Efficient noise suppression of an amplified diode-laser
by optical filtering and resonant optical feedback

Yun Zhang, Kazuhiro Hayasaka, Katsuyuki Kasai

Abstract
We present the noise suppression of an amplified diode laser by using an optical filter and resonant optical feedback. The intensity noise of the amplified diode laser has been significantly decreased by using the optical filter cavity. It was further suppressed and reached the shot noise limit at 15 MHz by introducing resonant optical feedback from the transmission of the filter cavity. The filter cavity transmits 53% of injection power, and the output power of the filter cavity is more than 200 mW. The observed frequency fluctuations were less than 100 kHz in one minute. This level of noise suppression and output power may allow diode lasers to be utilized in many quantum-optics experiments.

doi:10.1007/s00340-006-2436-2