News by Subject Chemistry & Physics

Public Release: 15-Oct-2018

The state of the early universe: The beginning was fluid

Faculty of Science - University of Copenhagen

Scientists from the Niels Bohr Institute, University of Copenhagen, and their colleagues from the international ALICE collaboration recently collided Xenon nuclei, in order to gain new insights into the properties of the Quark-Gluon Plasma (the QGP). The QGP is a special state consisting of the fundamental particles, the quarks, and the particles that bind the quarks together, the gluons. The result was obtained using the ALICE experiment at the superconducting Large Hadron Collider. The result is now published in Physics Letters B.

Journal: Physics Letters B
Funder: Niels Bohr Institute

Public Release: 9-Oct-2018

A new path to solving a longstanding fusion challenge

Massachusetts Institute of Technology

A design developed at MIT suggests a solution to a longstanding problem for next-generation fusion power plants: how to get rid of excess heat they generate.

Journal: Fusion Engineering and Design
Funder: MIT's Department of Nuclear Science and Engineering, Department of Energy, National Science Foundation, Mitsubishi Electric Research Laboratories

Public Release: 4-Oct-2018

Newly detected microquasar gamma-rays 'call for new ideas'

DOE/Los Alamos National Laboratory

The first-ever detection of highly energetic radiation from a microquasar has astrophysicists scrambling for new theories to explain the extreme particle acceleration. A microquasar is a black hole that gobbles up debris from a nearby companion star and blasts out powerful jets of material.

Journal: Nature

Public Release: 26-Sep-2018

Tracking hydrogen movement using subatomic particles

Osaka University

A Japanese collaboration developed a technique using a beam of subatomic particles called muons to track hydrogen movement in the solid magnesium hydride for the first time. The negative muon beam provided spectra that showed the local nuclear magnetic fields of hydrogens in magnesium hydride. This technique expands our ability to investigate hydrogen transfer in solid materials, which should help to facilitate the development of hydrogen storage materials.

Journal: Physical Review Letters
Funder: Japan Society for the Promotion Science (JSPS)

Public Release: 10-Sep-2018

Discovered: Optimal magnetic fields for suppressing instabilities in tokamaks

DOE/Princeton Plasma Physics Laboratory

Embargoed release reports new method for reducing instabilities in fusion plasmas without triggering fresh problem.

Journal: Nature Physics
Funder: US Department of Energy Office of Science, Korean Ministry of Science, Information and Communications of Technology Industry

Public Release: 5-Sep-2018

MIT Energy Initiative study reports on the future of nuclear energy

MIT Energy Initiative

In new MIT report, study authors analyze the reasons for the current global stall of nuclear energy capacity and discuss measures that could be taken to arrest and reverse that trend.

Funder: Alfred P. Sloan Foundation, Shell, Électricité de France (EDF), David and Lucile Packard Foundation, General Atomics, Anthropocene Institute, MIT's International Policy Laboratory, Mr. Zach Pate, Mr. Neil Rasmussen

Public Release: 3-Sep-2018

Light exchange

Weizmann Institute of Science

The quantum computers of the future will be able to perform computations that cannot be done on today's computers. These may likely include the ability to crack the encryption that is currently used for secure electronic transactions, as well as the means to efficiently solve unwieldy problems in which the number of possible solutions increases exponentially.

Journal: Nature Physics

Public Release: 3-Sep-2018

Terahertz spectroscopy enters the single-molecule regime

Institute of Industrial Science, The University of Tokyo

University of Tokyo-led researchers showed that long-wavelength terahertz (THz) spectroscopy can detect motion of single molecules, not just molecular ensembles. They used a single-molecule transistor design, where pairs of metal electrodes trap isolated C60 molecules, focus the THz beam onto them, and measure current change caused by THz-induced oscillation. Two vibrational peaks were recorded. The measurement was sensitive enough to register slight peak-splitting caused by electron charging. This could promote wider use of THz spectroscopy.

Journal: Nature Photonics

Public Release: 23-Aug-2018

Experts voice safety concerns about new pebble-bed nuclear reactors

Cell Press

Researchers advise caution as a commercial-scale nuclear reactor known as HTR-PM prepares to become operational in China. The reactor is a pebble-bed, high-temperature gas-cooled reactor (HTGR), a design that is ostensibly safer but that researchers in the US and Germany warn does not eliminate the possibility of a serious accident. Their commentary, publishing Aug. 23, 2018 in the journal Joule, recommends continued research, additional safety measures, and an extended startup phase allowing for better monitoring.

Journal: Joule

Public Release: 22-Aug-2018

Steady as she goes: Scientists tame damaging plasma instabilities in fusion facilities

DOE/Princeton Plasma Physics Laboratory

In a set of recent experiments, scientists have tamed a damaging plasma instability in a way that could lead to the efficient and steady-state operation of ITER, the international tokamak experiment under construction in France to demonstrate the practicality of fusion power.

Journal: Nuclear Fusion
Funder: DOE/Office of Science, General Atomics Postdoctoral Research Participation Program

Featured Newsrooms

News by Subject Chemistry & Physics

Search Archives