Watt-Level Continuous-Wave Emission from a Bifunctional Quantum Cascade Laser/Detector

Schwarz, Benedikt; Wang, Christine A.; Missaggia, L.J.; Mansuripur, Tobias S.; Chevalier, Paul; Connors, M.K.; McNulty, Daniel; Cederberg, Jeffrey G.; Strasser, G.; Capasso, Federico

doi:10.1021/acsphotonics.7b00133

Cited by 63 publications

(40 citation statements)

References 48 publications

(83 reference statements)

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“…One can specially redesign the structure to perform both functions relatively well, but this dual functionality does not come without compromises. Specially designed QCLs and QCDs residing on the same native InP chip were first demonstrated to operate at λ ≈ 6.5 µm [221], later used to detect ethanol occupying a gap between the laser and detector [222], and subsequently optimized to produce up to 1 W of cw emission from the laser at 15 • C [223]. Hitaki et al avoided the wavelength mismatch issue by growing a separate QCD on top of the QCL, so that the design of each could be optimized independently [224].…”

Section: Photonic Integrated Circuits Incorporating Icls and Icdsmentioning

confidence: 99%

The Interband Cascade Laser

et al. 2020

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We review the history, development, design principles, experimental operating characteristics, and specialized architectures of interband cascade lasers for the mid-wave infrared spectral region. We discuss the present understanding of the mechanisms limiting the ICL performance and provide a perspective on the potential for future improvements. Such device properties as the threshold current and power densities, continuous-wave output power, and wall-plug efficiency are compared with those of the quantum cascade laser. Newer device classes such as ICL frequency combs, interband cascade vertical-cavity surface-emitting lasers, interband cascade LEDs, interband cascade detectors, and integrated ICLs are reviewed for the first time.

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Section: Photonic Integrated Circuits Incorporating Icls and Icdsmentioning

confidence: 99%

The Interband Cascade Laser

et al. 2020

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“…It is particularly known that smooth interfaces lead to some deviation of the quantum cascade laser spectrum with respect to the originally designed structure. 17 To model this effect in the case of II-VI semiconductor NPLs, we replace the abrupt profile by the following profile:…”

Section: Effect Of Non-sharp Interfacesmentioning

confidence: 99%

“…11 However, far less work has been focused on the investigation of their electronic structure 12,13 and, in particular, once heterostructures are grown. 14 This results from the lack of band structure parameters for II-VI semiconductor compounds that prevents advanced modelisation of those materials as it has been conducted for devices based on heterostructures of III-V materials (quantum well infrared photodetectors, 15,16 quantum cascade lasers, 17 and detectors 18 ).…”

Section: Introductionmentioning

confidence: 99%

Electronic structure robustness and design rules for 2D colloidal heterostructures

Chu

Livache

Ithurria

et al. 2018

Journal of Applied Physics

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Among the colloidal quantum dots, 2D nanoplatelets present exceptionally narrow optical features. Rationalizing the design of heterostructures of these objects is of utmost interest; however, very little work has been focused on the investigation of their electronic properties. This work is organized into two main parts. In the first part, we use 1D solving of the Schrödinger equation to extract the effective masses for nanoplatelets (NPLs) of CdSe, CdS, and CdTe and the valence band offset for NPL core/shell of CdSe/CdS. In the second part, using the determined parameters, we quantize how the spectra of the CdSe/CdS heterostructure get affected by (i) the application of an electric field and (ii) by the presence of a dull interface. We also propose design strategies to make the heterostructure even more robust.

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“…At zero bias, most electrons populate the extraction sub-band, so the QCD’s absorption peak occurs closer to ħω + ħω o than to the lasing energy ħω . Nonetheless, specially designed QCLs residing on the same native InP chip [ 8 ] with QCDs have produced up to 1 W of cw emission at 15 °C [ 34 ].…”

Section: Building Blocks: the Laser Detector And Passive Waveguimentioning

confidence: 99%

Interband Cascade Photonic Integrated Circuits on Native III-V Chip

Meyer

Kim

et al. 2021

Sensors

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We describe how a midwave infrared photonic integrated circuit (PIC) that combines lasers, detectors, passive waveguides, and other optical elements may be constructed on the native GaSb substrate of an interband cascade laser (ICL) structure. The active and passive building blocks may be used, for example, to fabricate an on-chip chemical detection system with a passive sensing waveguide that evanescently couples to an ambient sample gas. A variety of highly compact architectures are described, some of which incorporate both the sensing waveguide and detector into a laser cavity defined by two high-reflectivity cleaved facets. We also describe an edge-emitting laser configuration that optimizes stability by minimizing parasitic feedback from external optical elements, and which can potentially operate with lower drive power than any mid-IR laser now available. While ICL-based PICs processed on GaSb serve to illustrate the various configurations, many of the proposed concepts apply equally to quantum-cascade-laser (QCL)-based PICs processed on InP, and PICs that integrate III-V lasers and detectors on silicon. With mature processing, it should become possible to mass-produce hundreds of individual PICs on the same chip which, when singulated, will realize chemical sensing by an extremely compact and inexpensive package.

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Watt-Level Continuous-Wave Emission from a Bifunctional Quantum Cascade Laser/Detector

Cited by 63 publications

References 48 publications

The Interband Cascade Laser

The Interband Cascade Laser

Electronic structure robustness and design rules for 2D colloidal heterostructures

Interband Cascade Photonic Integrated Circuits on Native III-V Chip

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