86% internal differential efficiency from 8 to 9 μm-emitting, step-taper active-region quantum cascade lasers

Jeremy D. Kirch; Chun Chieh Chang; Colin Boyle; Luke J. Mawst; Don Lindberg; Tom Earles; Dan Botez

doi:10.1364/OE.24.024483

86% internal differential efficiency from 8 to 9 μm-emitting, step-taper active-region quantum cascade lasers

Jeremy D. Kirch
, Chun Chieh Chang
, Colin Boyle
, Luke J. Mawst
, Don Lindberg
, Tom Earles
, Dan Botez^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

28 Citations (Scopus)

Abstract

8.4 μm-emitting quantum cascade lasers (QCLs) have been designed to have, right from threshold, both carrier-leakage suppression and miniband-like carrier extraction. The slope-efficiency characteristic temperature T₁, the signature of carrier-leakage suppression, is found to be 665 K. Resonant-tunneling carrier extraction from both the lower laser level (ll) and the level below it, coupled with highly effective ll-depopulation provide a very short ll lifetime (∼0.12 ps). As a result the laser-transition differential efficiency reaches 89%, and the internal differential efficiency η_id, derived from a variable mirror-loss study, is found to be 86%, in good agreement with theory. A study of 8.8 μm-emitting QCLs also provides an η_id value of 86%. A corrected equation for the external differential efficiency is derived which leads to a fundamental limit of ∼90% for the η_id values of mid-infrared QCLs. In turn, the fundamental wallplug-efficiency limits become ∼34% higher than previously predicted.

Original language	English
Pages (from-to)	24483-24494
Number of pages	12
Journal	Optics Express
Volume	24
Issue number	21
DOIs	https://doi.org/10.1364/OE.24.024483
Publication status	Published - 2016 Oct 17
Externally published	Yes

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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title = "86\% internal differential efficiency from 8 to 9 μm-emitting, step-taper active-region quantum cascade lasers",

abstract = "8.4 μm-emitting quantum cascade lasers (QCLs) have been designed to have, right from threshold, both carrier-leakage suppression and miniband-like carrier extraction. The slope-efficiency characteristic temperature T1, the signature of carrier-leakage suppression, is found to be 665 K. Resonant-tunneling carrier extraction from both the lower laser level (ll) and the level below it, coupled with highly effective ll-depopulation provide a very short ll lifetime (∼0.12 ps). As a result the laser-transition differential efficiency reaches 89\%, and the internal differential efficiency ηid, derived from a variable mirror-loss study, is found to be 86\%, in good agreement with theory. A study of 8.8 μm-emitting QCLs also provides an ηid value of 86\%. A corrected equation for the external differential efficiency is derived which leads to a fundamental limit of ∼90\% for the ηid values of mid-infrared QCLs. In turn, the fundamental wallplug-efficiency limits become ∼34\% higher than previously predicted.",

author = "Kirch, \{Jeremy D.\} and Chang, \{Chun Chieh\} and Colin Boyle and Mawst, \{Luke J.\} and Don Lindberg and Tom Earles and Dan Botez",

note = "Publisher Copyright: {\textcopyright} 2016 Optical Society of America.",

year = "2016",

month = oct,

day = "17",

doi = "10.1364/OE.24.024483",

language = "English",

volume = "24",

pages = "24483--24494",

journal = "Optics Express",

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T1 - 86% internal differential efficiency from 8 to 9 μm-emitting, step-taper active-region quantum cascade lasers

AU - Kirch, Jeremy D.

AU - Chang, Chun Chieh

AU - Boyle, Colin

AU - Mawst, Luke J.

AU - Lindberg, Don

AU - Earles, Tom

AU - Botez, Dan

PY - 2016/10/17

Y1 - 2016/10/17

N2 - 8.4 μm-emitting quantum cascade lasers (QCLs) have been designed to have, right from threshold, both carrier-leakage suppression and miniband-like carrier extraction. The slope-efficiency characteristic temperature T1, the signature of carrier-leakage suppression, is found to be 665 K. Resonant-tunneling carrier extraction from both the lower laser level (ll) and the level below it, coupled with highly effective ll-depopulation provide a very short ll lifetime (∼0.12 ps). As a result the laser-transition differential efficiency reaches 89%, and the internal differential efficiency ηid, derived from a variable mirror-loss study, is found to be 86%, in good agreement with theory. A study of 8.8 μm-emitting QCLs also provides an ηid value of 86%. A corrected equation for the external differential efficiency is derived which leads to a fundamental limit of ∼90% for the ηid values of mid-infrared QCLs. In turn, the fundamental wallplug-efficiency limits become ∼34% higher than previously predicted.

AB - 8.4 μm-emitting quantum cascade lasers (QCLs) have been designed to have, right from threshold, both carrier-leakage suppression and miniband-like carrier extraction. The slope-efficiency characteristic temperature T1, the signature of carrier-leakage suppression, is found to be 665 K. Resonant-tunneling carrier extraction from both the lower laser level (ll) and the level below it, coupled with highly effective ll-depopulation provide a very short ll lifetime (∼0.12 ps). As a result the laser-transition differential efficiency reaches 89%, and the internal differential efficiency ηid, derived from a variable mirror-loss study, is found to be 86%, in good agreement with theory. A study of 8.8 μm-emitting QCLs also provides an ηid value of 86%. A corrected equation for the external differential efficiency is derived which leads to a fundamental limit of ∼90% for the ηid values of mid-infrared QCLs. In turn, the fundamental wallplug-efficiency limits become ∼34% higher than previously predicted.

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JO - Optics Express

JF - Optics Express

IS - 21

ER -

86% internal differential efficiency from 8 to 9 μm-emitting, step-taper active-region quantum cascade lasers

Abstract

ASJC Scopus subject areas

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