Size-Dependent Bandwidth of Semipolar (112̄2) Light-Emitting-Diodes

M. Haemmer; B. Roycroft; M. Akhter; D. V. Dinh; Z. Quan; J. Zhao; P. J. Parbrook; B. Corbett

doi:10.1109/LPT.2018.2794444

Size-Dependent Bandwidth of Semipolar (112̄2) Light-Emitting-Diodes

M. Haemmer
, B. Roycroft
, M. Akhter
, D. V. Dinh
, Z. Quan
, J. Zhao
, P. J. Parbrook
, B. Corbett

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

Abstract

The limited modulation bandwidth of commercial light-emitting diodes (LEDs) is one of the critical bottlenecks for visible light communications. Possible approaches to increase the bandwidth include the use of micron sized LEDs, which can withstand higher current densities, as well as the use of LED structures that are grown on different crystal planes to the conventional polar c-plane. We compare c-plane InGaN/GaN LEDs with semipolar (112̄2) LEDs containing a 4- and 8-nm single quantum well. The modulation bandwidth of semipolar LEDs with active areas varying from 200 × 200 to 30 × 30 μm² is shown to be governed by both current density and size. A small signal bandwidth of over 800 MHz for a relatively low applied current density of 385 A/cm² is reported for 30 × 30 μm² LEDs with 8-nm thick quantum well. An optical link using an easy non-return-to-zero ON-OFF keying modulation scheme with a data rate of 1.5 Gb/s is demonstrated.

Original language	English
Pages (from-to)	439-442
Number of pages	4
Journal	IEEE Photonics Technology Letters
Volume	30
Issue number	5
DOIs	https://doi.org/10.1109/LPT.2018.2794444
Publication status	Published - 1 Mar 2018

Keywords

modulation bandwidth
semipolar GaN
visible LED
Visible light communications

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10.1109/LPT.2018.2794444

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title = "Size-Dependent Bandwidth of Semipolar (11{\=2}2) Light-Emitting-Diodes",

abstract = "The limited modulation bandwidth of commercial light-emitting diodes (LEDs) is one of the critical bottlenecks for visible light communications. Possible approaches to increase the bandwidth include the use of micron sized LEDs, which can withstand higher current densities, as well as the use of LED structures that are grown on different crystal planes to the conventional polar c-plane. We compare c-plane InGaN/GaN LEDs with semipolar (11{\=2}2) LEDs containing a 4- and 8-nm single quantum well. The modulation bandwidth of semipolar LEDs with active areas varying from 200 × 200 to 30 × 30 μm2 is shown to be governed by both current density and size. A small signal bandwidth of over 800 MHz for a relatively low applied current density of 385 A/cm2 is reported for 30 × 30 μm2 LEDs with 8-nm thick quantum well. An optical link using an easy non-return-to-zero ON-OFF keying modulation scheme with a data rate of 1.5 Gb/s is demonstrated.",

keywords = "modulation bandwidth, semipolar GaN, visible LED, Visible light communications",

author = "M. Haemmer and B. Roycroft and M. Akhter and Dinh, \{D. V.\} and Z. Quan and J. Zhao and Parbrook, \{P. J.\} and B. Corbett",

note = "Publisher Copyright: {\textcopyright} 2018 IEEE.",

year = "2018",

month = mar,

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doi = "10.1109/LPT.2018.2794444",

language = "English",

volume = "30",

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T1 - Size-Dependent Bandwidth of Semipolar (112̄2) Light-Emitting-Diodes

AU - Haemmer, M.

AU - Roycroft, B.

AU - Akhter, M.

AU - Dinh, D. V.

AU - Quan, Z.

AU - Zhao, J.

AU - Parbrook, P. J.

AU - Corbett, B.

PY - 2018/3/1

Y1 - 2018/3/1

N2 - The limited modulation bandwidth of commercial light-emitting diodes (LEDs) is one of the critical bottlenecks for visible light communications. Possible approaches to increase the bandwidth include the use of micron sized LEDs, which can withstand higher current densities, as well as the use of LED structures that are grown on different crystal planes to the conventional polar c-plane. We compare c-plane InGaN/GaN LEDs with semipolar (112̄2) LEDs containing a 4- and 8-nm single quantum well. The modulation bandwidth of semipolar LEDs with active areas varying from 200 × 200 to 30 × 30 μm2 is shown to be governed by both current density and size. A small signal bandwidth of over 800 MHz for a relatively low applied current density of 385 A/cm2 is reported for 30 × 30 μm2 LEDs with 8-nm thick quantum well. An optical link using an easy non-return-to-zero ON-OFF keying modulation scheme with a data rate of 1.5 Gb/s is demonstrated.

AB - The limited modulation bandwidth of commercial light-emitting diodes (LEDs) is one of the critical bottlenecks for visible light communications. Possible approaches to increase the bandwidth include the use of micron sized LEDs, which can withstand higher current densities, as well as the use of LED structures that are grown on different crystal planes to the conventional polar c-plane. We compare c-plane InGaN/GaN LEDs with semipolar (112̄2) LEDs containing a 4- and 8-nm single quantum well. The modulation bandwidth of semipolar LEDs with active areas varying from 200 × 200 to 30 × 30 μm2 is shown to be governed by both current density and size. A small signal bandwidth of over 800 MHz for a relatively low applied current density of 385 A/cm2 is reported for 30 × 30 μm2 LEDs with 8-nm thick quantum well. An optical link using an easy non-return-to-zero ON-OFF keying modulation scheme with a data rate of 1.5 Gb/s is demonstrated.

KW - modulation bandwidth

KW - semipolar GaN

KW - visible LED

KW - Visible light communications

UR - https://www.scopus.com/pages/publications/85041398893

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DO - 10.1109/LPT.2018.2794444

M3 - Article

AN - SCOPUS:85041398893

SN - 1041-1135

VL - 30

SP - 439

EP - 442

JO - IEEE Photonics Technology Letters

JF - IEEE Photonics Technology Letters

IS - 5

ER -

Size-Dependent Bandwidth of Semipolar (112̄2) Light-Emitting-Diodes

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Keywords

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