G. Glastre scite author profile

The room-temperature (300 K), pulsed mode operation of a GaAs-based quantum-cascade laser is presented. This has been achieved by the use of a GaAs/Al0.45Ga0.55As heterostructure which offers the maximum Γ–Γ band offset (390 meV) for this material system without inducing the presence of indirect barrier states. Thus, better electron confinement is achieved, countering the loss of injection efficiency with temperature. These devices show ∼100 K increase in operating temperature with respect to equivalent designs using an GaAs/Al0.33Ga0.67As heterostructure. We also measure 600 mW peak power at 233 K a temperature readily accessible by Peltier coolers.

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AlAs/GaAs quantum cascade lasers based on large direct conduction band discontinuity

Becker¹,

Sirtori²,

Page³

et al. 2000

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The design and operation of quantum cascade (QC) lasers using AlAs/GaAs coupled quantum wells are reported. In this material system, the conduction band offset at the Γ point (∼1 eV) is much higher than in previously reported QC lasers. The use of high band discontinuity allows us to increase the energy separation among the subbands, thus suppressing thermally activated processes which limit device performance at high temperature. The measured thermal characteristics of these promising devices are strongly improved from previously reported GaAs-based QC lasers: The temperature dependence of the threshold current density is described by a very large T0 (320 K) and the laser slope efficiency does not vary for increasing heat sink temperatures. The maximum operating temperature is 230 K, limited by negative differential resistance effects that occur when the applied bias reaches 8 V.

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Room temperature InAsSb photovoltaic midinfrared detector

Rakovska¹,

Berger²,

Marcadet³

et al. 2000

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A versatile detector for total fluorescence and electron yield experiments Rev. Sci. Instrum. 83, 093109 (2012) Sine gating detector with simple filtering for low-noise infra-red single photon detection at room temperature J. Appl. Phys. 112, 063106 (2012) Near-infrared photodetector consisting of J-aggregating cyanine dye and metal oxide thin films APL: Org. Electron. Photonics 5, 209 (2012) Near-infrared photodetector consisting of J-aggregating cyanine dye and metal oxide thin films

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High temperature GaInSbAs/GaAlSbAs quantum wellsinglemode continuous wave lasers emitting near 2.3 µm

Yarekha

Glastre²,

Pérona

et al. 2000

Electron. Lett.

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Thermal resistance and temperature characteristics of GaAs/Al0.33Ga0.67As quantum-cascade lasers

Spagnolo

Troccoli

Scamarcio

et al. 2001

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We report on the determination of thermal resistance, facet temperature profile, and heat flux of GaAs/Al0.33Ga0.67As quantum-cascade lasers operating in pulsed mode, using a microprobe band-to-band photoluminescence technique. The thermal resistance of epilayer-side mounted lasers is ∼30% smaller than that of substrate-side mounted ones. The dependence of the thermal resistance on the injection conditions and its correlation with the output power is also reported.

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G. Glastre

300 K operation of a GaAs-based quantum-cascade laser at λ≈9 μm

AlAs/GaAs quantum cascade lasers based on large direct conduction band discontinuity

Room temperature InAsSb photovoltaic midinfrared detector

High temperature GaInSbAs/GaAlSbAs quantum wellsinglemode continuous wave lasers emitting near 2.3 µm

Thermal resistance and temperature characteristics of GaAs/Al0.33Ga0.67As quantum-cascade lasers

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