News by Subject Chemistry & Physics

Public Release: 18-Jan-2019

Classic double-slit experiment in a new light

An international research group has developed a new X-ray spectroscopy method based on the classical double-slit experiment to gain new insights into the physical properties of solids.

Journal: Science Advances

Public Release: 17-Jan-2019

Understanding insulators with conducting edges

Goethe University Frankfurt

Insulators that are conducting at their edges hold promise for interesting technological applications. However, until now their characteristics have not been fully understood. Physicists at Goethe University have now modelled what are known as topological insulators with the help of ultracold quantum gases. In the current issue of Physical Review Letters, they demonstrate how the edge states could be experimentally detected.

Journal: Physical Review Letters

Public Release: 16-Jan-2019

Fiery sighting: A new physics of eruptions that damage fusion experiments

DOE/Princeton Plasma Physics Laboratory

Sudden bursts of heat that can damage the inner walls of tokamak fusion experiments are a hurdle that operators of the facilities must overcome. Such bursts, called 'edge localized modes (ELMs),' occur in doughnut-shaped tokamak devices that house the hot, charged plasma that is used to replicate on Earth the power that drives the sun and other stars. Now researchers at the US Department of Energy's (DOE) Princeton Plasma Physics Laboratory (PPPL) have directly observed a possible and previously unknown process that can trigger damaging ELMs.

Journal: Physical Review Letters
Funder: US Department of Energy

Public Release: 16-Jan-2019

New quantum structures in super-chilled helium may mirror early days of universe

Aalto University

Experimental proof of a decades-old prediction opens a pathway to recreate possible conditions of the early universe here on earth.

Journal: Nature Communications

Public Release: 15-Jan-2019

Kiel physicists discover new effect in the interaction of plasmas with solids

Kiel University

If a plasma comes in contact with a solid, under certain circumstances the surface is changed fundamentally and permanently. A team from Kiel University has now discovered a surprising effect, in which the electronic properties of the solid material, such as its electrical conductivity, can be changed in a controlled, extremely fast and reversible manner, by ion impact. Their results were published in the journal Physical Review Letters.

Journal: Physical Review Letters

Public Release: 14-Jan-2019

Big Bang query: Mapping how a mysterious liquid became all matter

Lehigh University

Lehigh University's Rosi Reed presents findings from new Beam Energy Scan at Brookhaven National Lab's Relativistic Heavy Ion Collider that tests the limits of quark-gluon plasma (QGP), the mysterious liquid thought to have existed in the micro-seconds after the Big Bang

Meeting: 5th Joint Meeting of the APS Division of Nuclear Physics and the Physical Society of Japan
Funder: National Science Foundation

Public Release: 21-Dec-2018

New insights into pion condensation and the formation of neutron stars

RIKEN

Performing studies on a doubly magic isotope of tin, researchers have shown that the pion condensation should occur at around two times normal nuclear density, which can be realized in a neutron star with a mass of 1.4 times that of the Sun.

Journal: Physical Review Letters

Public Release: 21-Dec-2018

New T-wave detector uses waves of the electronic sea in graphene

Moscow Institute of Physics and Technology

A team of researchers from Russia, Great Britain, Japan, and Italy has created a graphene-based terahertz detector. Their device doubles up as a sensitive detector and a spectrometer operating in the terahertz range, and it's also a tool for studying plasmons in two-dimensional materials. All of these things existed before, but they took up a whole optical table. Researchers packed the same functionality into a dozen micrometers.

Journal: Nature Communications

Public Release: 20-Dec-2018

Electrically charged higgs versus physicists: 1-0 until break

The Henryk Niewodniczanski Institute of Nuclear Physics Polish Academy of Sciences

The last missing particle of the Standard Model, the Higgs boson, was discovered in 2012 in the experiments at the Large Hadron Collider. Since then, searching for new, related particles has been underway. Predicted by various theories that go beyond known physics, Higgs bosons with positive or negative electric charge are among the favorites to be observed. But do these particles really exist?

Journal: Journal of High Energy Physics

Public Release: 20-Dec-2018

Quantum Maxwell's demon 'teleports' entropy out of a qubit

Moscow Institute of Physics and Technology

An international team of researchers has described an extended quantum Maxwell's demon, a device locally violating the second law of thermodynamics in a system located 1-5 meters away from the demon. The device could find applications in quantum computers and microscopic refrigerators cooling down tiny objects with pinpoint accuracy.

Journal: Physical Review B
Funder: Swiss National Science Foundation, Russian Foundation for Basic Research, Foundation for the Advancement of Theoretical Physics BASIS, Ministry of Education and Science of the Russian Federation, Government of the Russian Federation

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