Strong terahertz pulse induced Pockels and Kerr effect in crystalline quartz for ultrafast pulse switching

Authors

Danni Li, University of Shanghai for Science and Technology
Yingyu Guo, University of Shanghai for Science and Technology
Zuanming Jin, University of Shanghai for Science and Technology
Xiangmei Dong, University of Shanghai for Science and Technology
Chao Zhang, University of Wollongong
Alexey V. Balakin, Lomonosov Moscow State University
Alexander P. Shkurinov, Lomonosov Moscow State University
Yan Peng, University of Shanghai for Science and Technology
Yiming Zhu, University of Shanghai for Science and Technology
Songlin Zhuang, University of Shanghai for Science and Technology

Publication Name

Applied Physics Letters

Abstract

Ultrafast pulse switching is one of the key elements for ultrahigh speed communication technology. We study the terahertz (THz) induced birefringence response on the laser pulse through the quartz with different THz electric field strength. The magnitude of the observed Pockels signals scales linearly with the THz field amplitude, while the Kerr signals scale quadratically with the THz field amplitude. We demonstrate that the quartz is a good candidate for polarization modulation of 800 nm laser pulse, which has the advantages of low-cost, large bandgap, and negligible dispersion. Furthermore, our investigation finds application beyond ultrafast polarization switching, and the THz-induced polarization gating technique works as a tool for intense THz pulse detection.

Open Access Status

This publication is not available as open access

Volume

125

Issue

5

Article Number

051103

Funding Number

2022YFA1404004

Funding Sponsor

National Key Research and Development Program of China