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Magnetic flux trapping in hydrogen-rich high-temperature superconductors

Vasily S. Minkov, Vadim Ksenofontov, Sergey L. Bud’ko, E. F. Talantsev, M. I. Eremets

2023Nature Physics82 citationsDOIOpen Access PDF

Abstract

Abstract Recent discoveries of superconductivity in various hydrides at high pressures have shown that a critical temperature of superconductivity can reach near-room-temperature values. However, experimental studies are limited by high-pressure conditions, and electrical transport measurements have been the primary technique for detecting superconductivity in hydrides. Here we implement a non-conventional protocol for the magnetic measurements of superconductors in a SQUID magnetometer and probe the trapped magnetic flux in two near-room-temperature superconductors H 3 S and LaH 10 at high pressures. Contrary to traditional magnetic susceptibility measurements, the magnetic response from the trapped flux is almost unaffected by the background signal of the diamond anvil cell due to the absence of external magnetic fields. The behaviour of the trapped flux generated under zero-field-cooled and field-cooled conditions proves the existence of superconductivity in these materials. We reveal that the absence of a pronounced Meissner effect is associated with the very strong pinning of vortices inside the samples. This approach can also be a tool for studying multiphase samples or samples that have a low superconducting fraction at ambient pressure.

Topics & Concepts

SuperconductivityCondensed matter physicsMagnetometerMeissner effectMagnetic fieldPhysicsFlux pumpingSquidFlux pinningHigh-temperature superconductivityMagnetic fluxTrappingSuperdiamagnetismRoom-temperature superconductorDiamagnetismFlux (metallurgy)Materials scienceMetallurgyQuantum mechanicsEcologyBiologyHigh-pressure geophysics and materialsPhysics of Superconductivity and MagnetismMagnetic and transport properties of perovskites and related materials
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