08/21/2019 10:00 AM - 12:15 PM Sandpiper C/D

WB2 - Displays, Holography and Projection

Time
10:00 AM - 12:15 PM
AOP - Applications of Photonics
  • A. Marshall (GB) Lancaster University

WB2.5 - Resonant cavity enhanced infrared detectors and emitters

Presentation Type
Invited Submission
Authors
  • A. Marshall (GB) Lancaster University
Date
08/21/2019
Time
10:00 AM - 12:15 PM
Room
Sandpiper C/D
Duration
30 Minutes
Lecture Time
10:00 AM - 10:30 AM
OEDDIP - Optical Emitter/Detector Devices and Integrated Photonics
  • J. Meyer (US) Naval Research Laboratory

WB2.1 - INTERBAND CASCADE LEDS FOR INFRARED SCENE PROJECTION

Presentation Type
Invited Submission
Authors
  • J. Meyer (US) Naval Research Laboratory
  • C. Kim (US) Naval Research Laboratory
  • M. Kim (US) KeyW
  • C. Canedy (US) Naval Research Laboratory
  • C. Merritt (US) Naval Research Laboratory
  • W. Bewley (US) Naval Research Laboratory
  • M. Warren (US) Naval Research Laboratory
  • S. Tomasulo (US) Naval Research Laboratory
  • J. Weiblen (US) Naval Research Laboratory
  • I. Vurgaftman (US) Naval Research Laboratory
Date
08/21/2019
Time
10:00 AM - 12:15 PM
Room
Sandpiper C/D
Duration
30 Minutes
Lecture Time
10:30 AM - 11:00 AM

Abstract

Abstract

Midwave infrared interband cascade light-emitting devices (ICLEDs) with split active stages positioned at antinodes of the optical electric field are shown to generate up to 2.9 mW of output power for CW operation at 25 ÂșC.

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AOP - Applications of Photonics
  • H. Ahmed (US) University of Delaware

WB2.2 - FABRICATION, EVALUATION, AND IMPROVEMENTS OF 1KX1K AND 2KX2K INFRARED LED SCENE PROJECTOR SYSTEMS

Presentation Type
Invited Submission
Authors
  • H. Ahmed (US) University of Delaware
  • R. McGee (US) University of Delaware
  • J. Marks (US) University of Delaware
  • A. Waite (US) University of Delaware
  • A. Landwehr (US) University of Delaware
  • C. Jackson (US) University of Delaware, ECE
  • G. Ejzak (US) University of Delaware
  • T. Browning (US) University of Delaware
  • P. Barakhshan (US) 139 the Green
  • M. Hernandez (US) University of Delaware
  • A. Deputy (US) University of Delaware
  • T. Lassiter (US) University of Delaware
  • C. Campbell (US) university of Delaware
  • F. Kiamilev (US) university of Delaware
  • J. Prineas (US) University of Iowa
  • E. Koerperick (US) Firefly Photonics LLC
Date
08/21/2019
Time
10:00 AM - 12:15 PM
Room
Sandpiper C/D
Duration
30 Minutes
Lecture Time
11:00 AM - 11:30 AM

Abstract

Abstract

Infrared LED Scene Projector (IRSP) system is an emerging technology that has made numerous progress in its development and testing. That progress ranges from fabrication and evaluation steps to improve the electronics as well as improvements to the 1Kx1K and 2Kx2K hybrid arrays.

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AOP - Applications of Photonics
  • J. Prineas (US) University of Iowa

WB2.3 - MID-INFRARED SLEDS: IMPROVEMENTS FROM NEW SUPERLATTICES, METALENS, AND PLASMONICS

Presentation Type
Invited Submission
Authors
  • J. Prineas (US) University of Iowa
Date
08/21/2019
Time
10:00 AM - 12:15 PM
Room
Sandpiper C/D
Duration
30 Minutes
Lecture Time
11:30 AM - 12:00 PM

Abstract

Abstract

Mid-infrared, cascaded superlattice light emitting diodes (SLEDs) previously achieved radiance of 9 W/cm2/sr. Here we present an overview of work to take performance to the next level: new superlattices and plasmonics to improve quantum efficiency, as well as metalenses for improving light extraction.
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AOP - Applications of Photonics
  • P. Barakhshan (US) 139 the Green

WB2.4 - EVALUATION OF PERFORMANCE, NON-UNIFORMITY AND THERMAL LIMITS FOR INFRARED LED SCENE PROJECTORS

Presentation Type
Contributed Submission
Authors
  • P. Barakhshan (US) 139 the Green
  • C. Campbell (US) University of Delaware
  • M. Hernandez (US) University of Delaware
  • F. Kiamilev (US) University of Delaware
Date
08/21/2019
Time
10:00 AM - 12:15 PM
Room
Sandpiper C/D
Duration
15 Minutes
Lecture Time
12:00 PM - 12:15 PM

Abstract

Abstract

As the light emitting diodes Infrared Scene Projectors are evolving, the need to evaluate the performance and non-uniformity is at it is all times highest. This paper will describe how the performance of these systems are measured and how the non-uniformity is measured and corrected.

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