2019
DOI: 10.1063/1.5090840
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Electroluminescence enhancement in mid-infrared InAsSb resonant cavity light emitting diodes for CO2 detection

Abstract: In this work we demonstrated a mid-infrared resonant cavity light emitting diode (RCLED) operating near 4.2 μm at room temperature, grown lattice-matched on a GaSb substrate by molecular beam epitaxy, suitable for CO2 gas detection. The device consists of a 1 -thick micro-cavity containing an InAs0.90Sb0.1 active region sandwiched between two high contrast, lattice-matched AlAs0.08Sb0.92/GaSb distributed Bragg reflector (DBR) mirrors. The electroluminescence emission spectra of the RCLED were measured over the… Show more

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Cited by 6 publications
(9 citation statements)
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“…7(b) levels off above 260 K due to broadening of the QWs emission. Our results also show a greater intensity enhancement factor compared to previous work [28,34,35].…”
Section: Temperature Dependence Of the Emissionsupporting
confidence: 65%
See 3 more Smart Citations
“…7(b) levels off above 260 K due to broadening of the QWs emission. Our results also show a greater intensity enhancement factor compared to previous work [28,34,35].…”
Section: Temperature Dependence Of the Emissionsupporting
confidence: 65%
“…At room temperature, the results exhibited a single-lobe emission profile with a half power solid angle of 45 o as illustrated in Fig. 5, showing a better directionality compared with that of our previous work [35].…”
Section: Microcavity Enhancement Of Mid-infrared Electroluminescencementioning
confidence: 49%
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“…This has the effect of enhancing the emission rate due to a higher optical field at the antinodes of the cavity, while improving the directionality of the output and narrowing the emission spectrum. U. Lancaster recently applied this architecture to non-cascaded mid-IR LEDs with InAsSb alloy active regions [193].…”
Section: Interband Cascade Ledsmentioning
confidence: 99%