News by Subject Chemistry & Physics

Public Release: 19-Feb-2019

New technology captures movement of quantum particles with unprecedented resolution

A new Tel Aviv University study explores the activity of quantum particles in 2D materials within an unprecedented small time frame and at an extraordinarily high spatial resolution. These are highly sought-after capabilities for advanced communications technologies and for photonics-based quantum computers.

Journal: Science Advances

Public Release: 14-Feb-2019

High-speed surveillance in solar cells catches recombination red-handed

Osaka University

Using synchronized lasers pulses, Osaka University researchers developed a new method of electrostatic force microscopy that can record movies with frames as fast as 300 nanoseconds. This is fast enough to watch electrons move inside solar cells, which can lead to more efficient solar power devices.

Journal: Communication Physics
Funder: Japan Society for the Promotion of Science (JSPS)

Public Release: 8-Feb-2019

Supercomputing propels jet atomization research for industrial processes

Gauss Centre for Supercomputing

Researchers at the Bundeswehr University Munich recently appeared on the cover of the Journal of Fluid Mechanics for their simulations studying turbulence in jet sprays at the atomic level.

Journal: Journal of Fluid Mechanics

Public Release: 8-Feb-2019

Scientists image conducting edges in a promising 2D material

University of California - Riverside

A research team comprised of scientists at the University of California, Riverside, and the University of Washington has for the first time directly imaged 'edge conduction' in monolayer tungsten ditelluride, or WTe2, a newly discovered 2D topological insulator and quantum material. The research makes it possible to exploit this edge conduction feature to build more energy-efficient electronic devices.

Journal: Science Advances
Funder: UC Riverside

Public Release: 7-Feb-2019

Periodic table still influencing today's research

Michigan State University

This year marks the 150th anniversary of the Periodic Table, and the principles that drove Dmitri Mendeleev to construct his table are still influencing today's research advances.

Journal: Science

Public Release: 7-Feb-2019

New measurements of exotic form of magnesium suggest surprising shape-shift

DOE/Lawrence Berkeley National Laboratory

An international team led by scientists at the Department of Energy's Lawrence Berkeley National Laboratory (Berkeley Lab) has reproduced an exotic form of magnesium, known as magnesium-40, and gleaned new and surprising clues about its nuclear structure.

Journal: Physical Review Letters

Public Release: 6-Feb-2019

Solving a mystery: A new model for understanding how certain nuclei split

Tokyo Institute of Technology

Scientists at Tokyo Institute of Technology have extended an existing mathematical model so that it can be used to more accurately predict the products of fission reactions.

Journal: Scientific Reports

Public Release: 4-Feb-2019

UC Riverside physicists create exotic electron liquid

University of California - Riverside

By bombarding an ultrathin semiconductor sandwich with powerful laser pulses, physicists at the University of California, Riverside, have created the first 'electron liquid' at room temperature. The achievement opens a pathway for development of the first practical and efficient devices to generate and detect light at terahertz wavelengths -- between infrared light and microwaves. Such devices could be used in applications as diverse as communications in outer space, cancer detection, and scanning for concealed weapons.

Journal: Nature Photonics
Funder: Air Force Office of Scientific Research, United States Department of Energy, National Science Foundation, Cottrell Scholar Award, Canadian Institute for Advanced Research, NASA

Public Release: 1-Feb-2019

Supercomputing helps study two-dimensional materials

Gauss Centre for Supercomputing

Computational scientists support experimentalist's quest to observe lithium atoms' behaviour when placed between two sheets of graphene.

Journal: Nature

Public Release: 31-Jan-2019

Novel electron microscopy offers nanoscale, damage-free isotope tracking in amino acids

DOE/Oak Ridge National Laboratory

A new electron microscopy technique that detects the subtle changes in the weight of proteins at the nanoscale -- while keeping the sample intact -- could open a new pathway for deeper, more comprehensive studies of the basic building blocks of life. Scientists at Oak Ridge National Laboratory described in the journal Science the first use of an electron microscope to directly identify isotopes in amino acids at the nanoscale without damaging the samples.

Journal: Science
Funder: US Department of Energy Office of Science

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