Generation and application of four-wave mixing in collinear high harmonic generation

Khuong Ba Dinh, Tran Anh Khoa, Chau Huy Thong, Truong Vi Khanh, Nguyen Ba Hoi, Nguyen Tan Hung, Ho Phuoc Tien, Dao Van Lap
Author affiliations

Authors

  • Khuong Ba Dinh \(^{1}\)Advanced Institute of Science and Technology, The University of Danang, Vietnam;
    \(^{2}\)Optical Sciences Centre, Swinburne University of Technology, Vic 3122, Australia
  • Tran Anh Khoa Advanced Institute of Science and Technology, The University of Danang, Vietnam
  • Chau Huy Thong Optical Sciences Centre, Swinburne University of Technology, Vic 3122, Australia
  • Truong Vi Khanh Advanced Institute of Science and Technology, The University of Da Nang, Vietnam
  • Nguyen Ba Hoi The University of Dannang, Vietnam
  • Nguyen Tan Hung Advanced Institute of Science and Technology, The University of Danang, 41 Le Duan, Hai Chau, Da Nang, Vietnam
  • Ho Phuoc Tien The University of Danang - University of Science and Technology, 41 Le Duan, Hai Chau, Da Nang, Vietnam
  • Dao Van Lap Optical Sciences Centre, Swinburne University of Technology, Vic 3122, Australia

DOI:

https://doi.org/10.15625/0868-3166/17928

Abstract

We describe a thorough study of the wave-mixing procedure in the extreme ultraviolet (XUV) region involving three laser fields (800 nm, 1400 nm and 1860 nm). In addition to the phase matched HHG spectrum generated by an 800-nm laser (driving field), non-integer order wave-mixing spectra are produced when the driving field and the control field (1400 nm or 1860 nm) are collinearly focused into krypton gas. In addition, the simultaneous presence of three laser fields generates resolvable four-wave mixing (FWM) frequencies that clearly indicate the contribution of each control field. We also discuss an application of the FWM scheme to extend the HHG cutoff region and generate the XUV quasi-continuum spectrum.

 

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Published

21-04-2023

How to Cite

[1]
K. B. Dinh, “Generation and application of four-wave mixing in collinear high harmonic generation”, Comm. Phys., vol. 33, no. 2, p. 123, Apr. 2023.

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Section

Papers
Received 02-12-2022
Accepted 01-02-2023
Published 21-04-2023