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Common Perovskite Superfluoresces at High Temperatures

tppeake

Apr 4, 2023

DMI Allows Magnon-Magnon Coupling in Hybrid Perovskites

Researchers created a mixed magnon state in an organic hybrid perovskite material, which could have implications for quantum computing.

Feb 13, 2023

Chiral Phonons Create Spin Current Without Needing Magnetic Materials

Chiral phonons can convert wasted heat into spin – without needing magnetic materials to do it.
Graphic shows process of achieving superflorescence at room temperature.

Aug 29, 2022

‘Naturally Insulating’ Material Emits Pulses of Superfluorescent Light at Room Temperature

Work could lead to the development of faster microchips, neurosensors and quantum computing materials.
NC State gateway at sunset

Jun 13, 2022

Understanding Room Temperature Superconductivity

Lex Kemper discusses attempts to untangle the secrets of superconducting material YBCO.

May 18, 2022

Researchers Use Galaxy as a ‘Cosmic Telescope’ to Study Heart of the Young Universe

A new instrument and powerful telescope have let researchers peer into galactic nurseries.
Superfluorescence

Mar 31, 2022

Quantum ‘Shock Absorbers’ Allow Perovskite to Exhibit Superfluorescence at Room Temperature

Researchers explain why some perovskites exhibit superfluorescence at high temperatures.
NC State gateway at sunset

Sep 30, 2021

Two-Dimensional Hybrid Metal Halide Device Allows Control of Terahertz Emissions

A 2D hybrid metal halide device allows directional control of terahertz radiation generated by a spintronic scheme.
NC State gateway at sunset

Sep 10, 2021

Neutron Beam More Accurate Probe Than X-ray, Could Also be Used to Find Physics’ ‘Fifth’ Forces

A neutron beam technique gave researchers more accurate measurements of silicon’s properties, and could be used to detect elusive fifth forces, such as dark energy.
The NC State Belltower at dusk and night. Photo by Marc Hall

Aug 19, 2021

Partition Function Zeros are ‘Shortcut’ to Thermodynamic Calculations on Quantum Computers

A new method enables quantum computers to measure the thermodynamic properties of systems by calculating the zeros of the partition function.
superfluorescence

Jun 21, 2021

Common Perovskite Superfluoresces at High Temperatures

A common perovskite’s superfluorescent properties may make it useful for quantum computing.