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arxiv: 2502.10919 · v1 · pith:YK77AQRA · submitted 2025-02-15 · physics.optics

High-power quantum walk frequency combs

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classification physics.optics
keywords combsfrequencylasersquantumexperimentalhigh-powerlaseroutput
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High-power, broadband frequency combs generated by semiconductor lasers have profound implications for on-chip spectroscopy. Here, we present a dry-etched racetrack quantum cascade laser that uses resonant radio-frequency injection to produce a unidirectional quantum walk frequency comb at mid-infrared wavelengths. Efficient light outcoupling from the racetrack resonator provides more than 100 mW of continuous-wave output power at room temperature, with beam quality on par with that of Fabry--Perot lasers. Experimental waveform reconstruction confirms that the combs are frequency-modulated, rather than amplitude-modulated (as in active mode-locking). We show excellent agreement between the experimental waveforms and numerical simulations, which are based on a reduced Maxwell--Bloch model of the laser and include fast gain dynamics, finite group velocity dispersion, and large Kerr nonlinearity. Furthermore, our optimized device architecture -- featuring thick Si3N4 passivation and reduced parasitic capacitance -- enables modulation bandwidths exceeding 10 GHz. Combined with high output powers and the potential for monolithic integration of multiple ring lasers and waveguide couplers, these advances pave the way to fully integrated dual-comb spectrometers.

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Cited by 2 Pith papers

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    physics.optics 2026-04 unverdicted novelty 8.0

    The LEO frequency comb unifies high efficiency, power, and coherence in a lithium niobate nanophotonic circuit, generating milliwatt power per line, 1.76-ps pulses, 4.7-nm background-free spectrum, and 19.6 kHz linewidths.

  2. Free-Running Ring Quantum Cascade Laser with 50 kHz Linewidth

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    A free-running ring quantum cascade laser achieves a 50 kHz linewidth at 1 s integration time, representing at least a sixfold improvement over prior state-of-the-art devices above 7 micrometers.