Integrated photonic molecule Brillouin laser with a high-power sub-100-mHz fundamental linewidth

Liu, Kaikai; Wang, Jiawei; Chauhan, Nitesh; Harrington, Mark W.; Nelson, Karl D.; Blumenthal, Daniel J.

doi:10.1364/OL.503126

Title: Integrated photonic molecule Brillouin laser with a high-power sub-100-mHz fundamental linewidth

Journal Article · Tue Dec 19 00:00:00 EST 2023 · Optics Letters

DOI:https://doi.org/10.1364/OL.503126· OSTI ID:2246674

;

; Harrington, Mark W.; Nelson, Karl D.;

Photonic integrated lasers with an ultra-low fundamental linewidth and a high output power are important for precision atomic and quantum applications, high-capacity communications, and fiber sensing, yet wafer-scale solutions have remained elusive. Here we report an integrated stimulated Brillouin laser (SBL), based on a photonic molecule coupled resonator design, that achieves a sub-100-mHz fundamental linewidth with greater than 10-mW output power in the C band, fabricated on a 200-mm silicon nitride (Si ₃ N ₄ ) CMOS-foundry compatible wafer-scale platform. The photonic molecule design is used to suppress the second-order Stokes (S2) emission, allowing the primary lasing mode to increase with the pump power without phase noise feedback from higher Stokes orders. The nested waveguide resonators have a 184 million intrinsic and 92 million loaded Q, over an order of magnitude improvement over prior photonic molecules, enabling precision resonance splitting of 198 MHz at the S2 frequency. We demonstrate S2-suppressed single-mode SBL with a minimum fundamental linewidth of 71±18 mHz, corresponding to a 23±6-mHz ² /Hz white-frequency-noise floor, over an order of magnitude lower than prior integrated SBLs, with an ∼11-mW output power and 2.3-mW threshold power. The frequency noise reaches the resonator-intrinsic thermo-refractive noise from 2-kHz to 1-MHz offset. The laser phase noise reaches −155 dBc/Hz at 10-MHz offset. The performance of this chip-scale SBL shows promise not only to improve the reliability and reduce size and cost but also to enable new precision experiments that require the high-speed manipulation, control, and interrogation of atoms and qubits. Realization in the silicon nitride ultra-low loss platform is adaptable to a wide range of wavelengths from the visible to infrared and enables integration with other components for systems-on-chip solutions for a wide range of precision scientific and engineering applications including quantum sensing, gravitometers, atom interferometers, precision metrology, optical atomic clocks, and ultra-low noise microwave generation.

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Sponsoring Organization:: USDOE Advanced Research Projects Agency - Energy (ARPA-E)

Grant/Contract Number:: AR0001042

OSTI ID:: 2246674

Journal Information:: Optics Letters, Journal Name: Optics Letters Vol. 49 Journal Issue: 1; ISSN 0146-9592

Publisher:: Optical Society of AmericaCopyright Statement

Country of Publication:: United States

Language:: English

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