Litcius/Paper detail

Superconductivity in La and Y hydrides: Remaining questions to experiment and theory

Viktor V. Struzhkin, Bing Li, Cheng Ji, Xiao‐Jia Chen, Vitali B. Prakapenka, Eran Greenberg, I. A. Troyan, Alexander Gavriliuk, Ho‐kwang Mao

2020Matter and Radiation at Extremes105 citationsDOIOpen Access PDF

Abstract

Recent reports of the superconductivity in hydrides of two different families (covalent lattice, as in SH3 and clathrate-type H-cages containing La and Y atoms, as in LaH10 and YH6) have revealed new families of high-Tc materials with Tc’s near room temperature values. These findings confirm earlier expectations that hydrides may have very high Tc’s due to the fact that light H atoms have very high vibrational frequencies, leading to high Tc values within the conventional Bardeen–Cooper–Schrieffer phonon mechanism of superconductivity. However, as is pointed out by Ashcroft, it is important to have the metallic hydrogen “alloyed” with the elements added to it. This concept of a metallic alloy containing a high concentration of metal-like hydrogen atoms has been instrumental in finding new high-Tc superhydrides. These new superhydride “room-temperature” superconductors are stabilized only at very high pressures above 100 GPa, making the experimental search for their superconducting properties very difficult. We will review the current experimental and theoretical results for LaH10−x and YH6−x superhydrides.

Topics & Concepts

SuperconductivityMetallic hydrogenRoom-temperature superconductorCondensed matter physicsMetalHydrogenAlloyPhononMaterials scienceCovalent bondCooper pairHigh-temperature superconductivityLattice (music)PhysicsMetallurgyQuantum mechanicsAcousticsHigh-pressure geophysics and materialsHydrogen Storage and MaterialsRare-earth and actinide compounds
Superconductivity in La and Y hydrides: Remaining questions to experiment and theory | Litcius