News by Subject Chemistry & Physics

News Release 2-Apr-2020

A new way to fine-tune exotic materials: Thin, stretch and clamp

DOE/SLAC National Accelerator Laboratory

Turning a brittle oxide into a flexible membrane and stretching it on a tiny apparatus flipped it from a conducting to an insulating state and changed its magnetic properties. The technique can be used to study and design a broad range of materials for use in things like sensors and detectors.

Journal: Science
Funder: US Department of Energy Office of Science, Gordon and Betty Moore Foundation's Emergent Phenomena in Quantum Systems Initiative

News Release 1-Apr-2020

BESSY II: Ultra-fast switching of helicity of circularly polarized light pulses

Helmholtz-Zentrum Berlin für Materialien und Energie

At the BESSY II storage ring, a team has shown how the helicity of circularly polarized synchrotron radiation can be switched faster - up to a million times faster than before. They used an elliptical double-undulator developed at HZB and operated the storage ring in the so-called two-orbit mode. This is a special mode of operation that was only recently developed at BESSY II and provides the basis for fast switching.

Journal: Communications Physics

News Release 1-Apr-2020

Scientists see energy gap modulations in a cuprate superconductor

DOE/Brookhaven National Laboratory

Scientists studying high-Tc superconductors at the US Department of Energy's Brookhaven National Laboratory have definitive evidence for the existence of a state of matter known as a pair density wave -- first predicted by theorists some 50 years ago. Their results show that this phase coexists with superconductivity in a well-known bismuth-based copper-oxide superconductor.

Journal: Nature
Funder: DOE Office of Science, DOE's Supplemental Undergraduate Research Program, Institute for Basic Science, Institute of Applied Physics of Seoul National University, National Research Foundation of Korea, Science Foundation of Ireland, and others

News Release 27-Mar-2020

Zero-energy bound states in the high-temperature superconductors at 2-dimensional limit

Peking University

Recently, Wang Jian group at Peking University, in collaboration with Professor Wang Ziqiang at Boston College and Professor Hu Jiangping at Institute of Physics, Chinese Academy of Sciences, detected novel ZEBSs resembling the characteristics of MZMs in interstitial Fe adatoms deposited on the high-temperature superconducting thin films at two-dimensional limit.

Journal: Science Advances
Funder: National Natural Science Foundation of China, National Key Research and Development Program of China, the Collaborative Innovation Center of Quantum Matter, Strategic Priority Research Program of Chinese Academy of Sciences

News Release 25-Mar-2020

Shifting dimensions: Exciting excitons in phosphorene

Okinawa Institute of Science and Technology (OIST) Graduate University

Scientists at the Okinawa Institute of Science and Technology Graduate University (OIST) have explored how an excited state of matter -- excitons -- behaves in phosphorene, a two-dimensional material that could be used in LEDs, solar cells, and other optoelectronic devices. The researchers found that they can control whether excitons interact in one or two dimensions within phosphorene, enhancing its prospects as a new material in optoelectronic devices.

Journal: Physical Review Letters

News Release 24-Mar-2020

High-efficiency laser for silicon chips

Forschungszentrum Juelich

Transistors work electrically, but data can be transmitted more quickly by using light. Scientists from Forschungszentrum Jülich have now come a step closer to integrating lasers directly in silicon chips. Together with researchers from Centre de Nanosciences et de Nanotechnologies in Paris and the French company STMicroelectronics as well as CEA-LETI Grenoble, they have developed a compatible semiconductor laser made of germanium and tin, whose efficiency is comparable with conventional GaAs semiconductor lasers on Si.

Journal: Nature Photonics
Funder: German Research Foundation, SiGeSn Laser for Silicon Photonics

News Release 23-Mar-2020

Clemson researcher's novel MOF is potential next-gen semiconductor

Clemson University

Clemson professor Sourav Saha demonstrated a novel double-helical metal organic framework architecture in a partially oxidized form that conducts electricity, potentially making it a next-generation semiconductor.

Journal: ACS Applied Materials & Interfaces
Funder: National Science Foundation

News Release 19-Mar-2020

A nanoscale laser made of gold and zinc oxide

University of Oldenburg

Tiny particles composed of metals and semiconductors could serve as light sources in components of future optical computers, as they are able to precisely localize and extremely amplify incident laser light. A team from Germany and Sweden led by Prof. Dr. Christoph Lienau and Dr. Jin-Hui Zhong from the University of Oldenburg has now explained for the first time how this process works. The study is published in the current issue of the journal Nature Communications.

Journal: Nature Communications
Funder: Deutsche Forschungsgemeinschaft, Korea Foundation for International Cooperation of Science and Technology, the German-Israeli Foundation, the Swedish Research Council, Laserlab-Europe, European Union Horizon 2020

News Release 19-Mar-2020

Putting artificial intelligence to work in the lab

ARC Centre of Excellence in Future Low-Energy Electronics Technologies

An Australian-German collaboration has demonstrated fully-autonomous SPM operation, applying artificial intelligence and deep learning to remove the need for constant human supervision. The new system, dubbed DeepSPM, bridges the gap between nanoscience, automation and artificial intelligence (AI), and firmly establishes the use of machine learning for experimental scientific research using Scanning Probe Microscopy (SPM).

Journal: Communications Physics
Funder: Australian Research Council

News Release 17-Mar-2020

Semiconductors can behave like metals and even like superconductors

Swansea University

The crystal structure at the surface of semiconductor materials can make them behave like metals and even like superconductors, a joint Swansea/Rostock research team has shown. The discovery potentially opens the door to advances like more energy-efficient electronic devices.

Journal: Advanced Functional Materials

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