论文信息 - Synchronous mode-locking in passively mode-locked semiconductor laser diodes using optical short pulses repeated at subharmonics of the cavity round-trip frequency

Synchronous mode-locking in passively mode-locked semiconductor laser diodes using optical short pulses repeated at subharmonics of the cavity round-trip frequency

Synchronous mode-locking was achieved in passively mode-locked semiconductor lasers using optical pulses with repetition rates at subharmonics of the cavity round-trip frequency. Stable and continuous mode-locked pulses at 8.5 GHz were generated when the repetition rate of the control optical pulses was 4.25 GHz (2nd subharmonic). The timing jitter of the mode-locked pulses was reduced to 1 ps. The relationship between repetition rates of the control pulses and the realization of stable and continuous mode-locking was examined.

Y. Ogawa | S. Arahira

[1] Yoh Ogawa,et al. 500 GHz optical short pulse generation from a monolithic passively mode‐locked distributed Bragg reflector laser diode , 1994 .

[2] Yutaka Yano,et al. Optical clock extraction from 10-Gbit/s data pulses by using monolithic mode-locked laser diodes , 1995 .

[3] D. Linde. Characterization of the noise in continuously operating mode-locked lasers , 1986 .

[4] Y. Ogawa,et al. Passive and hybrid modelockings in a multi-electrode DBR laser with two gain sections , 1995 .

[5] K. Smith,et al. All-optical clock recovery using a mode-locked laser , 1992 .

[6] Tawee Tanbun-Ek,et al. Subpicosecond monolithic colliding‐pulse mode‐locked multiple quantum well lasers , 1991 .

[7] S Arahira,et al. Terahertz-rate optical pulse generation from a passively mode-locked semiconductor laser diode. , 1994, Optics letters.