An external cavity diode laser sensor

Open Access

Abstract

A simple compact optical sensor system consisting of a near-field external cavity coupled to a semiconductor laser is reported. In this device, a change of phase in the light fed back into the laser cavity by the perturbed external mirror modulates the output of the laser by effectively changing the laser facet reflectivity. Phase shifts of9\cdot10^{-8}rad and 10^-6rad were measured at 10 kHz and 100 Hz, respectively, using a 1-Hz bandwidth and a 98-percent reflector placed less than 10 μm from the laser facet. The sensitivity of these devices is shown to be limited by the intrinsic amplitude noise of the laser. The implementation of this sensor configuration is reported as an acoustic sensor, hydrophone, magnetic field, and current sensor as well as an accelerometer.

Keywords

This publication has 19 references indexed in Scilit:

Phase compensation in interferometric fiber-optic sensors
Optics Letters, 1982
Semiconductor laser noise in an interferometer system
IEEE Journal of Quantum Electronics, 1981
Low-frequency noise characteristics of channel substrate planar GaAlAs laser diodes
Applied Physics Letters, 1981
Single-mode semiconductor injection lasers for optical fiber communications
IEEE Journal of Quantum Electronics, 1981
Multimode optical fiber displacement sensor
Applied Optics, 1981
Single-mode diode laser phase noise
Applied Physics Letters, 1981
Measurement of small phase shifts using a single-mode optical-fiber interferometer
Optics Letters, 1980
Moving fiber-optic hydrophone
Optics Letters, 1980
Transverse mode stabilized AlxGa1-xAs injection lasers with channeled-substrate-planar structure
IEEE Journal of Quantum Electronics, 1978
Resonance amplifier model describing diode lasers coupled to short external resonators
Applied Physics A, 1977