Tuesday, October 17, 2023

Removal of magnetic spacecraft contamination within extraterrestrial samples easily carried out, researchers say

STANFORD UNIVERSITY

Lunar samples under microscope — IMAGE:
PHD STUDENT JI-IN JUNG, LEFT, AND ASSISTANT PROFESSOR SONIA TIKOO EXAMINE A COLLECTION OF LUNAR SAMPLES.
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CREDIT: HARRY GREGORY/STANFORD UNIVERSITY

For decades, scientists have pondered the mystery of the moon’s ancient magnetism. Based on analyses of lunar samples, its now-deceased magnetic field may have been active for more than 1.5 billion years – give or take a billion years. Scientists believe it was generated like the Earth’s via a dynamo process, whereby the spinning and churning of conductive liquid metal within a rocky planet’s core generates a magnetic field. However, researchers have grappled with how such a small planetary body could have sustained a long-lived magnetic field. Some have even questioned the legitimacy of return samples that point to the existence of an ancient dynamo, suggesting magnetism may have been acquired via exposure to strong magnetic fields onboard spacecraft during the return mission or from plasmas produced by massive impacts on the moon.

Stanford University scientists have now demonstrated that the magnetism in lunar samples is not adversely altered by the spacecraft journey back to Earth or certain laboratory procedures, disproving one of the two major oppositions to the ancient dynamo theory. The findings, published in Geophysical Research Letters Oct. 11, bode well for research stemming from other sample-return missions from space, since any magnetic contamination acquired during flight or on Earth can likely be easily removed.

“You want to know that the spacecraft returning your sample is not magnetically frying your rock, essentially,” said lead study author Sonia Tikoo, an assistant professor of geophysics at the Stanford Doerr School of Sustainability. “We simulated a long-term exposure of a sample to a stronger magnetic field than what the Earth has – something that might be realistic for a spacecraft – and found that for nearly all samples, including several we had previously studied in the context of lunar dynamo records, we could remove that contamination quite easily.”

Reproducing contamination

The study authors conducted two sets of lab experiments on eight samples from four different Apollo missions. They used a magnet to expose the samples to a field strength of about 5 millitesla – about 100 times stronger than the Earth’s magnetic field – for two days to approximately replicate the length of a return journey from the moon. Then, they took the samples into a magnetically shielded lab room to measure how quickly the contamination decayed and test how easily it could be removed using standard techniques. The research shows that basalts (rocks formed by the cooling of lava flows) are generally less susceptible to acquiring magnetic contamination than glass-bearing lunar rocks, but in nearly all cases the resulting contamination could be easily removed using standard methods.

“As a global community, we’re starting to send more sample-return missions to other bodies, so it’s good to know that as long as we’re careful to ensure spacecraft fields are not too high – and it doesn’t have to be zero, necessarily – we can still do paleomagnetism studies along with other research,” said Tikoo, who also holds a courtesy appointment in Earth and planetary sciences. “You don’t always have to send up a heavy magnetic shield that’s going to take up a lot of room and a lot of mass at the expense of other science.”

Paleomagnetism is a branch of geophysics that uses remanent magnetization in rocks from the time of their formation to reconstruct the direction and/or strength of the geomagnetic field. The magnetic history of the moon is important for understanding the evolution of interior thermal history over time, in addition to how a global dynamo field may have controlled the delivery and retention of volatile substances, such as water, at the lunar surface. “An ancient lunar field may even have aided atmospheric retention on the early Earth,” the study authors write.

“Paleomagnetism is a very powerful tool for understanding core processes since we cannot go to the core of the planets, and also to learn about the past behavior of the core,” said study co-author Ji-In Jung, a PhD student in geophysics.

Dynamo theory

Magnetic fields may protect planets’ surfaces from harmful solar radiation and space weather, enabling the long-term preservation of atmospheres. While various other mechanisms for generating a magnetic field have been proposed, the dynamo theory is the widely accepted explanation of this phenomenon on Earth. Scientists think Earth’s magnetic field may have been essential for the development of conditions that support life, so learning about their presence around other planets and moons is part of the search for evidence of extraterrestrial life.

“In order to know about the internal structures of planetary bodies and their interaction with the atmosphere or other systems, we need to know about planetary dynamo processes,” Jung said.

Magnetic fields can also reveal the overall cooling history of a planetary body, which can, in turn, affect its volcanism and its tectonic regime. For asteroids, researchers want to understand how magnetic fields may have helped material come together in the early solar nebula and eventually build up into larger planets.

The moon’s magnetic history is of particular interest because geophysicists do not understand how a small planetary body like the moon could have generated a long-lived magnetic field, given that it has a small core that would likely have cooled quickly. As a next step, Tikoo aims to continue ongoing work to discriminate between the dynamo and impact hypotheses.

“This study proves that we can do extraterrestrial paleomagnetism with mission-returned samples,” Tikoo said. “I don’t think anybody doubts the ability to do Earth paleomagnetism and I’m happy that we can do it for space, too.”

This research was funded by a grant from NASA.

Lunar samples displayed in the paleomagnetism lab at Stanford.

CREDIT Harry Gregory/Stanford University

JOURNAL

Geophysical Research Letters

DOI

10.1029/2023GL105152

ARTICLE TITLE

Establishing A Lunar Origin for Paleomagnetic Records in Apollo Samples

ARTICLE PUBLICATION DATE

11-Oct-2023

Cycling in school improves teenagers’ mental health, but wider social factors may impact benefits

Researchers find in-school cycling programs are associated with improvements in students’ mental well-being and offer a possible starting point to overcome barriers to sports programs

Peer-Reviewed Publication

FRONTIERS

Physical activity has positive effects on mental health and yet, activity rates are declining. This is particularly worrying because the mental well-being of teenagers continues to deteriorate. In the US, one in six school children is diagnosed with some type of mental disorder.

Riding bikes is a promising approach to introduce school-aged children to physical activity. Now, researchers in the US have investigated how adolescents’ psychosocial well-being changed after participating in a school-based cycling program.

“Participation in a school cycling education program during the Covid-19 pandemic was associated with improved psychosocial well-being amongst middle schoolers in the US,” said Dr Esther Walker, research director at the non-profit organization Outride. “While we saw promising increases in some student subgroups, certain groups had higher levels of self-reported mental well-being both before and after participating in the program.”

"It was really encouraging to see such a positive student response to a cycling-specific physical education program," said Fletcher Dementyev, a research assistant at Loma Linda University and first author of the study published in Frontiers in Sports and Active Living. “This motivates us, and hopefully others, to continue investigating and developing cycling as a pathway to improved health and well-being in adolescents.”

Riding out for better mental health

Outride is a not-for-profit organization partnering with schools to provide cycling programs. “The Riding for Focus (R4F) program aims to equip students with basic cycling knowledge and experience, so that they may ride safely and confidently,” Walker explained.

“A bicycle can be used for leisure activities, competition, and transportation. Thus, not only are students participating in an activity that improves their health and wellbeing, but also one that empowers them to explore the world,” said Dr Sean Wilson, a researcher at Loma Linda University and the study’s senior author.

More than 1,200 middle schoolers, aged 11 to 14 years, participated in the program’s surveys. Before and after cycling, they completed two surveys that included measures of current mental well-being and psychological functioning. Given the improvement in teenagers’ mental well-being scores, short term physical activity programs hold promise of having a positive influence on mental health and well-being in adolescents, the team said.

Privilege determines well-being

Next to overall well-being, the scientists examined social risk factors that influenced well-being pre- and post-program participation. “We focused on a number of key risk factors that affect mental health and well-being in middle school aged children in the US, including socio-economic status, gender, and race,” Wilson explained.

Relative risk assessments indicated that males, white students, and those from high socio-economic status families still had reduced relative risk of developing psychosocial disorders post-intervention. For example, female students’ well-being improved significantly; male students, however, still had higher well-being scores compared to females after the program. There also was a significant post-program increase in the well-being of non-white students. This positive impact is supported by studies showing that physical activity programs can positively influence the psychosocial well-being of ethnic minorities, particularly those from low-income families.

“While participating can certainly contribute positively to one’s day-to-day life, ultimately, to see large scale improvements, changes in policy, reductions in systematic disparities in access to nutrition, health services, safe environments, and beyond need to be put in motion,” said Walker.

The authors also pointed to limitations of their study, one being a study population that is different from the countrywide student population. “This means that our results, though insightful, aren’t fully reflective of the national youth physical education context,” said Dementyev. “We see this study as the beginning of a national dialogue surrounding investment in cycling education and its potential returns.”

JOURNAL

Frontiers in Sports and Active Living

DOI

10.3389/fspor.2023.1255514

ARTICLE TITLE

Middle School Cycling Program is associated with improved Mental Health and Wellbeing in Adolescents during COVID-19

ARTICLE PUBLICATION DATE

12-Oct-2023

COI STATEMENT

The author(s) declared the following potential conflicts of interest with respect to the research, authorship, and/or publication of this article: EW is employed by Outride, which is funded in part by Specialized Bicycle Components. All other authors have nothing to disclose.

New technology for customized air purification of toxic gases

KIST's iron oxide-graphene oxide heterostructure improves removal efficiency of harmful volatile organic compounds by up to 15 times

Peer-Reviewed Publication

NATIONAL RESEARCH COUNCIL OF SCIENCE & TECHNOLOGY

IMAGE:
ADSORPTION MECHANISM AND ADSORPTION PERFORMANCE GRAPH OF IRON OXIDE GRAPHENE ADSORBENT FOR POLAR VOCS
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CREDIT: KOREA INSTITUTE OF SCIENCE AND TECHNOLOGY

Volatile organic compounds (VOCs) in daily products such as paints, adhesives, furniture, cosmetics, and deodorants make our lives easier. However, constant exposure can cause serious health problems such as respiratory illness, headaches, dermatitis, and cancer. Natural ventilation is the most effective way to reduce VOCs in indoor air, but recently, air purifiers have become a common method to maintain indoor air quality due to the frequent extreme outdoor condition (e.g. high concentration of fine dust, heat waves, and extreme cold). Generally, air purifiers remove VOCs by adsorption using activated carbon, which has a non-polar carbon surface and a large specific surface area. This activated carbon can effectively remove non-polar substances such as toluene and benzene, but cannot remove polar substances such as ketones and aldehydes.

The Korea Institute of Science and Technology (KIST, President Seok Jin Yoon) announced that Dr. Jiwon Lee and Dr. Youngtak Oh from the Center for Sustainable Environment Research have developed a new adsorbent technology that can efficiently adsorb amphiphilic VOCs, which have both hydrophilic and hydrophobic properties and are difficult to remove with existing activated carbon technology.

The KIST research team synthesized a graphene-iron oxide heterostructure by precisely controlling the surface oxidation of graphite and iron, resulting in a high adsorption capacity for amphiphilic VOCs due to the increase of oxygen functional groups and iron oxide on the surface. This unique adsorbent showed up to 15 times better adsorption efficiency for amphiphilic VOCs than conventional activated carbon adsorbents.

They also found that precise oxygen functional groups and iron oxides control of the adsorbent can offer flexible surface optimization freedom for a desirable nature of the pollutant. By testing four different ketones that are difficult to control with activated carbon adsorbents, the researchers found the correlation between the length of carbon chains and the adsorption efficiency; by optimizing the content of oxygen functional groups and iron oxides in the adsorbent, they were able to bring the maximum removal efficiency for the ketones. The researchers also analyzed the sub-nanometer electron transfer phenomenon between the adsorbent and VOC molecules; they found a link between the geometric shape of the pollutant and its adsorption trend for the first time. This is expected to enable the development of customized detection and control technologies for various air pollutants in our environment.

"Unlike previous studies that focused on mere improvement of the adsorption performance and regeneration efficiency of adsorbents, we succeeded in developing a breakthrough material that exceeds the limits of existing adsorbents using accessible materials such as graphite and iron, which have high commercialization potential," said Dr. Jiwon Lee.

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KIST was established in 1966 as the first government-funded research institute in Korea. KIST now strives to solve national and social challenges and secure growth engines through leading and innovative research. For more information, please visit KIST’s website at https://eng.kist.re.kr/

The research, which was conducted as a major project of KIST (Air Environment Research Program) with support from the Ministry of Science and ICT (Minister Jong-ho Lee), was published on October 1 in the Chemical Engineering Journal.

JOURNAL

Chemical Engineering Journal

DOI

10.1016/j.cej.2023.145346

ARTICLE TITLE

Effect of adsorbate geometry and hydrogen bonding on the enhanced adsorption of VOCs by an interfacial Fe3O4-rGO heterostructure

Majority of cancer patients interested in complementary therapies for treatment

Support growing for integrative oncology, but access limited by lack of communication, staffing and funding, new survey finds

Reports and Proceedings

THE REIS GROUP

WASHINGTON (Oct. 12, 2023) – Patients and oncologists are supportive of complementary therapies, such as nutrition counseling, exercise, massage, and mediation, for cancer treatment, according to a new survey conducted on behalf of the Healing Works Foundation. However, a disconnect exists between this growing interest and oncologists’ perceptions of patient support. One-third of oncologists said their patients lack interest in these therapies, but only 13% of cancer patients cite lack of interest when asked about barriers.

“Navigating a cancer diagnosis is about treating the whole person, not just the disease,” said Wayne Jonas, MD, President of Healing Works, a non-profit dedicated to the integration of healing and curing in routine health care delivery. “Oncologists are the single most influential factor in patient treatment decisions, and doctors must be educating themselves to help drive patient outcomes and treatment satisfaction. They need to understand that patients increasingly want to hear directly about all possible support during and after treatment of the cancer.”

More than 60% of cancer patients strongly believe in complementary therapies, and 71% want their health systems to offer them, according to the survey of more than 1,000 patients and 150 oncologists conducted in June and July. In fact, 55% of patients would have chosen a health system with more complementary therapies if they could go back in time, up substantially from 40% a year ago.

Among oncologists, most (57%) believe that complementary therapies are effective at managing the side effects of treatments, while a third (33%) indicate that they improve overall survival.

Yet, when asked about usage, perceptions differed. Sixty-four percent of cancer patients report using at least one complementary therapy, yet most of them never informed their oncologists. As a result, oncologists think only 40% of patients use one of these approaches.

“A communication gap — not an interest gap — appears to be one of the biggest barriers between patients and oncologists when exploring complementary options to support overall treatment,” said Jonas. “Clinicians need to be proactive and talk to their patients about evidence-based integrative health options early in the process, before patients go exploring on their own, and possibly getting into trouble.”

Patients also noted additional barriers to adoption, including the need for education about the benefits, reimbursement or other funding help, and a lack of guidance from their oncologist. Oncologists agree that insurance reimbursement is a major barrier, but also report that health systems do not have enough physical therapists, psychologists, and pain specialists to offer these therapies.

Patient usage of complementary therapies also varied among demographic groups:

Hispanic (92%) and African American (83%) patients report the highest usage of complementary therapies and are interested in learning more about them.
Seventy percent of female patients support the use of complementary therapies, while actual usage is nearly equal between men (62%) and women (66%).
Younger patients (ages 18-50) are more likely to use a range of complementary therapies, especially mental health support/therapy, nutrition counseling and meditation or mindfulness.

More information on the survey findings and the Healing Works Foundation can be found at www.HealingWorksFoundation.org/CancerSurvey2023.

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About The Healing Works Foundation

The Healing Works Foundation’s mission is to make whole person, integrative care regular and routine. Led by Wayne Jonas, MD, HWF partners with a diverse group of wellbeing innovators. It creates platforms, processes, programs, tools and services to support and magnify insights and innovations in healing and whole person care principally in primary care and oncology.

Survey Method:

The survey was conducted online within the United States from June 14 – July 5, 2023, among 153 oncologists and from June 7 – June 30, 2023, among 1,004 patients diagnosed with cancer within the past two years. For complete survey methodology, including weighting variables and subgroup sample sizes, please contact Stacy Skelly at sskelly@TheReisGroup.com.

Win-win in muscle research: Faster results and fewer laboratory animals thanks to new method

Peer-Reviewed Publication

UNIVERSITY OF BASEL

lab mice — IMAGE:
MUSCLE FIBERS AND NEUROMUSCULAR DISEASES CAN NOW BE STUDIED EFFICIENTLY WITHOUT USING A LARGE NUMBER OF MICE.
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CREDIT: UNIVERSITY OF BASEL, PHILIPPE WIGET

To study muscle diseases, scientists rely on the mouse as a model organism. Researchers at the University of Basel have now developed a new method that is not only faster and more efficient than conventional ones but also greatly reduces the number of experimental animals needed for studying the function of genes in muscle fibers.

Researchers use the mouse as a model organism to study the structure and function of skeletal muscle, neuromuscular diseases and aging processes in muscle. The scientists are aware of their responsibility in the use of animals and have committed themselves at the University of Basel to rigorously implement the so-called 3R principles – Replacement, Reduction, Refinement – in animal-assisted research and animal husbandry.

The new method developed by Professor Markus Rüegg’s research group at the Biozentrum, University of Basel, is a further step towards reducing the number of laboratory animals. This method also opens new ways to investigate several genes simultaneously or even entire signaling pathways in muscle fibers quickly, cost-effectively and efficiently. The results of the study have now been published in Nature Communications.

The difficulty of studying genes in muscle fibers

Studying gene function in muscle is challenging. On the one hand, muscle fibers are very large and very fragile when isolated. On the other hand, in humans, they are up to half a meter long and contain thousands of nuclei. In order to change and study gene function in muscle fibers, all of the muscle fiber nuclei must be changed, which is difficult to achieve.

For some years now, scientists have been using the CRISPR/Cas9 method to study gene function. This method uses a virus to introduce the so-called Cas9 protein and a specifically designed guide RNA into the organism and thus into the nuclei. The Cas9 protein cuts the genomic DNA at the site recognized by the guide RNA. This combination of Cas9 protein and guide RNA allows altering gene function in the cell.

The CRISPR-Cas9 method can be split up

However, to ensure that the virus only alters the gene expression of muscle fibers and not those of other organs at the same time, the research team combined the CRISPR/Cas9 method with another method: First, the researchers succeeded in breeding mice with the Cas9 protein already present in their muscle fibers – but only there. They then introduced the desired guide RNA into the organism with a so-called adeno-associated virus, which infects muscle.

This combination causes the guide RNA in the muscle fibers to encounter the Cas9 protein, changing the genetic material as desired. “The method enables us to ensure that only the muscle fibers actually change their genetic material,” explains first author Marco Thürkauf.

Fewer laboratory animals and more efficient results

Since the adeno-associated virus can also transport several guide RNAs simultaneously, the team can now use the method to investigate several genes simultaneously or even entire signaling pathways. Furthermore, the method significantly reduces the number of experimental animals required.

“All animals used are suitable for studying genes and do not have to be bred over years. This makes it possible to study muscle fibers as well as neuromuscular diseases without using a large number of mice,” says Marco Thürkauf.

Other research groups have also already signaled their interest. “We already have several interested groups in our research community that would like to use our method,” says Markus Rüegg. “This is a great gain for both muscle research per se as well as for our goal of reducing animal experiments.”

JOURNAL

Nature Communications

DOI

10.1038/s41467-023-41769-7

ARTICLE TITLE

Fast, multiplexable and efﬁcient somatic gene deletions in adult mouse skeletal muscle ﬁbers using AAV-CRISPR/Cas9

New research shows why hunting for the cheapest plane ticket is a waste of your time

A new paper coauthored by Olivia Natan of Berkeley Haas and published in The Quarterly Journal of Economics peers into the black box of airline pricing and finds some surprises.

Peer-Reviewed Publication

UNIVERSITY OF CALIFORNIA - BERKELEY HAAS SCHOOL OF BUSINESS

Buy your ticket on a Tuesday. Search in your browser’s incognito mode. Use a VPN to pretend you live in Suriname.

“There are so many hacks out there for finding cheaper airline tickets,” says Olivia Natan, an assistant professor of marketing at the Haas School of Business. “But our data shows many of these beliefs are wrong.”

With four colleagues—Ali Hortaçsu and Timothy Schwieg from the University of Chicago, Kevin Williams from Yale, and Hayden Parsley from the University of Texas at Austin—Natan looked deeply into the structure and processes behind how prices are set at a major U.S. airline. The system that she found, which is representative of airlines around the world, was strikingly at odds with what most economists would expect—and most consumers assume.

“We initially didn’t know how to rationalize the things we were seeing,” she says.

SUBSTITUTING CONVENIENCE FOR PRICE

Consider fruit jam at the grocery store. Consumers have many options. If a company raises the price on its strawberry jam, one might fairly assume that this would affect sales of both strawberry and neighboring raspberry jam, since consumers can substitute one for another.

The same can happen with plane tickets: when people visit a website like Google flights or Kayak and search for a ticket, a wide range of different flights from the same airline appear. Travelers tend to make selections that balance convenience and price: The price of one flight might push people to select a slightly less convenient but cheaper flight.

“But airlines don’t consider this kind of substitution,” Natan says. They think about the prices of seats on each individual flight rather than total seats sold in a day, “even though changing the price on one flight will affect the way people think about all their options.”

A SMALL MENU OF PRE-SET PRICES

Perhaps most surprisingly, airlines also don’t incorporate the prices of their competitors in their automated price-setting. Typically, if one airline cut its prices, one would expect other firms to do the same. If they don’t, this dampens the benefits of a competitive market.

This unorthodox behavior, Natan explains, is the result of a specific pricing heuristic—or decision-making shortcut—that airlines use called Expected Marginal Seat Revenue-b, or EMSRb. The use of EMSRb, the researchers show, results in another outcome that consumers may not expect.

Despite how it may appear when looking for flights, airlines have a fixed and relatively small number of prices that they assign to tickets on each flight. Unlike other consumer sectors, where pricing can be adjusted and targeted down to the penny, airlines operate with large gaps between each possible price—sometimes upwards of $100. They may sell the first 30 economy tickets at the lowest price, and then the next 30 tickets at the next possible price, and so on.

“Airline tickets are sold through global distribution systems that make sure a travel agent in Wichita sees the same price as you do on your computer at home,” Natan says. This system emerged from an industry alliance to facilitate inventory management. Other businesses in the travel sector, like hotel rooms, cruises, trains, and car rentals do the same.

The downside is that airlines are relatively unresponsive to real-time changes in cost, as the next discrete fare is often a significant jump up. The researchers found that even if the airline would like to increase the price by $100—half the price of an average one-way ticket—they only do so about 20% of the time, since no fare is available at that price.

Today, airlines are starting to experiment with what’s known as “continuous revenue management,” which would, for instance, assign 100 different prices to a flight with 100 seats. “That would make pricing significantly more variable,” Natan says, “but even that would not be the kind of targeting that many consumers assume airlines use.”

LACK OF COORDINATION ACROSS DEPARTMENTS

One of the strangest discoveries from the research relates to the process airlines use to set their prices. To an economist, Natan explained, there is never a reason that firms would not raise prices if the increase assures an increase in revenue. But this is precisely what airlines do for essentially every ticket they sell.

“We talked to all of these managers who said the pricing team doesn’t know what it’s doing,” Natan says. The pricing team’s work is made more difficult in part by the set of discrete prices they have to work with, “but we found they could make more money today by selling fewer tickets at higher prices and not foreclose future opportunities. In practice, they seem to be choosing the menu of prices somewhat arbitrarily.”

Interestingly, the revenue management team corrects much of this underpricing. After prices are filed and before tickets go on sale, this team makes demand forecasts that determine final prices. These forecasts are routinely inflated, reducing the number of underpriced tickets shown to consumers by roughly 60%.

“It’s very strange,” Natan admits. “It could simply be a consequence of teams from different departments not communicating.” Two other possibilities as to why airlines don’t maximize short-term revenue, she speculated, are either to build customer loyalty or to avoid regulatory scrutiny.

Over the next several years, Natan says, airlines may start to adopt more dynamic pricing platforms, and non-business travelers may benefit from these changes. But for now, the hunt for an undiscovered trick to find lower fares is largely futile. What is clear is that it’s wise not to wait until the last minute. “What I can say is that prices do go up significantly 21, 14, and 7 days before a flight,” Natan says. “Just buy your ticket before then.”

READ THE PAPER:

Organizational Structure and Pricing: Evidence from a Large U.S. Airline
By Ali Hortaçsu, Olivia Natan, Hayden Parsley, Timothy Schwieg, and Kevin Williams
The Quarterly Journal of Economics, Sept. 27, 2023

JOURNAL

The Quarterly Journal of Economics

DOI

10.1093/qje/qjad051

METHOD OF RESEARCH

Data/statistical analysis

SUBJECT OF RESEARCH

Not applicable

ARTICLE TITLE

Organizational Structure and Pricing: Evidence from a Large U.S. Airline

“A new lens” into the Universe’s most energetic particles

Cosmic-ray extensive air showers observed by Subaru Hyper Suprime-Cam with unprecedented precision

Peer-Reviewed Publication

OSAKA METROPOLITAN UNIVERSITY

Cosmic-ray extensive air shower captured by the Subaru Telescope — IMAGE:
AN EXAMPLE OF A COSMIC-RAY EXTENSIVE AIR SHOWER RECORDED BY THE SUBARU TELESCOPE. THE HIGHLIGHTED TRACKS, WHICH ARE MOSTLY ALIGNED IN SIMILAR DIRECTIONS, SHOW THE SHOWER PARTICLES INDUCED FROM A HIGH-ENERGY COSMIC RAY.
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CREDIT: NATIONAL ASTRONOMICAL OBSERVATORY OF JAPAN, HYPER SUPRIME-CAM (HSC) COLLABORATION

Osaka, Japan - Showers in bathrooms bring us comfort; showers from space bring astrophysicists joy. Osaka Metropolitan University scientists have observed, with their novel method, cosmic-ray extensive air showers with unprecedented precision, opening the door to new insights into the Universe’s most energetic particles.

When a high energy cosmic ray collides with the Earth's atmosphere, it generates an enormous number of particles known as an extensive air shower. A research team led by Associate Professor Toshihiro Fujii from the Graduate School of Science and Nambu Yoichiro Institute of Theoretical and Experimental Physics at Osaka Metropolitan University, along with graduate student Fraser Bradfield, has discovered that the prime-focus wide field camera mounted on the Subaru Telescope, situated atop the Mauna Kea volcano in Hawaii, can capture these extensive air showers with extremely high resolution.

The Subaru Telescope was designed for observational astronomy. Cosmic rays, appearing as “tracks” on the observed images and obscuring the targeted stars or galaxies, are dismissed as noise by usual astronomical data processing. However, this team’s research focuses on that very “noise.” Analyzing approximately 17,000 images captured between 2014 and 2020, the research team pinpointed 13 images that contained extensive air showers. These images displayed a far larger number of particle tracks than usual.

“With conventional observation methods, it is challenging to distinguish between the types of particles that constitute extensive air showers,” explained Professor Fujii. “Our method, on the other hand, has the potential to determine the nature of individual particles.”

Professor Fujii added, “Furthermore, by integrating our method with conventional approaches, we hope to advance our understanding of extensive air showers. This technique may allow us to search for dark matter or other exotic particles, offering additional insights into the transition of the Universe into a matter-dominated era.”

Their results are set for publication in Scientific Reports on October 12, 2023.

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About OMU

Osaka Metropolitan University is a new public university established in April 2022, formed by merger between Osaka City University and Osaka Prefecture University. For more research news, visit https://www.omu.ac.jp/en/ or follow @OsakaMetUniv_en and #OMUScience.

JOURNAL

Scientific Reports

DOI

10.1038/s41598-023-42164-4

METHOD OF RESEARCH

Imaging analysis

ARTICLE TITLE

Observing Cosmic-Ray Extensive Air Showers with a Silicon Imaging Detector

ARTICLE PUBLICATION DATE

12-Oct-2023

UTSA study could remove carbon emissions from atmosphere

Grant and Award Announcement

UNIVERSITY OF TEXAS AT SAN ANTONIO

Zachary Tonzetich, an associate professor in the UTSA College of Sciences’ chemistry department, is part of a duo that has been awarded a one-year, $100,000 grant from The Welch Foundation for a project that could remove carbon emissions from the atmosphere.

Tonzetich and his research collaborator Anthony Cozzolino, an associate professor in Texas Tech University’s chemistry department, were the recipients of a WelchX pilot grant this past August. The WelchX program brings together leading chemistry researchers from across Texas to address challenging issues that are relevant to society.

Tonzetich and Cozzolino’s project, “Soft Lewis Acid Directed Reductive C-C Bond Formation for the Generation of Platform Chemicals from CO2,” proposes the development of a new technology to convert carbon dioxide from a greenhouse gas to an unprocessed raw material that could be used to produce new chemical products such as fuels or polymers. If successful, this project could create a productive new area of catalysis research and reduce greenhouse emissions that are harmful to the environment.

“Our plan is to create new catalysts that can utilize CO2 to generate molecules that will be useful to chemical manufacturing,” said Tonzetich. “The advantage of using CO2 as a source is that it is abundant, readily available, and we could potentially remove it from the Earth’s atmosphere.”

Tonzetich was tapped for the research grant due to his expertise in catalysis with Earth-abundant transition metals, which are metallic elements such as iron and nickel that are more common components of earth’s crust than scarce metals such as palladium. Additionally, he is widely recognized for his work in hydrogenation and hydroboration catalysis, two methods that can be used to transform alkenes (compounds with carbon-carbon double bonds) into new products such as detergents, fuel and plastics.

This past summer, The Welch Foundation hosted a retreat in Houston. Tonzetich was among the group of early to mid-career tenured faculty from across the state invited to participate.

At the retreat, themed, “Chemistry for Sustainability,” participants were asked to explore innovative solutions to clean energy, materials production and usage that could earn them a WelchX Pilot Grant.

The retreat included activities designed to encourage discussions about research collaboration and how investigators can be successful. Participants were tasked with finding a partner and developing a new research idea. At the end of the conference, participants were asked to collaborate with their partners to produce a full research proposal to the Welch Foundation that would be due in 10 days. Although the accelerated timeline posed a challenge, Tonzetich and Cozzolino submitted their competitive proposal within the allotted time frame, resulting in this new funding.

“The retreat experience was overwhelmingly positive,” said Tonzetich. “It gave me the opportunity to connect with my peers from around the state and to learn about different viewpoints on science and collaboration.”

Tonzetich’s research interests include earth-abundant metal catalysis, bioinorganic chemistry and coordination chemistry. The Tonzetich Lab specializes in synthetic inorganic and organometallic chemistry with most of the synthetic work that occurs in the lab involving the manipulation of air and moisture-sensitive materials.

“With this funding from the Welch Foundation, we will explore a new paradigm in catalyst design that addresses the challenges of mitigating the harmful effects of carbon emissions,” said Tonzetich. “I thank the university for supporting my attendance at the WelchX Conference, which was an excellent opportunity to meet other researchers from around the state and share the exciting science taking place here at UTSA.”

The Welch Foundation is one of the largest and most established private funding sources for chemistry research in the nation. It supports fundamental chemical research at universities, colleges and other education institutions in Texas.