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Dynamical evolution of anisotropic response of type-II Weyl semimetal TaIrTe4 under ultrafast photoexcitation

Xiao Zhuo, Jiawei Lai, Peng Yu, Ze Yu, Junchao Ma, Wei Lü, Miao Liu, Zheng Liu, Dong Sun

2021Light Science & Applications43 citationsDOIOpen Access PDF

Abstract

Abstract Layered type-II Weyl semimetals, such as WTe 2 , MoTe 2 , and TaIrTe 4 have been demonstrated as a supreme photodetection material with topologically enhanced responsivity and specific sensitivity to the orbital angular momentum of light. Toward future device applications with high performance and ultrafast response, it is necessary to understand the dynamical processes of hot carriers and transient electronic properties of these materials under photoexcitation. In this work, mid-infrared ultrafast spectroscopy is performed to study the dynamical evolution of the anisotropic response of TaIrTe 4 . The dynamical relaxation of photoexcited carriers exhibits three exponential decay components relating to optical/acoustic phonon cooling and subsequent heat transfer to the substrate. The ultrafast transient dynamics imply that TaIrTe 4 is an ideal material candidate for ultrafast optoelectronic applications, especially in the long-wavelength region. The angle-resolved measurement of transient reflection reveals that the reflectivity becomes less anisotropic in the quasi-equilibrium state, indicating a reduction in the anisotropy of dynamical conductivity in presence of photoexcited hot carriers. The results are indispensable in material engineering for polarization-sensitive optoelectronics and high field electronics.

Topics & Concepts

PhotoexcitationAnisotropyMaterials sciencePhotodetectionUltrashort pulsePhononWeyl semimetalOptoelectronicsCondensed matter physicsPhysicsOpticsLaserSemimetalPhotodetectorAtomic physicsSiliconExcited state2D Materials and ApplicationsTopological Materials and PhenomenaAdvanced Fiber Laser Technologies