Litcius/Paper detail

Light-induced enhancement of superconductivity in iron-based superconductor FeSe0.5Te0.5

Kazuki Isoyama, N. Yoshikawa, Kota Katsumi, Jeremy Wong, Naoki Shikama, Yuki Sakishita, Fuyuki Nabeshima, Atsutaka Maeda, Ryo Shimano

2021Communications Physics51 citationsDOIOpen Access PDF

Abstract

Abstract Illumination of light on matter normally causes heating and destroys the ordered ground states. Despite this common understanding, recent advances in ultrafast light sources have enabled the non-thermal control of quantum phases. Here, we report the light-induced enhancement of superconductivity in a thin film of an iron chalcogenide FeSe 0.5 Te 0.5 , which exhibits multiple quantum condensates associated with the multi-orbital character. Upon the photoexcitation, we observed a transient increase of the superfluid density as indicated by the optical conductivity in the frequency range of superconducting gaps. The light-induced enhancement of superconductivity is further corroborated by the photoinduced enhancement of terahertz third harmonic generation, which is accounted for by the Higgs mode response. The ultrafast dynamics of two superfluid components revealed by frequency- and time-resolved terahertz measurements indicate the interplay between the condensates through the interband Cooper pairings while suggesting the potential tunability of the pairing interaction by light in the ultrafast timescale.

Topics & Concepts

PhotoexcitationSuperconductivitySuperfluidityUltrashort pulseCondensed matter physicsChalcogenideTerahertz radiationPairingMaterials scienceCooper pairPnictogenPhononPhysicsOptoelectronicsLaserOpticsQuantum mechanicsExcitationIron-based superconductors researchPhysics of Superconductivity and MagnetismRare-earth and actinide compounds