Theoretical research on cascaded terahertz difference-frequency generation based on sphalerite crystals

Jing-hui LI; Xi-fu LI; Hui-yun ZHANG; Yu-ping ZHANG; Musideke Mayilamu; Jian-quan YAO

doi:10.1007/s11801-012-2236-3

Journals >Optoelectronics Letters >Volume 8 >Issue 5 >Page 389 > Article

Optoelectronics Letters
Vol. 8, Issue 5, 389 (2012)

Theoretical research on cascaded terahertz difference-frequency generation based on sphalerite crystals

Jing-hui LI^1、*, Xi-fu LI², Hui-yun ZHANG³, Yu-ping ZHANG³, Musideke Mayilamu², and Jian-quan YAO²

Author Affiliations

¹Department of Computer Science and Technology, Renai College of Tianjin University, Tianjin 301636, China

²Key Laboratory on Optoelectronics Information Technology, Ministry of Education, Tianjin University, Tianjin 300072,China

³College of Science, Shandong Universing of Science and Technology, Qingdao 266510, China

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DOI: 10.1007/s11801-012-2236-3 Cite this Article

LI Jing-hui, LI Xi-fu, ZHANG Hui-yun, ZHANG Yu-ping, Mayilamu Musideke, YAO Jian-quan. Theoretical research on cascaded terahertz difference-frequency generation based on sphalerite crystals[J]. Optoelectronics Letters, 2012, 8(5): 389 Copy Citation Text

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Abstract

A theoretical model of cascaded terahertz (THz) difference-frequency generation is established based on one-dimensional coupled-wave equations. The relationships between sphalerite crystals’ wave vector mismatches and difference-frequency pump waves are analyzed. To produce terahertz wave with the frequency of 1.5 THz, 80-order cascaded difference-frequency is applied. By introducing crystal absorption, we calculate the optimum crystal length and pump frequency under actual circumstances. It is found that Stokes waves dominate the terahertz waves output in cascaded progress, and cascaded difference-frequency can increase the photon conversion efficiency obviously.

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