Stabilized injection locking light amplification of a 1.15-μm He-Ne laser

Abstract: Stable injection locking light amplification with over 13-dB gain value was successfully demonstrated in the He-Ne 1.15-μm laser system stabilized by hill-climbing servo frequency control. Basic formulas for injection locking light amplifier operation were derived, taking the inhomogeneous gain effect into consideration. The input power dependence of the injection locking frequency range was measured in detail for several mirror reflectivities. Deviation from the well-known square-root dependence of the lockin… Show more

“…Injection-locking a high power laser with a low-power master laser reproduces the master laser at higher power with good fidelity [6,7]. Injection-locking has been demonstrated in a wide range of cw laser systems, including Nd:YAG [8,9,10], argon-ion [11], He-Ne [12], diode [13], and dye lasers [14]. It has also been demonstrated for pulsed Ti:sapphire [15,16] and dye lasers [17,18].…”

Demonstration of a 1-W injection-locked continuous-wave titanium:sapphire laser

“…Injection-locking a high power laser with a low-power master laser reproduces the master laser at higher power with good fidelity [6,7]. Injection-locking has been demonstrated in a wide range of cw laser systems, including Nd:YAG [8,9,10], argon-ion [11], He-Ne [12], diode [13], and dye lasers [14]. It has also been demonstrated for pulsed Ti:sapphire [15,16] and dye lasers [17,18].…”

Demonstration of a 1-W injection-locked continuous-wave titanium:sapphire laser

Laser with injected signal: perturbation of an invariant circle

Simplified Theory of Mode-Locking Process for Evaluating SHG Autocorrelation Pulse Width