Title :
Heterodyne detection with an injection laser I. principle of operation and conversion efficiency
Author :
Marcuse, Dietrich
Author_Institution :
AT&T Bell Lab., Holmdel, NJ, USA
fDate :
1/1/1990 12:00:00 AM
Abstract :
If a light signal is passed into the resonant cavity of an actively oscillating injection laser, an electrical signal at the difference between the laser and light signal frequencies flows through the wire supplying the DC bias to the laser. A small-signal analysis of heterodyne detection with such a laser oscillator that is based solely on rate equations and introduces the externally applied signal as a source term into the photon rate equation is discussed. Since neither Maxwell´s equations nor the wave equation are involved, this analysis is deemed simpler and more transparent than that reported earlier. Gain saturation of the active medium of the laser, which is responsible for broadening of the relaxation resonance, is taken into account
Keywords :
demodulation; laser cavity resonators; semiconductor junction lasers; DC bias; active medium; actively oscillating injection laser; conversion efficiency; electrical signal; externally applied signal; heterodyne detection; injection laser; laser frequency; laser oscillator; light signal; light signal frequencies; photon rate equation; rate equations; relaxation resonance; relaxation resonance broadening; resonant cavity; small-signal analysis; source term; Distributed feedback devices; Electrons; Equations; Laser feedback; Laser modes; Optical mixing; Optical receivers; Optical saturation; Oscillators; Resonance;
Journal_Title :
Quantum Electronics, IEEE Journal of
