2018
DOI: 10.1002/andp.201800086
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Onset of Lasing in Small Devices: The Identification of the First Threshold through Autocorrelation Resonance

Abstract: A simple technique for identifying the onset of coherent emission in mesoscale lasers, which makes use of a small-amplitude modulation added to the pump, is introduced. The optimal modulation frequency is obtained from the radio-frequency power spectrum of the unperturbed laser emission. The identification of the lasing onset rests on the appearance of a resonance in the experimentally measured zero-order autocorrelation function (g (2) (0)) plotted as a function of the pump rate. Numerical proof is provided i… Show more

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Cited by 11 publications
(24 citation statements)
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“…Increasing slightly the bias point, i b = 1.15mA (i.e., ≈ 8% above threshold [23]), we end up with an optimal condition, where we can consistently obtain regular pulses which, while displaying some residual variability, can be well identified with the help of thresholding: setting a threshold at, for instance, 50% of the average peak level we can confirm the presence of a pulse per modulation period. During the modulation, the laser is still brought temporarily below threshold, but only for a time τ bt ≈ 0.25ns.…”
Section: Experiments and Analysis Of Observationsmentioning
confidence: 77%
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“…Increasing slightly the bias point, i b = 1.15mA (i.e., ≈ 8% above threshold [23]), we end up with an optimal condition, where we can consistently obtain regular pulses which, while displaying some residual variability, can be well identified with the help of thresholding: setting a threshold at, for instance, 50% of the average peak level we can confirm the presence of a pulse per modulation period. During the modulation, the laser is still brought temporarily below threshold, but only for a time τ bt ≈ 0.25ns.…”
Section: Experiments and Analysis Of Observationsmentioning
confidence: 77%
“…The modulation amplitude is chosen in such a way as to obtain the most effective pulse generation with minimal amplitude (cf. below for evidence and [23] for spectral analysis). The choice of a sinusoidal modulation originates from its spectral purity, which allows for reliable results without the need for special probes.…”
Section: Experiments and Analysis Of Observationsmentioning
confidence: 99%
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“…This is probably due to reliance of the numerical scheme on the photon number, while the field's phase progressively gains relevance in the gradual transition towards coherent laser emission. Nonetheless, the scheme's validity in the fully incoherent regime promises to provide insights into the feedback dynamics at the smallest laser scales [45].…”
Section: Discussionmentioning
confidence: 99%
“…Fig 3(a) shows the rf spectrum at i = i th : peaks appear at the external cavity repetition frequency (∆ν ec ≈ 0.23 GHz) and its harmonics, where the third one, located close to an intrinsic "resonance" in the spiking (cf. [37], [44], [45] for its interpretation), presents a somewhat stronger amplitude and slightly narrower peak, but no additional feature (as in the free-running case [44]).…”
Section: Experimental Details and Observationsmentioning
confidence: 93%