Giant Photon Momentum Locked THz Emission in a Centrosymmetric Dirac Semimetal

Overview

Journal Sci Adv

Specialties Biology
Science

Date 2023 Jan 4

PMID 36598995

Authors

Liang Cheng

Ying Xiong

Lixing Kang

Yu Gao

Qing Chang

Mengji Chen

Jingbo Qi

Hyunsoo Yang

Zheng Liu

Justin C W Song

Elbert E M Chia

Affiliations

Soon will be listed here.

Abstract

Strong second-order optical nonlinearities often require broken material centrosymmetry, thereby limiting the type and quality of materials used for nonlinear optical devices. Here, we report a giant and highly tunable terahertz (THz) emission from thin polycrystalline films of the centrosymmetric Dirac semimetal PtSe. Our PtSe THz emission is turned on at oblique incidence and locked to the photon momentum of the incident pump beam. Notably, we find an emitted THz efficiency that is giant: It is two orders of magnitude larger than the standard THz-generating nonlinear crystal ZnTe and has values approaching that of the noncentrosymmetric topological material TaAs. Further, PtSe THz emission displays THz sign and amplitude that is controlled by the incident pump polarization and helicity state even as optical absorption is only weakly polarization dependent and helicity independent. Our work demonstrates how photon drag can activate pronounced optical nonlinearities that are available even in centrosymmetric Dirac materials.

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