Gain dynamics in a heterogeneous terahertz quantum cascade laser

Derntl, Christian G.; Scalari, Giacomo; Bachmann, Dominic; Beck, Mattias; Faist, Jérôme; Unterrainer, K.; Darmo, J.

doi:10.1063/1.5049384

Cited by 28 publications

(19 citation statements)

References 30 publications

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“…The fact that we often observe the high-phase noise instead of the harmonic state indicates that there must be additional parameters influencing the locking mechanism. Other factors to be taken into account are the relatively long upper state life time of the laser (surely longer than 40 ps [30] measured in our previous, less diagonal design), which would result in an intermediate behaviour between AM and FM comb regimes, and the spatial hole burning [31]. The latter is probably reduced for lower temperatures due the particular photon-driven transport in these devices, which leads to a low differential conductance even though the low-loss subwavelength waveguides leads to higher fields.…”

Section: Resultsmentioning

confidence: 99%

RF Injection of THz QCL Combs at 80 K Emitting over 700 GHz Spectral Bandwidth

et al. 2020

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We report about RF injection locking of an homogeneous THz quantum cascade laser operating at 3 THz central frequency. The extremely diagonal nature of the optical transition, combined with low-loss copper-based double-metal waveguides, allow CW operation up to 105 K and CW power in excess of 5.6 mW measured at 80 K. Terahertz emission spanning up to 600 GHz, together with a narrow beatnote, indicate comb operation at 80 K, and strong RF injection clearly modifies the laser spectrum up to 700 GHz spectral bandwidth making these devices ideal candidates for an on-chip dual comb spectrometer.

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Section: Resultsmentioning

confidence: 99%

RF Injection of THz QCL Combs at 80 K Emitting over 700 GHz Spectral Bandwidth

et al. 2020

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“…Thus, MIR QCLs favor a quasi-continuous intensity waveform rather than short pulses 19 . Note that in THz QCLs, where gain recovery times between 5 ps and 50 ps have been reported 20 , actively mode-locked pulses were observed in several works [21][22][23][24] with durations as short as 4 ps 25 .…”

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confidence: 87%

Mode-locked short pulses from an 8 μm wavelength semiconductor laser

et al. 2020

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Quantum cascade lasers (QCL) have revolutionized the generation of mid-infrared light. Yet, the ultrafast carrier transport in mid-infrared QCLs has so far constituted a seemingly insurmountable obstacle for the formation of ultrashort light pulses. Here, we demonstrate that careful quantum design of the gain medium and control over the intermode beat synchronization enable transform-limited picosecond pulses from QCL frequency combs. Both an interferometric radio-frequency technique and second-order autocorrelation shed light on the pulse dynamics and confirm that mode-locked operation is achieved from threshold to rollover current. Furthermore, we show that both anti-phase and in-phase synchronized states exist in QCLs. Being electrically pumped and compact, mode-locked QCLs pave the way towards monolithically integrated non-linear photonics in the molecular fingerprint region beyond 6 μm wavelength.

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“…observe nontrivial system dynamics attributed to fieldinduced coherences, the so-called coherent population exchange. We find incoherent lifetimes to be several times smaller than the typical gain recovery times in THz QCLs [44][45][46], as well as saturation times to be shorter than the QCL gain saturation time. Under these circumstances, one can consider such a structure as a monolithically integrated saturable absorber into a QCL cavity in order to achieve a passive mode locking.…”

Section: Resultsmentioning

confidence: 67%

Two-dimensional spectroscopy on a THz quantum cascade structure

et al. 2020

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Understanding and controlling the nonlinear optical properties and coherent quantum evolution of complex multilevel systems out of equilibrium is essential for the new semiconductor device generation. In this work, we investigate the nonlinear system properties of an unbiased quantum cascade structure by performing two-dimensional THz spectroscopy. We study the time-resolved coherent quantum evolution after it is driven far from equilibrium by strong THz pulses and demonstrate the existence of multiple nonlinear signals originating from the engineered subbands and find the lifetimes of those states to be in the order of 4–8 ps. Moreover, we observe a coherent population exchange among the first four intersubband levels during the relaxation, which have been confirmed with our simulation. We model the experimental results with a time-resolved density matrix based on the master equation in Lindblad form, including both coherent and incoherent transitions between all density matrix elements. This allows us to replicate qualitatively the experimental observations and provides access to their microscopic origin.

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Gain dynamics in a heterogeneous terahertz quantum cascade laser

Cited by 28 publications

References 30 publications

RF Injection of THz QCL Combs at 80 K Emitting over 700 GHz Spectral Bandwidth

RF Injection of THz QCL Combs at 80 K Emitting over 700 GHz Spectral Bandwidth

Mode-locked short pulses from an 8 μm wavelength semiconductor laser

Two-dimensional spectroscopy on a THz quantum cascade structure

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