News by Subject Technology & Engineering

Public Release: 7-Dec-2018

A new 'spin' on kagome lattices

The kagome ferromagnet Fe3Sn2 exhibits an electronic state that couples unusually strongly to an applied magnetic field that can be rotated to point in any direction of a 3-dimensional space, revealing that magnetization drives -- in quantum scale -- a 'giant' energy shift within the material, an international team of researchers has found.

Journal: Nature
Funder: US Department of Energy

Public Release: 7-Dec-2018

Supercomputers without waste heat

University of Konstanz

Physicists from the University of Konstanz explore superconductivity for information processing.

Journal: Nature Communications

Public Release: 7-Dec-2018

Iron-rich lamellae in the semiconductor

Helmholtz-Zentrum Dresden-Rossendorf

There is often a pronounced symmetry when you look at the lattice of crystals: the atoms are uniformly arranged. This behavior was also to be expected by a crystal, which physicists from Germany and Poland produced: a compound from an indium arsenide semiconductor, spiked with some iron. The material, however, did not adhere to perfect symmetry. The iron formed two-dimensional, lamellar-shaped structures in the crystal that lent the material a striking property: it became magnetic.

Journal: Physical Review Materials

Public Release: 7-Dec-2018

Milestone for bERLinPro: Photocathodes with high quantum efficiency

Helmholtz-Zentrum Berlin für Materialien und Energie

A team at the HZB has improved the manufacturing process of photocathodes and can now provide photocathodes with high quantum efficiency for bERLinPro.

Journal: Physical Review Special Topics - Accelerators and Beams

Public Release: 7-Dec-2018

Harnessing the power of 'spin orbit' coupling in silicon: Scaling up quantum computation

Centre for Quantum Computation & Communication Technology

Research teams from UNSW are investigating multiple pathways to scale up atom-based computing architectures using spin-orbit coupling -- advancing towards their goal of building a silicon-based quantum computer in Australia.

Journal: Science Advances
Funder: Centre for Quantum Computation and Communication Technology

Public Release: 6-Dec-2018

Two-dimensional materials skip the energy barrier by growing one row at a time

DOE/Pacific Northwest National Laboratory

A new study published in the journal Science, could provide engineers new design rules for creating microelectronics, membranes, and tissues, and open up better production methods for new materials. At the same time, the research helps uphold a scientific theory that has remained unproven for over a century.

Journal: Science
Funder: National Science Foundation

Public Release: 6-Dec-2018

WSU researchers create 3D-printed glucose biosensors

Washington State University

A 3D-printed glucose biosensor for use in wearable monitors has been created by Washington State University researchers. The work could lead to improved glucose monitors for millions of people who suffer from diabetes.

Journal: Analytica Chimica Acta

Public Release: 6-Dec-2018

New traffic rules in 'Graphene City'

Penn State

In the drive to find new ways to extend electronics beyond the use of silicon, physicists are experimenting with other properties of electrons, beyond charge. In work published today (Dec 7) in the journal Science, a team led by Penn State professor of physics Jun Zhu describes a way to manipulate electrons based on their energy in relation to momentum -- called 'valley degree of freedom.'

Journal: Science
Funder: National Science Foundation, Office of Naval Research, Elemental Stratey Initiative, Japan

Public Release: 6-Dec-2018

Yin and yang: Opposites in nature, fluoride and lithium, compete for higher energy batteries

Purdue University

The same fluoride in your toothpaste might soon compete with lithium for longer-lasting batteries.

Journal: Science
Funder: Resnick Sustainability Institute, Molecular Materials Research Center, National Science Foundation, DOE/Office of Science, Honda Research Institute

Public Release: 6-Dec-2018

Scientists enter unexplored territory in superconductivity search

DOE/Brookhaven National Laboratory

Scientists mapping out the quantum characteristics of superconductors -- materials that conduct electricity with no energy loss -- have entered a new regime. Using newly connected tools named OASIS at Brookhaven Lab, they've uncovered previously inaccessible details of the 'phase diagram' of one of the most commonly studied 'high-temperature' superconductors.

Journal: Nature Communications
Funder: DOE/Office of Science

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