Fundamental Equation for Superconducting Quantum Bits Revised

Cryogenic microwave setup used for quantum device measurements.
Photo Credit: Qinu GmbH

Quantum bits can be described more precisely with the help of newly 

Physicists from Forschungszentrum Jülich and the Karlsruhe Institute of Technology have uncovered that Josephson tunnel junctions – the fundamental building blocks of superconducting quantum computers – are more complex than previously thought. Just like overtones in a musical instrument, harmonics are superimposed on the fundamental mode. As a consequence, corrections may lead to quantum bits that are 2 to 7 times more stable. The researchers support their findings with experimental evidence from multiple laboratories across the globe, including the University of Cologne, Ecole Normale Supérieure in Paris, and IBM Quantum in New York.

It all started in 2019, when Dr. Dennis Willsch and Dennis Rieger – two PhD students from FZJ and KIT at the time and joint first authors of the paper – were having a hard time understanding their experiments using the standard model for Josephson tunnel junctions. This model had won Brian Josephson the Nobel Prize in Physics in 1973. Excited to get to the bottom of this, the team led by Professor Ioan Pop scrutinized further data from the Ecole Normale Supérieure in Paris and a 27-qubit device at IBM Quantum in New York, as well as data from previously published experiments. Independently, researchers from the University of Cologne were observing similar deviations of their data from the standard model.

Red nets signal “stop” to insect pests, reduce need for insecticides

Field test in Kyoto, Japan. The type of Welsh onions used in the experiment were a variety called Kujo leek, or Kujo negi in Japanese. These onions are a traditional vegetable of the Kyoto region and a staple part of local cooking.
Photo Credit: © 2024 Tokumaru et al./Scientific Reports

Red nets are better at keeping away a common agricultural insect pest than typical black or white nets, according to a new study. Researchers experimented with the effect of red, white, black and combination-colored nets on deterring onion thrips from eating Kujo leeks, also called Welsh onions. In both lab and field tests, red nets were significantly better at deterring the insect than other colors. Also, in field tests, onion crops which were either partially or fully covered by red netting required 25-50% less insecticide than was needed for a totally uncovered field. Changing agricultural nets from black or white to red could help reduce pesticide use and the related negative impact it can have on the environment, while supporting more sustainable and effective agricultural practices.

Insect pests can be a nightmare for any gardener. No sooner do fresh buds appear than they are covered in aphids, beetles and other bugs looking for a tasty snack. While synthetic insecticides are widely used to control pests in gardens and on agricultural crops, many are known to cause damage to the natural environment by leaching into the soil and water supplies, and poisoning plants, wildlife and harmless insects. Some pests are also becoming resistant to the chemicals, so farmers are running out of options for what to use and needing to apply more often.

Satellites unveil the size and nature of the world’s coral reefs

A satellite photo from the Allen Coral Atlas showing shallow coral reefs off Fiji
Image Credit: Courtesy of Allen Coral Atlas

University of Queensland-led research has shown there is more coral reef area across the globe than previously thought, with detailed satellite mapping helping to conserve these vital ecosystems.

Dr Mitchell Lyons from UQ’s School of the Environment, working as part of the Allen Coral Atlas project, said scientists have now identified 348,000 square kilometers of shallow coral reefs, up to 20-30 meters deep.

“This revises up our previous estimate of shallow reefs in the world’s oceans,” Dr Lyons said.

“Importantly, the high-resolution, up-to-date mapping satellite technology also allows us to see what these habitats are made from.

“We’ve found 80,000 square kilometers of reef have a hard bottom, where coral tends to grow, as opposed to soft bottom like sand, rubble or seagrass.

Discovery of Unexpected Ultramassive Galaxies May Not Rewrite Cosmology, But Still Leaves Questions

Infrared view of the universe captured by the James Webb Space Telescope.
Image Credit: NASA, ESA, CSA and STScI.

Ever since the James Webb Space Telescope (JWST) captured its first glimpse of the early universe, astronomers have been surprised by the presence of what appear to be more “ultramassive” galaxies than expected. Based on the most widely accepted cosmological model, they should not have been able to evolve until much later in the history of the universe, spurring claims that the model needs to be changed.

This would upend decades of established science.

“The development of objects in the universe is hierarchical. You start small and get bigger and bigger,” said Julian Muñoz, an assistant professor of astronomy at The University of Texas at Austin and co-author of a recent paper that tests changes to the cosmological model. The study concludes that revising the standard cosmological model is not necessary. However, astronomers may have to revisit what they understand about how the first galaxies formed and evolved.

Cosmology studies the origin, evolution and structure of our universe, from the Big Bang to the present day. The most widely accepted model of cosmology is called the Lambda Cold Dark Matter (ΛCDM) model or the “standard cosmological model.” Although the model is very well informed, much about the early universe has remained theoretical because astronomers could not observe it completely, if at all.

Concordia researchers identify a decline in microbial genetic richness in the western Arctic Ocean

With the warming and freshening of the Arctic Ocean comes a decrease of nutrients that are important for photosynthesis
Photo Credit: Davide Cantelli

The Arctic region is experiencing climate change at a much faster rate than the rest of the world. Melting ice sheets, runoff from thawing permafrost and other factors are rapidly changing the composition of the Arctic Ocean’s water. And that change is being experienced all the way down to the microbial level.

In a Concordia-led study published in the journal ISME Communications, researchers analyzed archival samples of bacteria and archaea populations taken from the Beaufort Sea, bordering northwest Canada and Alaska. The samples were collected between 2004 and 2012, a period that included two years — 2007 and 2012 — in which the sea ice coverage was historically low. The researchers looked at samples taken from three levels of water: the summer mixed layer, the upper Arctic water below it and the Pacific-origin water at the deepest level.

The study examined the microbes’ genetic composition using bioinformatics and statistical analysis across the nine-year time span. Using this data, the researchers were able to see how changing environmental conditions were influencing the organisms’ structure and function.

The researchers found subtle but statistically significant changes in the communities they studied.

Sandalwood oil by-product prevents prostate cancer development in mice

Ajay Bommareddy, Ph.D., senior author and an associate professor of pharmacology in the Department of Biomedical Science, FAU Schmidt College of Medicine.
Photo Credit: Courtesy of Florida Atlantic University

Extracted from the core of sandalwood trees (santalum album tree), sandalwood oil has been used for many centuries by several cultures throughout the world for perfume, soaps, incense and candles. With its earthy sweet scent, this essential oil is also used in the food industry and topically in various cosmetic preparations.

Importantly, this natural oil is known for its health benefits and medicinal applications from antibacterial to anticancer because of its phytochemical constituents. In addition to containing esters, free acids, aldehydes, ketones and santenone, sandalwood oil primarily (90 percent or more) constitutes santalol – equal amounts of two compounds, alpha and beta-santalol.

Now, researchers from Florida Atlantic University’s Schmidt College of Medicine and collaborators are the first to demonstrate in vivo the chemo-preventive properties of alpha-santalol against prostate cancer development using a transgenic mouse model.

Study finds childhood bullying linked to distrust and mental health problems in adolescence

Photo Credit: Mikhail Nilov

A new study, co-led by UCLA Health and the University of Glasgow, found that young teenagers who develop a strong distrust of other people as a result of childhood bullying are substantially more likely to have significant mental health problems as they enter adulthood compared to those who do not develop interpersonal trust issues.

The study, published in the journal Nature Mental Health on Feb. 13, is believed to be the first to examine the link between peer bullying, interpersonal distrust, and the subsequent development of mental health problems, such as anxiety, depression, hyperactivity and anger. 

Researchers used data from 10,000 children in the United Kingdom who were studied for nearly two decades as part of the Millennium Cohort Study. From these data, the researchers found that adolescents who were bullied at age 11 and in turn developed greater interpersonal distrust by age 14 were around 3.5 times more likely to experience clinically significant mental health problems at age 17 compared to those who developed less distrust.

Bruised and bleeding: New materials show where they’re hurt

Sandia National Laboratories materials chemist Cody Corbin works in a glove box, preparing a container filled with bead bits that will turn brown if someone attempts to tamper with the container’s contents.
Photo Credit: Craig Fritz

Every over-the-counter medication bottle sports a protective seal, usually a plastic wrap or foam layer, or both. These seals offer signs of tampering attempts. In a parallel concern, the International Atomic Energy Agency relies on tamper-indicating devices to make sure it knows if containers of nuclear material have been opened or tampered with.

However, just as a medication bottle might be opened and the tamper seals carefully reattached by a bad guy, the IAEA is concerned its devices could be bypassed and repaired or counterfeited. A possible solution? Engineers at Sandia National Laboratories have developed a groundbreaking prototype using “bruising” materials. Their innovation doesn’t just detect tampering; the new device boldly displays the evidence, like battle scars.

“Our first idea was to create a ‘bleeding’ material where it was extremely obvious that it had been tampered with,” said Heidi Smartt, a Sandia electrical engineer and project lead. “Then we made a new device using these materials where the damage is obvious for people to see. No one has ever done this sort of concept for international nuclear safeguards before.”

Desert Ants: The Magnetic Field Calibrates the Navigation System

The desert ant Cataglyphis nodus at its nest entrance - an inconspicuous hole in the ground that cannot be seen from the ant's perspective. To find its way back there, the ant uses the earth's magnetic field during its learning walks.
Photo Credit: Robin Grob

Desert ants find their way during an early learning phase with the help of the Earth's magnetic field. The associated learning process leaves clear traces in their nervous system. This is shown in a new study by a Würzburg research team.

They are only a few centimeters tall and their brains have a comparatively simple structure with less than one million neurons. Nevertheless, desert ants of the Cataglyphis genus possess abilities that distinguish them from many other creatures: The animals are able to orient themselves to the Earth's magnetic field.

Visible Changes in the Nervous System

A research team from Julius-Maximilians-Universität Würzburg (JMU) discovered this a few years ago. However, it was previously unknown where in the ants' brains the magnetic information is processed. This has now changed: In a new study published in the journal PNAS - Proceedings of the National Academy of Sciences, the team shows that information about the Earth's magnetic field is primarily processed in the ants' internal compass, the so-called central complex, and in the mushroom bodies, the animals' learning and memory centers.

Immunotherapy before surgery leads to promising long-term survival in sarcoma patients

From Left to Right Christina Roland, M.D. and Neeta Somaiah, M.D.
Image Credit: Courtesy of University of Texas MD Anderson Cancer Center

Patients with soft-tissue sarcoma treated with neoadjuvant, or pre-surgical, immunotherapy had very little residual tumor at the time of surgery and promising long-term survival, according to Phase II trial results published today in Nature Cancer by researchers at The University of Texas MD Anderson Cancer Center.

After treatment with a combination of immunotherapy and radiation followed by surgical removal of the residual mass, 90% of patients with undifferentiated pleomorphic sarcoma (UPS) had less than 15% viable tumor cells remaining, better than what has historically been seen with radiation alone. The overall survival (OS) rate at two years after first treatment was 82% in resectable retroperitoneal dedifferentiated liposarcoma (DDLPS) and 90% in UPS.

“These results demonstrate the role immunotherapy treatment can have on soft-tissue sarcomas and how the neoadjuvant treatment platform can help identify novel treatment options for patients,” said co-principal investigator Christina Roland, M.D., associate professor of Surgical Oncology. “Sarcoma patients have limited systemic therapy options to consider, and this trial offers data to support the use of immunotherapy in their treatment.”