Quantifying the Nonadiabaticity Strength Constant in Recently Discovered Highly Compressed Superconductors

Talantsev, Evgeny F.

doi:10.3390/sym15091632

Symmetry

2023

DOI: 10.3390/sym15091632

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Quantifying the Nonadiabaticity Strength Constant in Recently Discovered Highly Compressed Superconductors

Evgeny F. Talantsev

Abstract: Superconductivity in highly pressurized hydrides has become the primary direction for the exploration of the fundamental upper limit of the superconducting transition temperature, Tc, after Drozdov et al. (Nature 2015, 525, 73) discovered a superconducting state with Tc=203 K in highly compressed sulfur hydride. To date, several dozen high-temperature superconducting polyhydrides have been discovered and, in addition, it was recently reported that highly compressed titanium and scandium exhibit record-high Tc … Show more

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Cited by 2 publications

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Universal resistivity from electron-phonon interaction based on Einstein model: Application to near-room temperature superconductors

Pinsook,

Tanthum

2025

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Universal resistivity from electron-phonon interaction based on Einstein model: Application to near-room temperature superconductors

Pinsook,

Tanthum

2025

Next Materials

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The A-15-type superconducting hydride La₄H₂₃: a nanograined structure with low strain, strong electron-phonon interaction, and a moderate level of nonadiabaticity

Talantsev,

Chistyakov

2024

Supercond. Sci. Technol.

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For seven decades by A-15 superconductors we meant metallic A3B alloys (where A is a transition metal, and B is groups IIIB and IVB element) discovered by Hardy and Hulm (Phys. Rev. 89, 884 (1953)). Nb3Ge exhibited the highest superconducting transition temperature, Tc = 23 K, among these alloys. One of these alloys, Nb3Sn, is the primary material in modern applied superconductivity. Recently Guo et al (2024 National Science Reviews nwae149, https://doi.org/10.1093/nsr/nwae149) extended the family of superconductors where the metallic ions arranged in the beta tungsten (A-15) sublattice by observation of Tc,zero = 81 K in La4H23 phase compressed at P = 118 GPa. Despite the La4H23 has much lower Tc in comparison with near-room-temperature superconducting LaH10 phase (Tc,zero = 250 K at P ~ 200 GPa) discovered by Drozdov et al (Nature 569, 531 (2019)), the La4H23 holds the record high Tc within A-15 family. Cross et al (Phys. Rev. B 109, L020503 (2024)) confirmed the high-temperature superconductivity in the compressed La4H23. In this paper, we analyzed available experimental data measured in La4H23 and found that this superconductor exhibits nanograined structure, 5.5 nm ≤ D ≤ 35 nm, low crystalline strain, ε ≤ 0.003, strong electron-phonon coupling interaction, 1.5 ≤ λe-ph≤ 2.55, and moderate level of the nonadiabaticity, 0.18 ≤ ΘD/TF ≤ 0.22 (where ΘD is the Debye temperature, and TF is the Fermi temperature). We found that the derived ΘD/TF and Tc/TF values for the La4H23 phase are similar to the ones in MgB2, cuprates, pnictides, and near-room-temperature superconductors H3S and LaH10.

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Quantifying the Nonadiabaticity Strength Constant in Recently Discovered Highly Compressed Superconductors

Cited by 2 publications

References 144 publications

Universal resistivity from electron-phonon interaction based on Einstein model: Application to near-room temperature superconductors

Universal resistivity from electron-phonon interaction based on Einstein model: Application to near-room temperature superconductors

The A-15-type superconducting hydride La₄H₂₃: a nanograined structure with low strain, strong electron-phonon interaction, and a moderate level of nonadiabaticity

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Quantifying the Nonadiabaticity Strength Constant in Recently Discovered Highly Compressed Superconductors

Cited by 2 publications

References 144 publications

Universal resistivity from electron-phonon interaction based on Einstein model: Application to near-room temperature superconductors

Universal resistivity from electron-phonon interaction based on Einstein model: Application to near-room temperature superconductors

The A-15-type superconducting hydride La4H23: a nanograined structure with low strain, strong electron-phonon interaction, and a moderate level of nonadiabaticity

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The A-15-type superconducting hydride La₄H₂₃: a nanograined structure with low strain, strong electron-phonon interaction, and a moderate level of nonadiabaticity