Title :
Realization of Four-Pass I2 Absorption Cell in 532-nm Optical Frequency Standard
Author :
Zang, Er Jun ; Cao, Jian Ping ; Li, Ye ; Li, Cheng Yang ; Deng, Yong Kai ; Gao, Chun Qing
Author_Institution :
Div. of Electr. & Quantum Metrol., Nat. Inst. of Metrol., Beijing
fDate :
4/1/2007 12:00:00 AM
Abstract :
Several innovations have been adopted in our portable 532-nm optical frequency standard. Particularly, the authors realized a four-pass scheme equivalent to 1.8-m J2 absorption length, which gives adequate signal-to-noise ratio (~170 in a 10-kHz bandwidth). In addition, an active feedback control has been designed and implemented. The fluctuations of the residual-amplitude modulation in the electrooptic modulator have been successfully suppressed. As a result, the laser-frequency stability is greatly improved. When both lasers are locked on the same molecular iodine transition line of R (56) 32-0: alpha10, the Allan deviation is lower than 2.3 10-14 at 1-s averaging time, reaching the flicker floor at about 4 10-15 after 200 s. The maximum frequency excursion at 532 nm is about 175 Hz during a continuous measuring time of 150 000 s
Keywords :
frequency standards; laser feedback; laser frequency stability; laser mode locking; optical modulation; optical variables measurement; 1 s; 10 kHz; 150000 s; 175 Hz; 200 s; 532 nm; Allan deviation; absorption cell; active feedback control; electrooptic modulator; four-pass scheme; laser-frequency stability; modulation-transfer spectroscopy; optical frequency standard; residual-amplitude modulation; Absorption; Electrooptic modulators; Frequency; Laser feedback; Laser stability; Laser transitions; Lasers and electrooptics; Optical feedback; Optical modulation; Technological innovation; Four-pass scheme; laser-frequency stability; m odulation-transfer spectroscopy; monolithic laser; residual-amplitude modulation (RAM);
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
DOI :
10.1109/TIM.2007.890816
