News by Subject Chemistry & Physics

News Release 17-Sep-2019

Statistical inference to mimic the operating manner of highly-experienced crystallographer

A research team from Japan Science and Technology Agency (JST), RIKEN, and the University of Tokyo developed a novel data analysis method for prior evaluation of single crystal structure analysis. Their proposed method is based on precise estimation of a parameter inherent in preliminary-collected small data set. They demonstrated application of it to guest distinction in host-guest crystals before single crystal structure analysis and measurement design for precise crystallographic observation.

Journal: Scientific Reports
Funder: Japan Science and Technology Agency

News Release 17-Sep-2019

Hello, world! A new approach for physics in de sitter space

Okinawa Institute of Science and Technology (OIST) Graduate University

For decades, physicists have been attempting to reconcile quantum mechanics, the physics of the very small, with gravity, the physics of the very large. While many academics are working on quantum gravity, they often use models that don't consider certain aspects of our own universe, like its accelerated expansion. A team at the Okinawa Institute of Science and Technology Graduate University (OIST) reports a new approach to quantum gravity using a model that more closely matches our reality.

Journal: Physical Review D

News Release 16-Sep-2019

A novel tool to probe fundamental matter

Université libre de Bruxelles

The origin of matter remains a complex and open question. A novel experimental approach -- described in Nature Physics -- could be exploited to better test the theories of physicists.

Journal: Nature Physics
Funder: Belgian National Fund for Scientific Research (FNRS), European Research Council (Research projet "TOPOCOLD")

News Release 16-Sep-2019

One step closer future to quantum computers

Uppsala University

Physicists at Uppsala University in Sweden have identified how to distinguish between true and 'fake' Majorana states in one of the most commonly used experimental setups, by means of supercurrent measurements. This theoretical study is a crucial step for advancing the field of topological superconductors and applications of Majorana states for robust quantum computers. New experiments testing this approach are expected next.

Journal: Physical Review Letters

News Release 16-Sep-2019

KATRIN cuts the mass estimate for the elusive neutrino in half

University of Washington

An international team of scientists has announced a breakthrough in its quest to measure the mass of the neutrino, one of the most abundant, yet elusive, elementary particles in our universe. At the 2019 Topics in Astroparticle and Underground Physics conference in Toyama, Japan, leaders from the KATRIN experiment reported Sept. 13 that the estimated range for the rest mass of the neutrino is no larger than 1 electron volt, or eV.

Meeting: 2019 Topics in Astroparticle and Underground Physics
Funder: US Department of Energy's Office of Nuclear Physics

News Release 16-Sep-2019

Dartmouth research advances noise cancelling for quantum computers

Dartmouth College

The characterization of complex noise in quantum computers is a critical step toward making the systems more precise.

Journal: Nature Communications

News Release 14-Sep-2019

The magic wavelength of cadmium

University of Tokyo

Researchers experimentally determined a property of cadmium called the magic wavelength which is considered essential for the development of the most accurate clocks ever envisaged. The researchers hope this may permit simple and robust atomic clocks so accurate they could be used to improve our understanding of current theories and even test for new physics.

Journal: Physical Review Letters
Funder: Japan Science and Technology Agency, Japan Society for the Promotion of Science, National Science Foundation, USA Office of Naval Research

News Release 13-Sep-2019

Blink and you'll miss it

University of Tokyo

Many natural and synthetic chemical systems react and change their properties in the presence of certain kinds of light. These reactions can occur too quickly for ordinary instruments to see. For the first time, researchers adopted a novel technique to observe the high-speed reactions. A special kind of reaction observed with this method could lead to new optical nanotechnology.

Journal: Nature Communications
Funder: JST, PRESTO, JSPS KAKENHI, JST, CREST

News Release 12-Sep-2019

Charge change: How electric forces vary in colloids

Tokyo University of Science

When calculating the electrokinetic force, the convention has been to assume that there is no relative velocity of the fluid compared to the surface, which holds true for hydrophilic surfaces. However, it needs to be reconsidered for hydrophobic surfaces. Prof Hiroyuki Ohshima from Tokyo University of Science has conducted theoretical research on electrokinetic phenomena in colloidal particles for 50 years. Now, he has summarized some of the major findings in his field in a compelling review article.

Journal: Advances in Colloid and Interface Science

News Release 12-Sep-2019

JILA's novel atomic clock design offers 'tweezer' control

National Institute of Standards and Technology (NIST)

JILA physicists have demonstrated a novel atomic clock design that combines near-continuous operation with strong signals and high stability, features not previously found together in a single type of next-generation atomic clock. The new clock, which uses laser 'tweezers' to trap, control and isolate the atoms, also offers unique possibilities for enhancing clock performance using the tricks of quantum physics.

Journal: Science
Funder: Army Research Office, Air Force Office of Scientific Research, Defense Advanced Research Projects Agency, National Science Foundation Physics Frontier Center at JILA, National Institute of Standards and Technology

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