Self-Separation of a Single Ultrashort Light Pulse in the Parametric Raman Anti-Stokes Laser Based on a CaMoO4 Crystal under Intracavity Synchronous Pumping

Dmitry P. Tereshchenko; Sergei N. Smetanin; Alexander G. Papashvili; Yury A. Kochukov; Anatoly I. Titov; Evgeny V. Shashkov; Maria D. Lapina; Vladislav E. Shukshin; Kirill A. Subbotin; Denis A. Lis

Journal ArticleOPEN ACCESS

Self-Separation of a Single Ultrashort Light Pulse in the Parametric Raman Anti-Stokes Laser Based on a CaMoO4 Crystal under Intracavity Synchronous Pumping

Crystals (2023) 13(4)

DOI: 10.3390/cryst13040636

1Citations

5Readers

Abstract

The effect of the self-separation of a single ultrashort light pulse of a parametric Raman CaMoO4 laser with birefringence phase matching under intracavity synchronous pumping by a mode-locked 1064 nm Nd:YAG laser is experimentally investigated and theoretically simulated. The conditions for the self-separation effect for the single ultrashort pulse at an anti-Stokes wavelength of 973 nm with the pulse duration of 9 ps and the pulse energy of up to 9 μJ are defined.

Author supplied keywords

Cite

CITATION STYLE

APA

Tereshchenko, D. P., Smetanin, S. N., Papashvili, A. G., Kochukov, Y. A., Titov, A. I., Shashkov, E. V., … Lis, D. A. (2023). Self-Separation of a Single Ultrashort Light Pulse in the Parametric Raman Anti-Stokes Laser Based on a CaMoO4 Crystal under Intracavity Synchronous Pumping. Crystals, 13(4). https://doi.org/10.3390/cryst13040636

Self-Separation of a Single Ultrashort Light Pulse in the Parametric Raman Anti-Stokes Laser Based on a CaMoO4 Crystal under Intracavity Synchronous Pumping

Abstract

Author supplied keywords

Cite

Register to see more suggestions