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Ultraweak electron-phonon coupling strength in cubic boron arsenide unveiled by ultrafast dynamics

Zhen‐Yu Tian, Q. Y. Zhang, Yunlong Xiao, Geethal Amila Gamage, Fei Tian, Shuai Yue, Viktor G. Hadjiev, Jiming Bao, Zhifeng Ren, Erjun Liang, Jimin Zhao

2022Physical review. B./Physical review. B26 citationsDOI

Abstract

We report a time-resolved ultrafast quasiparticle dynamics investigation of cubic boron arsenide ($c$-BAs), which is a recently discovered highly thermally conducting material. The excited-state ultrafast relaxation channels dictated by the electron-phonon coupling (EPC), phonon-phonon scattering, and radiative electron-hole recombination have been unambiguously identified, along with their typical interaction times. Significantly, the EPC strength is obtained from the dynamics, with a value of ${\ensuremath{\lambda}}_{{T}_{2}}=0.008$ (corresponding to $\ensuremath{\lambda}\ensuremath{\langle}{\mathrm{\ensuremath{\Omega}}}^{2}\ensuremath{\rangle}=1.18\ifmmode\pm\else\textpm\fi{}0.08\phantom{\rule{0.16em}{0ex}}\mathrm{p}{\mathrm{s}}^{--2}$), demonstrating an unusually weak coupling between the electrons and phonons. As a comparison, an ultraweak EPC strength for graphene is also expected. We propose that preserving an ultrasmall EPC strength may be a prerequisite for exhibiting an ultrahigh thermal conductivity. Our investigation provides insight for searching and designing ultrahigh thermal conductivity materials. Notably, during our analysis we have generalized the fluence-dependence method for obtaining the EPC strength to room temperature, which can be applied to many other types of quantum materials in the future.

Topics & Concepts

PhononCondensed matter physicsPhysicsCoupling (piping)ElectronRelaxation (psychology)QuasiparticleThermal conductivityScatteringAtomic physicsMaterials scienceSuperconductivityQuantum mechanicsPsychologySocial psychologyMetallurgyThermal properties of materialsThermal Radiation and Cooling TechnologiesTopological Materials and Phenomena
Ultraweak electron-phonon coupling strength in cubic boron arsenide unveiled by ultrafast dynamics | Litcius