Joe Wolfe and John Smith from the University of New South Wales conducted acoustic experiments to study the didjeridu’s unusual and complicated performance techniques.
A paper co-authored by Argonne Physicist Filip Kondev has earned a “Top Cited Paper Award” from IOP Publishing. The paper provides fundamental nuclear physics properties for all known nuclei and ranks in the top 1% in IOP’s Physics category since 2020.
Researchers from Shanghai Jiao Tong University have developed a promising new solar-powered atmospheric water harvesting technology that could help provide enough drinking water for people to survive in difficult, dryland areas: They synthesized a super hygroscopic gel capable of absorbing and retaining an unparalleled amount of water. .
Parag Chitnis of George Mason University led a team that developed a wearable ultrasound system that can produce clinically relevant information about muscle function during dynamic physical activity. The system uses a patented approach that uses long-duration chirps and ultrasound sensing, and it allowed the team to design a simpler, cheaper system that could be miniaturized and powered by batteries. The result is an ultrasound monitor with a small, portable form factor that can be attached to a patient.
Fast ions that heat plasma in a fusion device can resonate with waves in the plasma, potentially causing waves to grow and kick the fast ions out of the device. This research used mathematical calculations and computer simulations to examine these resonant interactions to reveal how different types of collisions compete to determine the way energy transfers between the resonant particles and the plasma waves. The results will aid in models of how to keep plasmas hot enough to sustain fusion reactions.
Oak Ridge National Laboratory’s Karen White, who works in ORNL’s Neutron Science Directorate, has been honored with a Lifetime Achievement Award.White, who manages the section that provides the machine controls, computing infrastructure, and protection systems across all neutron science technical areas, received the award during the biennial International Conference on Accelerator and Large Experimental Physics Control Systems, held October 7-13, 2013, in Cape Town, South Africa.
For decades, scientists have been on a quest to unravel the mysteries behind the creation of elements heavier than iron. At the heart of this exploration lie two primary neutron capture processes: the s(slow) and r(rapid) processes.
An international research team led by quantum physicist Markus Arndt (University of Vienna) has achieved a breakthrough in the detection of protein ions: Due to their high energy sensitivity, superconducting nanowire detectors achieve almost 100% quantum efficiency and exceed the detection efficiency of conventional ion detectors at low energies by a factor of up to a 1,000.
In a recent paper published in the KeAi journal Rock Mechanics Bulletin, a scientist from Uppsala University presented a discussion on the mechanism of emergence in fractured media from a combined statistical physics and rock mechanics perspective.
Strontium ruthenate is a superconductor that gives rise to a number of questions. Researchers of Karlsruhe Institute of Technology (KIT) and Max Planck Institute for Chemical Physics of Solids (MPI CPfS), Dresden, have now found that mechanical pressure enhances superconductivity and, at the same time, facilitates deformation of the material.
New calculations predicting the spatial distributions of the charges, momentum, and other properties of the quarks within protons found that the up quarks are more symmetrically distributed and spread over a smaller distance within the proton than the down quark. The results imply that these two types of quarks contribute differently to a proton’s properties.
More than 120 staff and 80 students and interns from the U.S. Department of Energy’s (DOE) Princeton Plasma Physics Laboratory (PPPL) attended the American Physical Society’s Division of Plasma Physics (APS-DPP) Conference from Oct 30 to Nov. 3 in Denver.
High-energy heavy-ion collisions, while impossible to observe directly, provide invaluable insights into the universe's beginnings. Researchers analyze the final particles produced in these collisions to understand better the properties and mechanisms behind particle production.
Wits researchers pioneer a new way of searching for Dark Matter. Researchers explore whether Dark Matter particles actually are produced inside a jet of standard model particles.
One of the annoying side effects of being absorbed in a gripping novel is that the cup of tea on the table becomes cold! Unfortunately, the tea would not heat itself by absorbing the heat around it, just as pieces of a broken egg would not put themselves together or milk mixed in coffee would not separate by itself.
A team of astrophysicists led by Núria Miret-Roig from the University of Vienna found that two methods for determining the age of stars measure different things: Isochronous measurement thereby determines the birth date of stars, while dynamical tracking provides information on when stars "leave their nest", about 5.5 million years later in the star clusters studied.
Hopfions, magnetic spin structures predicted decades ago, have become a hot and challenging research topic in recent years. In a study published in Nature today, the first experimental evidence is presented by a Swedish-German-Chinese research collaboration
In Physics of Fluids, scientists demonstrate how bloodstains can yield valuable details by examining the protrusions that deviate from the boundaries of otherwise elliptical bloodstains. The researchers studied how these “tails” are formed using a series of high-speed experiments with human blood droplets less than a millimeter wide impacting horizontal surfaces at various angles. They found that the tail length can reflect information about the size, impact speed, and impact angle of the blood drop that formed the stain.
Astrophysicists say they have found an answer to why spiral galaxies like our own Milky Way are largely missing from a part of our Local Universe called the Supergalactic Plane.
Particle collisions produce quarks and gluons that interact in structured ways. Scientists have for the first time directly observed a predicted “dead cone" in this structure. This finding helps to confirm a feature of the theory of strong interactions, which explains how quarks and gluons form protons and neutrons.
The Acoustical Society of America and the Australian Acoustical Society are co-hosting Acoustics 2023 Sydney, Dec. 4-8. The scientific conference brings together acousticians, researchers, musicians, and more experts from around the world.
For decades, the standard reference tool for ultraprecise timekeeping has been the atomic clock. Scientists have known that an even more precise and reliable timepiece was possible, but technical limitations kept it only a theoretical prospect.Now, researchers from the U.S. Department of Energy’s (DOE) Argonne National Laboratory, Texas A&M University and several European institutions are turning theory into practice.
The world’s total population is expected to reach 9.9 billion by 2050. This rapid increase in population is boosting the demand for agriculture to cater for the increased demand. Below are some of the latest research and features on agriculture and farming in the Agriculture channel on Newswise.
In 2008 NASA’s Spitzer Space Telescope found a protoplanetary disk unlike any other. The dusty disk of gas surrounding the young Sun-like star SZ Chamaeleontis (SZ Cha) was being pummeled by extreme ultraviolet radiation – something previously seen only in computer models, never in the real universe. Planets in this system would have more time to form than in a disk being evaporated by X-rays, which is the norm. However, when the James Webb Space Telescope followed up on SZ Cha, it found nothing out of the ordinary – no abundance of ultraviolet radiation. In a short space of cosmic time, conditions in SZ Cha’s disk had changed, leaving astronomers to untangle meaning from the mismatched data and its implications for the formation of other solar systems.
NYU Tandon School of Engineering is poised to become one of an extremely select group of American universities offering an undergraduate program in quantum technology, situating it at the forefront of a fast-growing field in which high employer demand significantly outpaces available talent.
AIP Publishing and the Journal of Rheology congratulate Norman J. Wagner, Julie B. Hipp, and Jeffrey J. Richards, winners of the 2023 Journal of Rheology Publication Award for their paper, “Direct measurements of the microstructural origin of shear-thinning in carbon black suspensions.” The winning paper demonstrates how shearing forces impact the microstructure responsible for viscosity in suspensions containing carbon black, a material used in energy storage. The paper also provides a quantitative master curve which relates the material’s properties to how it may behave under stress.
Absorbing excess sound to make public environments like theaters and concert halls safer for hearing and using the unwanted sound waves to create electricity is the aim of a paper in Physics of Fluids.
Smith College Physics Department has earned a Bronze Award from the Physics and Astronomy SEA Change Committee for their work to create a more inclusive and diverse physics department.
AIP and the National Society of Black Physicists congratulate Charles D. Brown II as the winner of the 2023 Joseph A. Johnson Award for Excellence. Dante O’Hara and Danielle Speller are also being recognized with Honorable Mentions. The Johnson Award recognizes early-career scientists who demonstrate scientific ingenuity and impactful mentorship and service – the core values of NSBP founder Joseph A. Johnson. The award and honorable mentions will be presented at the 2023 National Society of Black Physicists Annual Conference on Nov. 12, in Knoxville, Tennessee.
The Nuclear Science Advisory Committee recently unveiled its 2023 Long Range Plan for nuclear science. Argonne National Laboratory, with its world-class nuclear physics facilities and expertise, is poised to play a pivotal role in realizing the plan.
Irvine, Calif., Nov. 7, 2023 — The National Science Foundation recently awarded an $18-million grant to a team of scientists to design the most powerful laser in the world. The team includes Franklin Dollar, an associate professor of physics & astronomy at the University of California, Irvine.
Afroditi Papadopoulou, a Maria Goeppert Mayer fellow at Argonne National Laboratory, talks about what led her to the fellowship and studying neutrinos.
In a world grappling with a severe water crisis, contamination is a looming threat to public health. Researchers at the U.S. Department of Energy’s Argonne National Laboratory and partners have engineered a breakthrough solution.
The American Physical Society recognized the SLAC and Stanford physicist for decades of groundbreaking work studying the strange behavior of electrons at the interfaces between materials.
Physicists William Raphael “Raph” Hix of the Department of Energy’s Oak Ridge National Laboratory and John Lajoie, who will join ORNL on Nov. 6 from Iowa State University, have been elected Fellows of the American Physical Society.
By detecting cardiovascular ailments and helping assess overall cardiac health, wearable electrocardiograms save lives, not to mention exorbitant hospital care costs. In Applied Physics Reviews, researchers present a novel wearable electrocardiogram patch for enhanced point-of-care diagnostics. The study focused on the advantages of using active dry electrodes for ECG signaling, and they created a compact, lightweight, gel-free hexagonal-shaped ECG patch. The configuration was then integrated with wireless Bluetooth communication for remote sensing capabilities.
Polymers experience changing conditions during manufacturing, which can affect their final properties and performance. The way they react to manufacturing forces can be extremely complex and hard to measure. Researchers combined theory and modeling to characterize melted polymers under steady flow and revealed universal features that can inform the design of advanced materials for manufacturing.
Physics of Plasmas has bestowed the 2023 Davidson Award to Debra Callahan for her paper “Exploring the limits of case-to-capsule ratio, pulse length, and picket energy for symmetric hohlraum drive on the National Ignition Facility Laser.” The annual award of $5,000 is presented in collaboration with the APS Division of Plasma Physics to recognize outstanding plasma physics research by a Physics of Plasmas author.
Predictions based on the Standard Model of particle physics don’t always agree with what scientists see in experimental data. One way to examine these differences is emissions of neutrinos from nuclear reactors. As part of this research agenda, scientists in the PROSPECT Collaboration have reported the most precise measurement ever of the energy spectrum of antineutrinos emitted from the fission of uranium-235, providing a new reference energy spectrum and new constraints on the origin of the disagreements between data and models.
Researchers at New Jersey Institute of Technology’s Center for Solar-Terrestrial Research (NJIT-CSTR) have captured the Oct. 14 solar eclipse in a way never seen before — recording the first radio images of an annular eclipse’s famous “ring of fire” effect.