Dual-frequency injection-locked continuous-wave near-infrared laser

TL;DR

This paper presents a dual-frequency injection-locked continuous-wave near-infrared laser system that achieves stable operation, high power, and flexible frequency and power control through seed laser manipulation.

Contribution

It introduces a novel dual-frequency injection-locked laser system with independent seed lasers enabling arbitrary frequency selectivity and power control.

Findings

Maximum output power of 2.8 W

Stable single-mode operation

Flexible control of frequencies and powers

Abstract

We report a dual-frequency injection-locked continuous-wave near-infrared laser. The entire system consists of a Ti:sapphire ring laser as a power oscillator, two independent diode-lasers employed as seed lasers, and a master cavity providing a frequency reference. Stable dual-frequency injection-locked oscillation is achieved with a maximum output power of 2.8 W. As fundamental performance features of this laser system, we show its single longitudinal/transverse mode characteristics and practical power stability. Furthermore, as advanced features, we demonstrate arbitrary selectivity of the two frequencies and flexible control of their relative powers by simply manipulating the seed lasers.