News by Subject Technology & Engineering

News Release 19-Aug-2019

Wired for sound: A third wave emerges in integrated circuits

A research renaissance into chip-based control of light-sound interactions could transform our 5G networks, satellite communications and defense industries. These interactions, known as Brillouin scattering, are set to underpin new designs in microchips and push our theoretical understanding of fundamental science, write Professor Ben Eggleton and colleagues in Nature Photonics.

Journal: Nature Photonics
Funder: Australian Research Council Linkage grant, Harris Corporation, US Office of Naval Research

News Release 15-Aug-2019

Router guest networks lack adequate security, according to researchers at Ben-Gurion University

American Associates, Ben-Gurion University of the Negev

According to Adar Ovadya, a master's student in BGU's Department of Software and Information Systems Engineering, 'all of the routers we surveyed regardless of brand or price point were vulnerable to at least some cross-network communication once we used specially crafted network packets. A hardware-based solution seems to be the safest approach to guaranteeing isolation between secure and non-secure network devices.'

Meeting: 13th USENIX Workshop on Offensive Technologies (WOOT)

News Release 12-Aug-2019

Thinnest optical waveguide channels light within just three layers of atoms

University of California - San Diego

Engineers at the University of California San Diego have developed the thinnest optical device in the world -- a waveguide that is three layers of atoms thin. The work is a proof of concept for scaling down optical devices to sizes that are orders of magnitude smaller than today's devices. It could lead to the development of higher density, higher capacity photonic chips.

Journal: Nature Nanotechnology
Funder: National Science Foundation

News Release 7-Aug-2019

Designing a light-trapping, color-converting crystal

Stanford University

A recipe for creating a microscopic crystal structure that can hold 2 wavelengths of light at once is a step toward faster telecommunications and quantum computers.

Journal: Optica
Funder: This research was funded by the U.S. Air Force Office of Scientific Research, the Swiss National Science Foundation and the QuantERA ERA-NET Cofund in Quantum Technologies.

News Release 26-Jul-2019

Market competition sets tone for lower cost of UK mobile phone contracts, research shows

University of Exeter

Healthy and competitive markets -- and not stringent regulations -- help dial back the cost of mobile phone contacts, according to new research.

Journal: Journal of Consumer Policy

News Release 24-Jul-2019

Army project may advance quantum materials, efficient communication networks

U.S. Army Research Laboratory

A US Army project exploring novel applications of superconducting resonators has discovered these systems may be used to simulate quantum materials impossible to otherwise fabricate. Additionally, they may provide insights to open and fundamental questions in quantum mechanics and gravity.

Journal: Nature

News Release 24-Jul-2019

KIST-Stanford team develops new material for wearable devices able to restore conductivity

National Research Council of Science & Technology

Development of nanocomposite material simultaneously possessing high stretchability, high conductivity, and self-healability. Investigation of self-boosting phenomenon that enables spontaneous increase in electrical conductivity (over 60 times greater than the initial value) when external tensile strain is applied.

Journal: ACS Nano
Funder: Ministry of Science and Technology, National Research Foundation of Korea

News Release 16-Jul-2019

UCI electrical engineering team develops 'beyond 5G' wireless transceiver

University of California - Irvine

An end-to-end transmitter-receiver created by engineers in UCI's Nanoscale Communication Integrated Circuits Labs, is a 4.4-millimeter-square silicon chip that is capable of processing digital signals with significantly greater speed and energy efficiency because of its unique digital-analog architecture.

Journal: IEEE Journal of Solid-State Circuits

News Release 9-Jul-2019

Physicists' finding could revolutionize information transmission

University of California - Riverside

A research team led by physicists at the University of California, Riverside, has observed, characterized, and controlled dark trions in a semiconductor -- ultraclean single-layer tungsten diselenide -- a feat that could increase the capacity and alter the form of information transmission.

Journal: Physical Review Letters
Funder: UC Riverside

News Release 8-Jul-2019

UK researchers develop ultrafast semiconductors

Cardiff University

UK researchers have developed world-leading Compound Semiconductor (CS) technology that can drive future high-speed data communications. A team from Cardiff University's Institute for Compound Semiconductors (ICS) worked with collaborators to innovate an ultrafast and highly sensitive 'avalanche photodiode' (APD) that creates less electronic 'noise' than its silicon rivals.

Journal: Nature Photonics

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