Anharmonic theory of superconductivity and its applications to emerging quantum materials

Setty, Chandan; Baggioli, Matteo; Zaccone, Alessio

doi:10.1088/1361-648x/ad2159

J. Phys.: Condens. Matter

2024

DOI: 10.1088/1361-648x/ad2159

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Anharmonic theory of superconductivity and its applications to emerging quantum materials

Chandan Setty,

Matteo Baggioli,

Alessio Zaccone

Abstract: The role of anharmonicity on superconductivity has often been disregarded in the past. Recently, it has been recognized that anharmonic decoherence could play a fundamental role in determining the superconducting properties (electron-phonon coupling, critical temperature, etc) of a large class of materials, including systems close to structural soft-mode instabilities, amorphous solids and metals under extreme high-pressure conditions.Here, we review recent theoretical progress on the role of anharmon… Show more

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Cited by 5 publications

References 240 publications

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H₃Se in the I m 3 ¯ m Phase: High-Pressure Supercond

Ma 马,

Li 李,

Shi 史

et al. 2024

Chinese Phys. Lett.

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Hydrogen-based compounds have attracted significant attention in recent years due to the discovery of conventional superconductivity with high critical temperature under high pressure, rekindling hopes for searching room temperature superconductor. In this work, we investigated systematically the vibrational and superconducting properties of H$_{3}$Se in $Im\overline{3}m$ phase under pressures ranging from 50 to 200 GPa. Our approach combines the stochastic self-consistent harmonic approximation with first-principles calculations to address effects from the quantum and anharmonic vibrations of ions. It turns out that these effects significantly modify the crystal structure, increasing the inner pressure by about 8 GPa compared to situations where they are ignored. The phonon spectra suggest that with these effects included, the crystal can be stabilized at pressures as low as about 61 GPa, much lower than the previously predicted value of over 100 GPa. Our calculations also highlight the critical role of quantum and anharmonic effects on the electron-phonon coupling properties. Neglecting these factors could result in a substantial overestimation of the superconducting critical temperature $T_{\text{c}}$, by approximately 25 K at 125 GPa, for example. With anharmonic phonons, the $T_{\text{c}}$ derived from the Migdal-Eliashberg equations, reaches 200 K ($\mu^\star=0.1, \lambda$=4.1) as the pressure decreases to 64 GPa, making the crystal a rare high-$T_{\text{c}}$ superconductor at moderate pressures.

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H₃Se in the I m 3 ¯ m Phase: High-Pressure Supercond

Ma 马,

Li 李,

Shi 史

et al. 2024

Chinese Phys. Lett.

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Computational electron–phonon superconductivity: from theoretical physics to material science

Chen,

Zheng,

Zhang

et al. 2024

J. Phys.: Condens. Matter

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The search for room-temperature superconductors is a major challenge in modern physics. The discovery of copper-oxide superconductors in 1986 brought hope but also revealed complex mechanisms that are difficult to analyze and compute. In contrast, the traditional electron-phonon coupling (EPC) mechanism facilitated the practical realization of superconductivity in metallic hydrogen. Since 2015, the discovery of new hydrogen compounds has shown that EPC can enable room-temperature superconductivity under high pressures, driving extensive research. Advances in computational capabilities, especially exascale computing, now allow for the exploration of millions of materials. This paper reviews newly predicted superconducting systems in 2023-2024, focusing on hydrides, boron-carbon systems, and compounds with nitrogen, carbon, and pure metals. Although many computationally predicted high-Tc superconductors were not experimentally confirmed, some low-temperature superconductors were successfully synthesized. This paper provides a review of these developments and future research directions.

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Correlation between optical phonon softening and superconducting T c in YBa₂Cu₃O_x<

Jiang,

Alberto Ummarino,

Baggioli

et al. 2024

J. Phys. Mater.

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We provide a mathematical description, based on d-wave Eliashberg theory, of the strong correlation between the experimentally observed softening of Raman modes associated with in-plane oxygen motions and the corresponding superconducting critical temperature T c , as a function of oxygen doping x, in YBa2Cu3O x . The theoretical model provides a direct link between physical trends of soft optical Ag (in-plane) oxygen modes, the level of oxygen doping x, and the superconducting T c . Different regimes observed in the trend of T c vs doping can be related to corresponding regimes of optical phonon softening in the Raman spectra. These results provide further evidence related to the physical origin of high-temperature superconductivity in rare-earth cuprate oxides and to the significant role of electron–phonon coupling therein.

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Anharmonic theory of superconductivity and its applications to emerging quantum materials

Cited by 5 publications

References 240 publications

H₃Se in the I m 3 ¯ m Phase: High-Pressure Supercond

H₃Se in the I m 3 ¯ m Phase: High-Pressure Supercond

Computational electron–phonon superconductivity: from theoretical physics to material science

Correlation between optical phonon softening and superconducting T c in YBa₂Cu₃O_x<

Contact Info

Product

Resources

About

Anharmonic theory of superconductivity and its applications to emerging quantum materials

Cited by 5 publications

References 240 publications

H3Se in the I m 3 ¯ m Phase: High-Pressure Supercond

H3Se in the I m 3 ¯ m Phase: High-Pressure Supercond

Computational electron–phonon superconductivity: from theoretical physics to material science

Correlation between optical phonon softening and superconducting T c in YBa2Cu3Ox<

Contact Info

Product

Resources

About

H₃Se in the I m 3 ¯ m Phase: High-Pressure Supercond

H₃Se in the I m 3 ¯ m Phase: High-Pressure Supercond

Correlation between optical phonon softening and superconducting T c in YBa₂Cu₃O_x<