Terahertz intersubband emission in strong magnetic fields

Blaser, Stéphane; Rochat, Michel; Beck, Mattias; Hofstetter, Daniel; Faist, Jérôme

doi:10.1063/1.1490629

Cited by 26 publications

(15 citation statements)

References 16 publications

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“…Electroluminescence of In 0.52 Al 0.48 As-In 0.53 Ga 0.47 As/ InP structures in the THz has already been demonstrated in structures with a vertical transition in a single quantum well, 11,12 as well as in a chirped superlattice structure. Electroluminescence of In 0.52 Al 0.48 As-In 0.53 Ga 0.47 As/ InP structures in the THz has already been demonstrated in structures with a vertical transition in a single quantum well, 11,12 as well as in a chirped superlattice structure.…”

Section: Ingaas-alinas/ Inp Terahertz Quantum Cascade Lasermentioning

confidence: 95%

In Ga As – Al In As ∕ In P terahertz quantum cascade laser

Ajili

Scalari

Hoyler

et al. 2005

Applied Physics Letters

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Section: Ingaas-alinas/ Inp Terahertz Quantum Cascade Lasermentioning

confidence: 95%

In Ga As – Al In As ∕ In P terahertz quantum cascade laser

Ajili

Scalari

Hoyler

et al. 2005

Applied Physics Letters

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“…In contrast, when the Landau level ladders are off resonance, the scattering rate will be minimized. Such modulation of lifetimes by these resonances has been demonstrated experimentally in electroluminescence measurements in ISB THz emitters [62,63] and lasers [64,65]. Our design for exploiting the magnetically assisted gain is kept very simple: the active region is constituted by a wide quantum well and the optical transition (intra-well) takes place between the second |3 and first |2 excited states.…”

Section: Active Region Designmentioning

confidence: 99%

“…The second main effect of the magnetic confinement is on the intra-subband dephasing. This dephasing, which contributes substantially to the linewidth profile, is also efficiently quenched by the magnetic field: electroluminescence measurements in magnetic field [63,68] report a strong narrowing of the THz emission with increasing field. The electron localization induced by the magnetic field and the disorder at the interfaces reduces the intra-Landau level scattering rate.…”

Section: Ultra-low Threshold Current Operationmentioning

confidence: 99%

THz and sub‐THz quantum cascade lasers

Scalari¹,

Walther

Fischer

et al. 2009

Laser & Photonics Reviews

255

142

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In this paper we review recent progress in obtaining laser action from semiconductor quantum cascade structures covering the low THz region of the electromagnetic spectrum, from 2 THz (λ 155 μm) down to the sub-THz region (λ > 300 μm). Particularly, laser active region designs based on bound-to-continuum transition and magnetically assisted intra-well transition are presented. The wide scalability of active region designs is discussed and illustrated with experimental data. Latest results including the demonstration of laser action from quantum heterostructure at 950 GHz are presented.THz quantum cascade lasers are based on semiconductor heterostructures and cover a wide spectral window which now extends below 1 THz.

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“…In a system in which all particles have equal spins, the Coulomb and exchange interactions compensate each other in the matrix element because of the interference and the rate of scattering is close to zero. Such a situation is realized when a magnetic field is applied to a heterostructure, which makes it possible to sharply increase the quantum yield of luminescence [8].…”

Section: Introductionmentioning

confidence: 99%

Rate of intersubband transitions of charge carriers in semiconductor quantum wells as a result of their Coulomb interaction

Drozd

Афоненко

2005

J Appl Spectrosc

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621.315.592The intersubband scattering of charge carriers in semiconductor quantum wells as a result of their Coulomb interaction has been theoretically investigated. Analytical expressions for the rate of intersubband transitions in the process of electron-electron and electron-hole collisions have been derived in the Born approximation. The theoretical and experimental data on the photoluminescence decay time, obtained for the case of a nondegenerate distribution of charge carriers, were in qualitative agreement.Introduction. The active region of the now quantum-cascade lasers operating in the medium infrared spectral range [1] consists of narrow quantum wells, where the energy gap between the upper and lower laser states is larger than the energy of longitudinal optical photons. Among the processes of intersubband scattering of charge carriers, the emission of optical photons (which have been much studied by now) is dominant. To broaden the radiation wavelength range of quantum-cascade lasers toward the far-infrared region, it is necessary to use broad quantum wells with a transition energy lower than the energy of an optical photon. Under these conditions as well as in the case of high concentrations of charge carriers, the carrier-carrier (c-c) scattering is of great importance [2][3][4][5].In the present work, we investigated the carrier-carrier scattering in a semiconductor quantum well and analyzed the dependence of the rate of intersubband scattering of charge carriers on the parameters of this well.Calculation of the Carrier-Carrier Scattering Rate. We considered charge particles, whose movement along the z axis is limited by an infinitely deep quantum well of width d. Let a particle α with a two-dimensional wave vector k 1 be in the energy subband i and a particle β with wave vector k 2 be in the subband j (α, β    e, h    ). As a result of the Coulomb interaction, the particle α is scattered to the subband f with a wave vector k 1 ′ and the particle β is scattered to the subband m with a wave vector k 2 ′ . This transition will be denoted by ijfm. In this case, on con-

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Terahertz intersubband emission in strong magnetic fields

Cited by 26 publications

References 16 publications

In Ga As – Al In As ∕ In P terahertz quantum cascade laser

In Ga As – Al In As ∕ In P terahertz quantum cascade laser

THz and sub‐THz quantum cascade lasers

Rate of intersubband transitions of charge carriers in semiconductor quantum wells as a result of their Coulomb interaction

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