Simple three-stage frequency-stabilized diode laser system using injection-locking and tapered amplifier

TL;DR

This paper presents a simple, stable, and tunable three-stage diode laser system with high power and narrow linewidth, suitable for precision applications, achieved through injection-locking, frequency stabilization, and amplification.

Contribution

The authors designed and tested a compact three-stage diode laser system with integrated frequency stabilization and amplification, demonstrating high power, stability, and tunability.

Findings

Output power above 700 mW at 780 nm

Linewidth of 0.6 MHz and frequency drift below 2 MHz/h

Mode-hop-free tuning range of 2 GHz

Abstract

We developed a simple three-stage amplifying tunable cw diode laser system that comprises: a Littrow configuration master laser, frequency stabilized with a dichroic atomic vapor laser lock (DAVLL), an acousto-optic frequency shifter (AOM), an injection-locked slave laser and a tapered amplifier (TA). Slave amplifies the frequency-shifted beam and suppresses (within 0.5%) the strong dependence of its intensity on the AOM carrier frequency, thus acting as an efficient optical limiter. The beam is further amplified in TA. System operates at 780 nm, with an output power above 700 mW, a time-averaged linewidth of 0.6 MHz, and a frequency drift below 2 MHz/h. The mode-hop-free tuning range of the master amounts 2 GHz, DAVLL allows a lock point tunability in the range of 400 MHz. The fine (with some tens of kHz precision) tuning range spans 70 MHz, determined by the AOM model applied. A detailed description of the system was given and its performance was tested. The basic components were designed and manufactured in our lab.