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Brief Communications
Substructure of high-power stimulated emission pulses from a fiber laser
Sh. Sh. Gvatua, Z. V. Katselashvili, V. A. Khanevichev, D. K. Khotelashvili, V. S. Chagulov
Abstract:
It is demonstrated experimentally that an individual spike in a regular series of intensity pulsations from a glass-fiber laser having a core doped with neodymium ions, consists of a train of short pulses having a duration of 2–8 nsec and a period of $\sim15$ nsec. The spectrum of stimulated emission from a fiber laser with a total half-width $\Delta\lambda\lesssim$ 1.8–5.6 nm, governed by the pump energy, takes the form of discrete narrow lines with the half-width $\Delta\lambda\leq$ 0.075–0.3 $\mathring{A}$. This character of the stimulated emission is attributed to the self-mode-locking in a fiber laser due to the effect, at the emission wavelength of $\lambda$ = 1.06 $\mu$, of short-lived color centers which are produced in the glass by the ultraviolet part of the pump radiation spectrum.
Received: 07.08.1978 Revised: 21.11.1978
Citation:
Sh. Sh. Gvatua, Z. V. Katselashvili, V. A. Khanevichev, D. K. Khotelashvili, V. S. Chagulov, “Substructure of high-power stimulated emission pulses from a fiber laser”, Kvantovaya Elektronika, 6:4 (1979), 870–872 [Sov J Quantum Electron, 9:4 (1979), 518–519]
Linking options:
https://www.mathnet.ru/eng/qe8929 https://www.mathnet.ru/eng/qe/v6/i4/p870
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