Er Jun Zang scite author profile

A self-made diode-pumped Nd:YAG-KTP laser is frequency stabilized by locking its intracavity-doubled output to the center of Doppler-broadened transitions of molecular iodine near 532nm. The first harmonic locking induces dither of the laser frequency and the external FM spectroscopy locking is in progress. The laser system and locking technique are simple and can be attractive for certain applications.

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Single-frequency 125 W monolithic lasers at 1123 nm

Zang¹,

Cao²,

Li³

et al. 2007

Opt. Lett.

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Experimental investigation ofd Nd:YAG monolithic nonplanar ring lasers operated at 1123 nm wavelength is presented. Stable single-frequency 1123 nm laser output has been obtained with successful suppression of the strong 1064 nm radiation. Single-frequency output power of 1.25 W is demonstrated with a pump power of 3.98 W at 808 nm, which gives a slope efficiency of 39%. The laser frequency tuning range is over 3 GHz, and the average tuning rate with temperature is -2.6 GHz/ degrees C. A strong iodine absorption line can be covered within the laser frequency tuning range.

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Frequency-stabilized tunable diode laser and strong transition iodine hyperfine spectra at 633 nm

Chen

Zhang

Zang³

et al. 1998

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Relaxed alignment tolerance of monolithic ring lasers

Zang

Cao²,

Zhong³

et al. 2002

Appl. Opt.

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An investigation of relaxed alignment tolerance in monolithic ring lasers is presented. It was found that the relaxed alignment tolerance is strongly dependent on the out-of-plane angle. A preferred region for the out-of-plane angle is proposed. In this region the resonator has greatly relaxed alignment tolerances, and the unidirectional operation can be obtained under a much-lower magnetic field. Two lasers have been constructed in the region, and satisfactory performance was found, in good agreement with the theoretical analysis.

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Er Jun Zang

Realization of Four-Pass $I_{2}$ Absorption Cell in 532-nm Optical Frequency Standard

Frequency stabilization of a Nd:YAG laser to Doppler-broadened lines of iodine near 532 nm

Single-frequency 125 W monolithic lasers at 1123 nm

Frequency-stabilized tunable diode laser and strong transition iodine hyperfine spectra at 633 nm

Relaxed alignment tolerance of monolithic ring lasers

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