia. A desert is not, of course, the most hospitable place for living things to grow anything, let alone leafy greens, but the Namib Desert -- the world's oldest with parts receiving less than two inches of precipitation a year -- is where Welwitschia calls home. In Afrikaans, the plant is named "tweeblaarkanniedood," which means "two leaves that cannot die." The naming is apt: Welwitschia grows only two leaves -- and continuously -- in a lifetime that can last millenniums. "Most plants develop a leaf, and that's it," said Andrew Leitch, a plant geneticist at Queen Mary University of London. "This plant can live thousands of years, and it never stops growing. When it does stop growing, it's dead." Some of the largest plants are believed to be over 3,000 years old, with two leaves steadily growing since the beginning of the Iron Age, when the Phoenician alphabet was invented and David was crowned King of Israel. By some accounts, Welwitschia is not much to look at. Its two fibrous leaves, buffeted by dry desert winds and fed on by thirsty animals, become shredded and curled over time, giving Welwitschia a distinctly octopus-like look. One 19th-century director of Kew Gardens in London remarked, "it is out of the question the most wonderful plant ever brought to this country and one of the ugliest." But since it was first discovered, Welwitschia has captivated biologists including Charles Darwin and the botanist Friedrich Welwitsch after whom the plant is named: It is said that when Welwitsch first came across the plant in 1859, "he could do nothing but kneel down on the burning soil and gaze at it, half in fear lest a touch should prove it a figment of the imagination." In a study published last month in Nature Communications, researchers report some of the genetic secrets behind Welwitschia's unique shape, extreme longevity and profound resilience.

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Long-time Slashdot reader Mogster quotes : Steven Weinberg, a Nobel-prize winning physicist whose work helped link two of the four fundamental forces, has died at the age of 88, the University of Texas at Austin (UT Austin) announced Saturday (July 24). HIs work was foundational to the Standard Model, the overarching physics theory that describes how subatomic particles behave. His seminal work was a slim, three-page paper published in 1967 in the journal Physical Review Letters and entitled "A Model of Leptons." In it, he predicted how subatomic particles known as W, Z and the famous Higgs boson should behave — years before those particles were detected experimentally, according to a statement from UT Austin. The paper also helped unify the electromagnetic force and the weak force and predicted that so-called "neutral weak currents" governed how particles would interact, according to the statement. In 1979, Weinberg and physicists Sheldon Glashow and Abdus Salam earned the Nobel Prize in physics for this work. Throughout his life, Weinberg would continue his search for a unified theory that would unite all four forces, according to the statement. Weinberg also wrote a book called "The First Three Minutes: A Modern View of the Origin of the Universe" — in 1977.

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An anonymous reader quotes a report from Phys.Org: Today, the LHCb experiment at CERN is presenting a new discovery at the European Physical Society Conference on High Energy Physics (EPS-HEP). The new particle discovered by LHCb, labeled as Tcc+, is a tetraquark -- an exotic hadron containing two quarks and two antiquarks. It is the longest-lived exotic matter particle ever discovered, and the first to contain two heavy quarks and two light antiquarks. Quarks are the fundamental building blocks from which matter is constructed. They combine to form hadrons, namely baryons, such as the proton and the neutron, which consist of three quarks, and mesons, which are formed as quark-antiquark pairs. In recent years a number of so-called exotic hadrons -- particles with four or five quarks, instead of the conventional two or three -- have been found. Today's discovery is of a particularly unique exotic hadron, an exotic exotic hadron if you like. The new particle contains two charm quarks and an up and a down antiquark. Several tetraquarks have been discovered in recent years (including one with two charm quarks and two charm antiquarks), but this is the first one that contains two charm quarks, without charm antiquarks to balance them. Physicists call this "open charm" (in this case, "double open charm"). Particles containing a charm quark and a charm antiquark have "hidden charm" -- the charm quantum number for the whole particle adds up to zero, just like a positive and a negative electrical charge would do. Here the charm quantum number adds up to two, so it has twice the charm! The quark content of Tcc+, has other interesting features besides being open charm. It is the first particle to be found that belongs to a class of tetraquarks with two heavy quarks and two light antiquarks. Such particles decay by transforming into a pair of mesons, each formed by one of the heavy quarks and one of the light antiquarks. According to some theoretical predictions, the mass of tetraquarks of this type should be very close to the sum of masses of the two mesons. Such proximity in mass makes the decay "difficult," resulting in a longer lifetime of the particle, and indeed Tcc+, is the longest-lived exotic hadron found to date.

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Five public research institutions in France have imposed a 3-month moratorium on the study of prions -- a class of misfolding, infectious proteins that cause fatal brain diseases -- after a retired lab worker who handled prions in the past was diagnosed with Creutzfeldt-Jakob disease (CJD), the most common prion disease in humans. From a report: An investigation is underway to find out whether the patient, who worked at a lab run by the National Research Institute for Agriculture, Food and Environment (INRAE), contracted the disease on the job. If so, it would be the second such case in France in the past few years. In June 2019, an INRAE lab worker named Emilie Jaumain died at age 33, 10 years after pricking her thumb during an experiment with prion-infected mice. Her family is now suing INRAE for manslaughter and endangering life; her illness had already led to tightened safety measures at French prion labs.

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Mogster shares a report from SciTechDaily: A one-atom-thin 2D magnet developed by Berkeley Lab and UC Berkeley could advance new applications in computing and electronics. The researchers synthesized the new 2D magnet -- called a cobalt-doped van der Waals zinc-oxide magnet -- from a solution of graphene oxide, zinc, and cobalt. The new material -- which can be bent into almost any shape without breaking, and is a million times thinner than a sheet of paper -- could help advance the application of spin electronics or spintronics, a new technology that uses the orientation of an electron's spin rather than its charge to encode data. And unlike previous 2D magnets, which lose their magnetism at room temperature or above, the researchers found that the new 2D magnet not only works at room temperature but also at 100 degrees Celsius (212 degrees Fahrenheit).

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An anonymous reader quotes a report from Ohio State News: Scientists who study glacier ice have found viruses nearly 15,000 years old in two ice samples taken from the Tibetan Plateau in China. Most of those viruses, which survived because they had remained frozen, are unlike any viruses that have been cataloged to date. The findings, published today in the journal Microbiome, could help scientists understand how viruses have evolved over centuries. For this study, the scientists also created a new, ultra-clean method of analyzing microbes and viruses in ice without contaminating it. The researchers analyzed ice cores taken in 2015 from the Guliya ice cap in western China. The cores are collected at high altitudes -- the summit of Guliya, where this ice originated, is 22,000 feet above sea level. The ice cores contain layers of ice that accumulate year after year, trapping whatever was in the atmosphere around them at the time each layer froze. Those layers create a timeline of sorts, which scientists have used to understand more about climate change, microbes, viruses and gases throughout history. Researchers determined that the ice was nearly 15,000 years old using a combination of traditional and new, novel techniques to date this ice core. When they analyzed the ice, they found genetic codes for 33 viruses. Four of those viruses have already been identified by the scientific community. But at least 28 of them are novel. About half of them seemed to have survived at the time they were frozen not in spite of the ice, but because of it.

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Another scorching summer heat wave was set to peak across portions of the western United States early this week, with air so dry that rain from thunderstorms evaporated before reaching the ground and smoke from wildfires delayed hundreds of flights at one of the region's largest airports. From a report: Temperatures reached the upper 90s and lower 100s in parts of the Northern Rockies on Monday, and forecasters warned of "dry thunderstorms," which bring lightning that can spark fires, but no rain to quench them. It was the fourth major heat wave to afflict parts of the West since early June, bringing dangerously hot temperatures and helping fuel the deepening drought and exploding wildfires across the region. An excessive heat warning was also in effect for parts of Montana and Wyoming through Thursday, the National Weather Service said. Glasgow, a town in northern Montana, hit 110 degrees on Monday, the Weather Service said. By 2:45 p.m. local time, Billings, toward the southern portion of the state, was officially hotter than Death Valley, Calif., at 110.4 degrees. Weather officials in Billings took advantage of the toasty temperatures and baked a batch of cookies on the dashboard of a car. "It may have taken 5 hours but we have fully baked cookies," they shared on Twitter. Lander, in central Wyoming, reached a record 100 degrees on Monday, according to the Weather Service. In 130 years, it was only the 21st day in Lander to reach triple digits. Parts of Idaho, including Boise and Twin Falls, saw much needed rain showers.

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Slashdot reader sciencehabit shares news from Science magazine: When a giant space rock struck the waters near Mexico's Yucatán Peninsula 66 million years ago, it sent up a blanket of dust that blotted out the Sun for years, sending temperatures plummeting and killing off the dinosaurs. The impact also generated a tsunami in the Gulf of Mexico that some modelers believe sent an initial tidal wave up to 1500 meters (or nearly 1 mile) high crashing into North America, one that was followed by smaller pulses. Now, for the first time, scientists have discovered fossilized megaripples from this tsunami buried in sediments in what is now central Louisiana. "It's great to actually have evidence of something that has been theorized for a really long time," says Sean Gulick, a geophysicist at the University of Texas, Austin. Gulick was not involved in the work, but he co-led a campaign in 2016 to drill down to the remains of the impact crater, called Chicxulub... Cores from the 2016 drilling expedition helped explain how the impact crater was formed and charted the disappearance and recovery of Earth's life. In 2019, researchers reported the discovery of a fossil site in North Dakota, 3000 kilometers north of Chicxulub, that they say records the hours after the impact and includes debris swept inland from the tsunami. "We have small pieces of the puzzle that keep getting added in," says Alfio Alessandro Chiarenza, a paleontologist at the University of Vigo who was not involved with the new study. "Now this research is another one, giving more evidence of a cataclysmic tsunami that probably inundated [everything] for thousands of miles."

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An anonymous reader quotes a report from New Atlas: By making alterations to the plastic manufacturing process, scientists hope to produce forms of the ubiquitous material that can break down far more safely and quickly in the environment than current versions do. Researchers in China have now demonstrated a new example of this that degrades in just a week when exposed to sunlight and oxygen, which they believe could make for electronics that are easier to dispose of at the end of their lives. The new material came about when study author Liang Luo from China's Huazhong University of Science and Technology was working on an advanced type of chemical sensor, as reported by PNAS. The materials scientist was developing a novel polymer film that changed color in response to pH levels. This process was driven by the material's unique molecular structure, with the chains of monomers giving the film its deep red color, and taking it away when these bonds were broken. Through his team's experiments, Luo found that the deep red color of the film quickly faded away and the material broke apart after several days in the sunlight. Breaking apart these bonds is a common objective in research efforts to better recycle plastics, and in doing so Luo may have inadvertently conjured up a promising, environmentally friendly version of the material. The molecular makeup of the plastic means it wouldn't be suited for use in soda bottles or shopping bags, as it is only stable as a functional material in the dark and without oxygen. But exposed to sunlight and air, it disintegrates rapidly and completely decomposes within a week, leaving no environmentally damaging microplastic fragments behind. A byproduct of the process is naturally occurring succinic acid, however, which could potentially be upcycled for commercial use in pharmaceuticals or food.

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From the Washington Post: When we are young, our skills tend to improve with age and experience. But once we are well into adulthood, it may start to feel as if it's all downhill. With every advancing year, we become slightly more forgetful, somewhat slower to respond, a little less energetic. Yet there is at least one important exception: In the emotional realm, older people rule supreme. For the past 20 years, Susan Turk Charles, a psychologist at the University of California at Irvine, has been monitoring the shifting moods, the sense of satisfaction, the moments of contemplation and the occasional outbursts of anger, sadness and despair of people of all ages — with a special interest in how we handle and experience emotions as we grow older. She and her colleagues have found that, on average, older people have fewer but more satisfying social contacts and report higher emotional well-being.... "I took a class from Laura Carstensen at Stanford, and she was the first to say that there was more development after age 18. She was finding that unlike physical fitness or cognition, where you may see slowing or declines, emotional regulation and experience are often as good, if not better, as we age... Some neuroscientists believe that because we're processing information a little slower with age, that makes us think before we act. We do see a decline with age in overall mass of the brain's frontal lobe, the part that is responsible for emotion regulation, complex reasoning and speed of processing. But researchers also find that older adults often exhibit greater prefrontal cortex activity than younger adults when processing emotions. "A lot of work has found that older people have a positive bias, even without realizing they're doing this. Their default mode is 'Don't sweat the small stuff.' Older people more often let go of a situation they experience as negative, especially with friends and family. So it is picking their battles that we think older adults are better at..." Q: Centenarians report overall high levels of emotional well-being. Some may wonder whether it might just be that people who have more positive attitudes, or encounter less adversity, live longer. "It is true that people with satisfying relationships and positive emotions live longer. Researchers have looked at what could explain this, and they find that psychological well-being is related to lower levels of the stress hormone cortisol and better cardiovascular health." Asked for suggestions, the researcher proposes an inner strategy that "takes you away from focusing on the future and reminds you that the present moment is the most important."

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Long-time Slashdot reader schwit1 shares new from SciTechDaily: For the first time, University of Basel researchers have equipped an ultrathin semiconductor with superconducting contacts. These extremely thin materials with novel electronic and optical properties could pave the way for previously unimagined applications. Combined with superconductors, they are expected to give rise to new quantum phenomena and find use in quantum technology.... With a view to future applications in electronics and quantum technology, researchers are focusing on the development of new components that consist of a single layer (monolayer) of a semiconducting material. Some naturally occurring materials with semiconducting properties feature monolayers of this kind, stacked to form a three-dimensional crystal. In the laboratory, researchers can separate these layers — which are no thicker than a single molecule — and use them to build electronic components. These ultrathin semiconductors promise to deliver unique characteristics that are otherwise very difficult to control, such as the use of electric fields to influence the magnetic moments of the electrons. In addition, complex quantum mechanical phenomena take place in these semiconducting monolayers that may have applications in quantum technology... A team of physicists, led by Dr. Andreas Baumgartner in the research group of Professor Christian Schönenberger at the Swiss Nanoscience Institute and the Department of Physics of the University of Basel, has now fitted a monolayer of the semiconductor molybdenum disulfide with superconducting contacts for the first time... "In a superconductor, the electrons arrange themselves into pairs, like partners in a dance — with weird and wonderful consequences, such as the flow of the electrical current without a resistance," explains Baumgartner, the project manager of the study. "In the semiconductor molybdenum disulfide, on the other hand, the electrons perform a completely different dance, a strange solo routine that also incorporates their magnetic moments. Now we would like to find out which new and exotic dances the electrons agree upon if we combine these materials." Mehdi Ramezani, lead author of the study, says that "In principle, the vertical contacts we've developed for the semiconductor layers can be applied to a large number of semiconductors."

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An anonymous reader quotes a report from Phys.Org: Scientists at KAIST have fabricated a laser system that generates highly interactive quantum particles at room temperature. Their findings, published in the journal Nature Photonics, could lead to a single microcavity laser system that requires lower threshold energy as its energy loss increases. The system, developed by KAIST physicist Yong-Hoon Cho and colleagues, involves shining light through a single hexagonal-shaped microcavity treated with a loss-modulated silicon nitride substrate. The system design leads to the generation of a polariton laser at room temperature, which is exciting because this usually requires cryogenic temperatures. The researchers found another unique and counter-intuitive feature of this design. Normally, energy is lost during laser operation. But in this system, as energy loss increased, the amount of energy needed to induce lasing decreased. Exploiting this phenomenon could lead to the development of high efficiency, low threshold lasers for future quantum optical devices. [...] The key is the design and materials. The hexagonal microcavity divides light particles into two different modes: one that passes through the upward-facing triangle of the hexagon and another that passes through its downward-facing triangle. Both modes of light particles have the same energy and path but don't interact with each other. However, the light particles do interact with other particles called excitons, provided by the hexagonal microcavity, which is made of semiconductors. This interaction leads to the generation of new quantum particles called polaritons that then interact with each other to generate the polariton laser. By controlling the degree of loss between the microcavity and the semiconductor substrate, an intriguing phenomenon arises, with the threshold energy becoming smaller as energy loss increases.

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A team of Korean scientists may have found a way to desalinate seawater in minutes. An anonymous reader quotes a report from Interesting Engineering: When using membranes to filter seawater, the membrane must remain dry for long periods of time. If the membrane becomes wet, the filtration process becomes ineffective and allows large amounts of salt to pass through the membrane. For long term operations, progressive membrane wetting has been observed regularly, which be resolved by changing the membrane. Researcher Yunchul Woo and his team at the Korea Institute of Civil Engineering and Building Technology (KICT) have now developed a membrane that is less susceptible to wetting and is stable in the long term. The membrane is made of nanofibers that have been fabricated into a three-dimensional hierarchical structure, This was achieved by using a type of nanotechnology called electrospinning. Using this technology, the researchers were able to fabricate a membrane that is highly hydrophobic -- i.e. water repellent. The hydrophobic nature of the membrane is helpful because it is designed to not allow water molecules to pass. Instead, a temperature difference is applied on the two sides of the membrane that causes water from one end to evaporate into water vapor. The membrane allows water vapor to pass, which then condenses onto the cooler side. Called, membrane distillation, this is a commonly used method of desalination using membranes. Since the salt particles are not converted to the gaseous state, they are left out on one side of the membrane, giving highly purified water on the other side. The Korean researchers also used silica aerogel in their membrane fabrication process which further enhanced the flow of water vapor through the membrane, providing quicker access to desalinated water. The team tested their technology for continuous operation for 30 days and found that the membrane continued to filter out 99.9 percent salt without any wetting issues. The study has been published in the Journal of Membrane Science.

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It's far from a done deal, but plans by European physicists to build a huge new gravitational wave observatory with a radical design received a boost last week. From a report: The European Strategy Forum on Research Infrastructures (ESFRI), which advises European governments on research priorities, added the $2.25 billion observatory, called the Einstein Telescope, to a road map of large science projects ripe for progress. Developers hope the move will give them the political validation needed to transform the Einstein Telescope idea into a project. "This isn't a promise of any funding, but it shows the clear intention to pursue this," says Harald Luck, a gravitational wave physicist at Leibniz University Hannover and the Max Planck Institute for Gravitational Physics and co-chair of the Einstein Telescope steering committee. âoeIt is more of a political commitment." U.S. gravitational wave physicists welcomed the announcement, too, as they think it may bolster their plans to build a pair of detectors even bigger than the Einstein Telescope in a project called Cosmic Explorer. "In the U.S., I think the momentum is going to start to build," says David Reitze, executive director of the Laser Interferometer Gravitational-Wave Observatory (LIGO) and a physicist at the California Institute of Technology.

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Endurance22 will launch early next year with aim of locating and surveying wreck in the Weddell Sea. From a report: The location of Sir Ernest Shackleton's Endurance has been one of the great maritime mysteries since the ship became trapped in ice and sank in 1915. Finding this symbol of the "heroic age" of polar exploration at the bottom of the Weddell Sea was long thought impossible because of the harshness of the Antarctic environment -- "the evil conditions," as Shackleton described them. Now a major scientific expedition, announced on Monday, is being planned with a mission to locate, survey and film the wreck. Endurance22 will launch early next year, in a vessel that will brave the most treacherous frozen waters, pounding its way through miles of pack ice. The effects of climate change will make the expedition a little less difficult, with melting ice easing the vessel's passage. An international team of scientists with expertise in the study of ice and climate will be onboard, advancing knowledge of the Antarctic environment. Mensun Bound, its director of exploration, headed the 2019 search for the Endurance that had to be called off because of extreme weather conditions, after an underwater vehicle became trapped beneath the ice. He told the Guardian: "There's a complexity of emotions all swishing around within me. On the one hand, there's great excitement. On the other, for the last three years, I've had to carry this persistent sadness in me that we didn't find it last time. It's never far from my thoughts. That ship is always teasing my imagination." Bound said global warming in the Antarctic is "absolutely devastating," but that the melting ice "has improved our chances" of discovering the shipwreck.

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An anonymous reader quotes a report from Scientific American: Behold the highest-resolution image of atoms ever seen. Cornell University researchers captured a sample from a crystal in three dimensions and magnified it 100 million times, doubling the resolution that earned the same scientists a Guinness World Record in 2018. Their work could help develop materials for designing more powerful and efficient phones, computers and other electronics, as well as longer-lasting batteries. The researchers obtained the image using a technique called electron ptychography. It involves shooting a beam of electrons, about a billion of them per second, at a target material. The beam moves infinitesimally as the electrons are fired, so they hit the sample from slightly different angles each time -- sometimes they pass through cleanly, and other times they hit atoms and bounce around inside the sample on their way out. Cornell physicist David Muller, whose team conducted the recent study, likens the technique to playing dodgeball against opponents who are standing in the dark. The dodgeballs are electrons, and the targets are individual atoms. Though Muller cannot see the targets, he can see where the "dodgeballs" end up, thanks to advanced detectors. Based on the speckle pattern generated by billions of electrons, machine-learning algorithms can calculate where the atoms were in the sample and what their shapes might be. Previously, electron ptychography had only been used to image extremely flat samples: those merely one to a few atoms thick. The new study, published in Science, now allows it to capture multiple layers tens to hundreds of atoms thick. That makes the technique much more relevant to materials scientists, who typically study the properties of samples with a thickness of about 30 to 50 nanometers. (That range is smaller than the length your fingernails grow in a minute but many times thicker than what electron ptychography could image in the past.) "They can actually look at stacks of atoms now, so it's amazing," says Andrew Maiden, an engineer at the University of Sheffield in England, who helped develop ptychography but was not involved with the new study. "The resolution is just staggering."

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The most severe heat wave in the history of the Pacific Northwest is nearing its climax. The National Weather Service had predicted it would be "historic, dangerous, prolonged and unprecedented," and it is living up to its billing as it rewrites the record books. From a report: On Sunday, Portland, Ore., soared to its highest temperature in more than 80 years of record-keeping: 112 degrees. This new mark occurred just one day after hitting 108, which had broken the previous all-time record of 107. Seattle surged to 104 degrees Sunday, surpassing the old record of 103. The extraordinary heat swelled north of the international border as Canada saw its highest temperature recorded Sunday afternoon, when Lytton in British Columbia surged to 116 degrees. For perspective, that is just 1 degree from the all-time record in Las Vegas. While temperatures may have peaked Sunday afternoon in a few places, many were expected to turn even hotter on Monday or Tuesday, breaking all-time records (a number of which were initially broken Saturday and/or Sunday).

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