Journal
NANOPHOTONICS
Volume 10, Issue 1, Pages 181-186Publisher
WALTER DE GRUYTER GMBH
DOI: 10.1515/nanoph-2020-0378
Keywords
frequency comb; injection locking; terahertz; quantum cascade laser
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Funding
- ERC [681379]
- EU union project MIR-BOSE [737017]
- European Research Council (ERC) [681379] Funding Source: European Research Council (ERC)
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This paper reports a homogeneous quantum cascade laser operating at terahertz frequencies, with high power and stability, serving as an optical frequency comb synthesizer. Experimental results demonstrate the advantages of this laser, including high power levels and stable operation characteristics.
We report a homogeneous quantum cascade laser (QCL) emitting at terahertz (THz) frequencies, with a total spectral emission of about 0.6 THz, centered around 3.3 THz, a current density dynamic range J(dr) = 1.53, and a continuous wave output power of 7 mW. The analysis of the intermode beatnote unveils that the devised laser operates as an optical frequency comb (FC) synthesizer over the whole laser operational regime, with up to 36 optically active laser modes delivering similar to 200 mu W of optical power per optical mode, a power level unreached so far in any THz QCL FC. A stable and narrow single beatnote, reaching a minimum linewidth of about 500 Hz, is observed over a current density range of 240 A/cm(2) and even across the negative differential resistance region. We further prove that the QCL FC can be injection locked with moderate radio frequency power at the intermode beatnote frequency, covering a locking range of 1.2 MHz. The demonstration of stable FC operation, in a QCL, over the full current density dynamic range, and without any external dispersion compensation mechanism, makes our proposed homogenous THz QCL an ideal tool for metrological applications requiring mode-hop electrical tunability and a tight control of the frequency and phase jitter.
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