A system is described that employs a diode-pumped Nd:YAG continuous-wave la
ser source servolocked to a three-mirror optical cavity and an analog detec
tion circuit that extracts the ring-down rate from the exponentially decayi
ng ring-down waveform. This scheme improves on traditional cavity ring-down
spectroscopy setups by increasing signal acquisition rates to tens of kilo
hertz and reducing measurement noise sources. For example, an absorption sp
ectrum of a weak CO2 transition at 1064 nm is obtained in less than 10 s at
a spectral resolution of 75 kHz employing a cavity with an empty-cavity ri
ng-down decay lifetime of 2.8 mu s and a total roundtrip path length of 42
cm. The analog detection system enables laser frequency scan rates greater
than 500 MHz/s. The long-term sensitivity of this system is 8.8x10(-12) cm(
-1) Hz(-1/2) and the short-term sensitivity is 1.0x10(-12) cm(-1) Hz(-1/2).
(C) 2000 American Institute of Physics. [S0034-6748(00)02602-2].