Linewidth narrowing and wideband frequency modulation of a DBR laser

Jack Roth; Andrew Christensen; Madeline Bernstein; Yuno Iwasaki; Hana Lampson; and Holger Mueller

arXiv:2507.00438·physics.atom-ph·September 29, 2025

Linewidth narrowing and wideband frequency modulation of a DBR laser

Jack Roth, Andrew Christensen, Madeline Bernstein, Yuno Iwasaki, Hana Lampson, and Holger Mueller

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TL;DR

This paper demonstrates a phase-locking scheme for a DBR laser that achieves linewidth narrowing from ~400 kHz to ~100 kHz and allows rapid, wideband frequency offset tuning for atomic physics applications.

Contribution

It introduces a method to phase-lock a DBR laser with a tunable 9 GHz offset, enabling linewidth reduction and fast frequency modulation.

Findings

01

Linewidth reduced from ~400 kHz to ~100 kHz.

02

Frequency offset can be swept 200 MHz in 300 microseconds.

03

The scheme is suitable for atomic physics experiments.

Abstract

We present a scheme to phase-lock a 240 mW, 852 nm distributed Bragg reflector (DBR) laser to a fixed-frequency narrow-linewidth laser with a rapidly tunable frequency offset near 9 GHz. The phase-lock is accomplished by electronic feedback on the beatnote between the two lasers. The frequency offset can be swept 200 MHz in 300 us, limited by the feedback loop bandwidth, allowing for its use in complex cooling and state preparation schemes needed in atomic physics experiments. Additionally, we find that the phase-lock reduces the linewidth of the DBR laser below its natural linewidth of ~400 kHz to ~100 kHz.

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