Active Q switching of a fiber laser with a microsphere resonator

Khanh Kieu; Masud Mansuripur

doi:10.1364/OL.31.003568

Active Q switching of a fiber laser with a microsphere resonator

Research output: Contribution to journal › Article › peer-review

Abstract

We propose and demonstrate an active Q-switched fiber laser using a high-Q microsphere resonator as the Q-switching element. The laser cavity consists of an Er-doped fiber as the gain medium, a glass microsphere reflector (coupled through a fiber taper) at one end of the cavity, and a fiber Bragg grating reflector at the other end. The reflectivity of the microsphere is modulated by changing the gap between the microsphere and the fiber taper. Active Q switching is realized by oscillating the microsphere in and out of contact with the taper. Using this novel technique, we have obtained giant pulses (maximum peak power ∼102 W, duration ∼160ns) at a low pump-power threshold (∼3 mW).

Original language	English (US)
Pages (from-to)	3568-3570
Number of pages	3
Journal	Optics letters
Volume	31
Issue number	24
DOIs	https://doi.org/10.1364/OL.31.003568
State	Published - Dec 15 2006

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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abstract = "We propose and demonstrate an active Q-switched fiber laser using a high-Q microsphere resonator as the Q-switching element. The laser cavity consists of an Er-doped fiber as the gain medium, a glass microsphere reflector (coupled through a fiber taper) at one end of the cavity, and a fiber Bragg grating reflector at the other end. The reflectivity of the microsphere is modulated by changing the gap between the microsphere and the fiber taper. Active Q switching is realized by oscillating the microsphere in and out of contact with the taper. Using this novel technique, we have obtained giant pulses (maximum peak power ∼102 W, duration ∼160ns) at a low pump-power threshold (∼3 mW).",

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AU - Mansuripur, Masud

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N2 - We propose and demonstrate an active Q-switched fiber laser using a high-Q microsphere resonator as the Q-switching element. The laser cavity consists of an Er-doped fiber as the gain medium, a glass microsphere reflector (coupled through a fiber taper) at one end of the cavity, and a fiber Bragg grating reflector at the other end. The reflectivity of the microsphere is modulated by changing the gap between the microsphere and the fiber taper. Active Q switching is realized by oscillating the microsphere in and out of contact with the taper. Using this novel technique, we have obtained giant pulses (maximum peak power ∼102 W, duration ∼160ns) at a low pump-power threshold (∼3 mW).

AB - We propose and demonstrate an active Q-switched fiber laser using a high-Q microsphere resonator as the Q-switching element. The laser cavity consists of an Er-doped fiber as the gain medium, a glass microsphere reflector (coupled through a fiber taper) at one end of the cavity, and a fiber Bragg grating reflector at the other end. The reflectivity of the microsphere is modulated by changing the gap between the microsphere and the fiber taper. Active Q switching is realized by oscillating the microsphere in and out of contact with the taper. Using this novel technique, we have obtained giant pulses (maximum peak power ∼102 W, duration ∼160ns) at a low pump-power threshold (∼3 mW).

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JO - Optics letters

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Active Q switching of a fiber laser with a microsphere resonator

Abstract

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