high-temperature superconductors tagged posts

A new discovery could help scientists to understand ‘strange metals,’ a class of materials that are related to high-temperature superconductors and share fundamental quantum attributes with black holes.

Scientists understand quite well how temperature affects electrical conductance in most everyday metals like copper or silver. But in recent years, researchers have turned their attention to a class of materials that do not seem to follow the traditional electrical rules. Understanding these so-called “strange metals” could provide fundamental insights into the quantum world, and potentially help scientists understand strange phenomena like high-temperature superconductivity.

Now, a research team co-led by a Brown University physicist has added a new discovery to the strange meta...

An unexpected finding could advance quantum computers and high-temperature superconductors. Scientists have taken the clearest picture yet of electronic particles that make up a mysterious magnetic state called quantum spin liquid (QSL).

The achievement could facilitate the development of superfast quantum computers and energy-efficient superconductors.

The scientists are the first to capture an image of how electrons in a QSL decompose into spin-like particles called spinons and charge-like particles called chargons.

“Other studies have seen various footprints of this phenomenon, but we have an actual picture of the state in which the spinon lives...

A schematic image representing a periodic variation in the density of Cooper pairs (pairs of blue arrows pointing in opposite directions) within a cuprate superconductor. Densely packed rows of Cooper pairs alternate with regions having lower pair density and no pairs at all. Such a “Cooper pair density wave” was predicted 50 years ago but was just discovered using a unique “scanning Josephson tunneling microscope. Credit: Brookhaven National Laboratory

Scientists have produced the first direct evidence of a state of electronic matter first predicted by theorists in 1964. The discovery may provide key insights into the workings of high-temperature superconductors. The prediction was that “Cooper pairs” of electrons in a superconductor could exist in 2 possible states...

Artist’s impression of a high critical temperature superconductor immersed in a magnetic field. The magnetic field generates whirls of current called vortices. These allow to better perceive an ordered electronic structure that coexists with the superconducting state. Credit: © UNIGE – Xavier Ravinet

New research shows electronic densities measured in these superconductors are a combination of 2 separate effects. As a result, a new model suggests the existence of 2 coexisting states, rather than competing ones as was postulated for the past 30 years. A small revolution in the world of superconductivity.

A superconducting material is a material that, below a certain temperature, loses all electrical resistance...