Maurizio Dabbicco scite author profile

We study the time dependence of the optical power emitted by terahertz and mid-IR quantum cascade lasers in presence of optical reinjection and demonstrate unprecedented continuous wave (CW) emission stability for strong feedback. We show that the absence of coherence collapse or other CW instabilities typical of diode lasers is inherently associated with the high value of the photon to carrier lifetime ratio and the negligible linewidth enhancement factor of quantum cascade lasers.

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High-resolution monitoring of the hole depth during ultrafast laser ablation drilling by diode laser self-mixing interferometry

Mezzapesa

Ancona

Sibillano

et al. 2011

Opt. Lett.

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We demonstrate that diode laser self-mixing interferometry can be exploited to instantaneously measure the ablation front displacement and the laser ablation rate during ultrafast microdrilling of metals. The proof of concept was obtained using a 50-μm-thick stainless steel plate as the target, a 120 ps/110 kHz microchip fiber laser as the machining source, and an 823 nm diode laser with an integrated photodiode as the probe. The time dependence of the hole penetration depth was measured with a 0.41 µm resolution.

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A Compact Three Degrees-of-Freedom Motion Sensor Based on the Laser-Self-Mixing Effect

Ottonelli

Lucia

Vietro

et al. 2008

IEEE Photon. Technol. Lett.

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Squeezed Light Generation in Semiconductors

et al. 1995

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Imaging of free carriers in semiconductors via optical feedback in terahertz quantum cascade lasers

Mezzapesa

Columbo

Brambilla

et al. 2014

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To monitor the density of photo-generated charge carriers on a semiconductor surface, we demonstrate a detectorless imaging system based on the analysis of the optical feedback in terahertz quantum cascade lasers. Photo-excited free electron carriers are created in high resistivity n-type silicon wafers via low power (≅40 mW/cm2) continuous wave pump laser in the near infrared spectral range. A spatial light modulator allows to directly reconfigure and control the photo-patterned intensity and the associated free-carrier density distribution. The experimental results are in good agreement with the numerical simulations.

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