Quantum cascade lasers: ultrahigh-speed operation, optical wireless communication, narrow linewidth, and far-infrared emission

Capasso, Federico; Paiella, Roberto; Martini, Rainer; Colombelli, R.; Gmachl, Claire F.; Myers, Tanya L.; Taubman, Matthew S.; Williams, Richard M.; Bethea, C. G.; Unterrainer, K.; Hwang, Harold Y.; Sivco, Deborah L.; Cho, A.Y.; Sergent, A. M.; Liu, H.C.; Whittaker, Edward A.

doi:10.1109/jqe.2002.1005403

Cited by 278 publications

(101 citation statements)

References 76 publications

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“…In all three curves we can see a broad "dip" around 6 GHz. Note that the modulation responses of intersubband QCLs are free of relaxation peaks, which has already been confirmed by several experiments [11,21] . Therefore, the dip around 6 GHz does not originate from the laser itself.…”

supporting

confidence: 71%

Beat note analysis and spectral modulation of terahertz quantum cascade lasers with radio frequency injection

Zhu

Wan

et al. 2017

Chin. Opt. Lett.

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We demonstrate the electrical beat note analysis and radio frequency (RF) injection locking of a continuous wave (cw) terahertz quantum cascade laser (QCL) emitting around 3 THz (∼100 μm). In free running the beat note frequency of the QCL shows a shift of ∼180 MHz with increasing drive current. The beat note, modulation response, injection pulling, and terahertz emission spectral characteristics in the different current regimes I, II, and III are investigated. The results show that in the current regime I close to the laser threshold we obtain a narrower beat note and flat response to the RF modulation at the cavity round trip frequency. The pulling effect and spectral modulation measurements verify that in the current regime I the RF injection locking is more efficient and a robust tool to modulate the mode number and mode frequency of terahertz QCLs.

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supporting

confidence: 71%

Beat note analysis and spectral modulation of terahertz quantum cascade lasers with radio frequency injection

Zhu

Wan

et al. 2017

Chin. Opt. Lett.

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“…Following the success of III-V quantum cascade lasers (QCLs) both at mid-infrared [1] and far-infrared (terahertz) frequencies [2,3], there is considerable interest in the development of silicon-based quantum cascade devices for low cost sources and optoelectronic integration with other circuitry. The indirect bandgap that has hindered interband emitter development in Si, Si 1−x Ge x and Ge does not affect QCLs, as they rely on carrier transitions within the same (conduction or valence) band rather than on exciton recombination across the bandgap.…”

Section: Introductionmentioning

confidence: 99%

Interwell relaxation times inp−Si∕SiGeasymmetric quantum well structures: Role of interface roughness

et al. 2007

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Article:Califano, M., Vinh, N.Q., Phillips, P.J. et al. (10 more We report the direct determination of non-radiative lifetimes in Si/SiGe asymmetric quantum well structures designed to access spatially indirect (diagonal) interwell transitions between heavy-hole ground states, at photon energies below the optical phonon energy. We show both experimentally and theoretically, using a six-band k·p model and a time-domain rate equation scheme, that, for the interface quality currently achievable experimentally (with an average step height ≥ 1Å), interface roughness will dominate all other scattering processes up to about 200 K. By comparing our results obtained for two different structures we deduce that in this regime both barrier and well widths play an important role in the determination of the carrier lifetime. Comparison with recently published experimental and theoretical data obtained for mid-infrared GaAs/AlGaAs multiple quantum well systems leads us to the conclusion that the dominant role of interface roughness scattering at low temperature is a general feature of a wide range of semiconductor heterostructures not limited to IV-IV materials.PACS numbers:

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“…These lasers can operate in the 3-20 µm wavelength range and it turned out to be a straightforward way to use them as SOAs in the ECTL configuration. Spectral characteristics of the gain in QCLs are of the same shape as those for inter-band lasers [83] and typical QCL structures can be used to make the SOAs. In the particular case described in Ref.…”

Section: External Cavity Wavelength Tunable Semiconductor Lasers -A Rmentioning

confidence: 99%

External cavity wavelength tunable semiconductor lasers - a review

Mroziewicz

2008

Opto-Electronics Review

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External cavity tunable lasers have been around for many years and now constitute a large group of semiconductor lasers featuring very unique properties. The present review has been restricted to the systems based on the edge emitting diode lasers set-up in a hybrid configuration. The aim was to make the paper as concise as possible without sacrificing, however, most important details. We start with short description of the fundamentals essential for operation of the external cavity lasers to set the stage for explanation of their properties and some typical designs. Then, semiconductor optical amplifiers used in the external cavity lasers are highlighted more in detail as well as diffraction gratings and other types of wavelength-selective reflectors used to provide optical feedback in these lasers. This is followed by a survey of designs and properties of various external cavity lasers both with mobile bulk gratings and with fixed wavelength selective mirrors. The paper closes with description of some recent developments in the field to show prospects for further progress directed towards miniaturization and integration of the external cavity laser components used so far to set-up hybrid systems.

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Quantum cascade lasers: ultrahigh-speed operation, optical wireless communication, narrow linewidth, and far-infrared emission

Cited by 278 publications

References 76 publications

Beat note analysis and spectral modulation of terahertz quantum cascade lasers with radio frequency injection

Beat note analysis and spectral modulation of terahertz quantum cascade lasers with radio frequency injection

Interwell relaxation times inp−Si∕SiGeasymmetric quantum well structures: Role of interface roughness

External cavity wavelength tunable semiconductor lasers - a review

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