AI Article Synopsis
- Laser frequency noise is problematic in low-frequency measurements, but can be mitigated using differential measurement schemes with heterodyne optical phase-locked loops.
- The study demonstrates simultaneous optical phase-locked loops with notable specifications, achieving a 300 MHz offset range and an impressive 250 dB open-loop gain at 0.1 Hz.
- A four-laser differential measurement setup is detailed, effectively suppressing relative free-running noise to enhance measurement precision below 0.1 / at 0.1 Hz.
Article Abstract
Laser frequency noise is particularly challenging to mitigate in low Fourier frequency measurement. For differential measurement schemes using heterodyne optical phase-locked loops, this noise can be common-mode suppressed in the final readout while maintaining a flexible frequency offset and a large frequency-shift dynamic range. We demonstrate simultaneous optical phase-locked loops using digital servo systems, with up to 300 MHz offset frequency range, 250 dB open-loop gain at 0.1 Hz, and control timescales suitable for low-frequency measurement. We also detail a four-laser differential measurement intended for use in a precision measurement device that uses optical phase-locked loops, suppressing relative free-running noise to reach below 0.1 / at 0.1 Hz in the measurement readout.
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| http://dx.doi.org/10.1364/OE.532797 | DOI Listing |
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