Superconductivity at 250 K in lanthanum hydride under high pressures
A. P. Drozdov, P. P. Kong, V. S. Minkov, S. P. Besedin, M. A., Kuzovnikov, S. Mozaffari, L. Balicas, F. Balakirev, D. Graf, V. B., Prakapenka, E. Greenberg, D. A. Knyazev, M. Tkacz, and M. I. Eremets

TL;DR
This paper reports the discovery of superconductivity at 250 K in lanthanum hydride under high pressure, demonstrating a significant step towards room-temperature superconductivity in conventional materials.
Contribution
It provides experimental evidence of superconductivity at 250 K in LaH10 at 170 GPa, surpassing previous records and supporting the potential for room-temperature superconductivity.
Findings
Superconductivity at 250 K confirmed through zero-resistance and isotope effect.
Maximum Tc of 250-252 K at 170 GPa pressure.
Potential for achieving room-temperature superconductivity at high pressures.
Abstract
The discovery of superconductivity at 203 K in H3S brought attention back to conventional superconductors whose properties can be described by the Bardeen-Cooper-Schrieffer (BCS) and the Migdal-Eliashberg theories. These theories predict that high, and even room temperature superconductivity (RTSC) is possible in metals possessing certain favorable parameters such as lattice vibrations at high frequencies. However, these general theories do not suffice to predict real superconductors. New superconducting materials can be predicted now with the aid of first principles calculations based on Density Functional Theory (DFT). In particular, the calculations suggested a new family of hydrides possessing a clathrate structure, where the host atom (Ca, Y, La) is at the center of the cage formed by hydrogen atoms. For LaH10 and YH10 superconductivity, with critical temperatures Tc ranging…
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