Designing Plasmonic Hot Carrier Devices for Uncooled Infrared Photodetection

Gregory T. Forcherio; Timothy A. Morgan; Scott G. Criswell; Dmitry A. Kozak; Jason Valentine; Joshua D. Caldwell; Benjamin R. Conley; IEEE

doi:10.1109/rapid49481.2020.9195667

Conference proceeding

Designing Plasmonic Hot Carrier Devices for Uncooled Infrared Photodetection

Gregory T. Forcherio, Timothy A. Morgan, Scott G. Criswell, Dmitry A. Kozak, Jason Valentine, Joshua D. Caldwell, Benjamin R. Conley and IEEE

2020 IEEE RESEARCH AND APPLICATIONS OF PHOTONICS IN DEFENSE CONFERENCE (RAPID), pp.1-2

01/01/2020

DOI: https://doi.org/10.1109/rapid49481.2020.9195667

Abstract

Engineering

Engineering, Electrical & Electronic

Optics

Physical Sciences

Physics

Physics, Applied

Science & Technology

Technology

Surface plasmon resonance transduces photons into energetically "hot" electrons, which provides new Schottky-based platforms for infrared photodetectors without need for cooling infrastructure. Material design principles towards a multiphysics computation tool are presented where performance is governed by plasmonic activity, density-of-states, and the Schottky barrier.

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Title: Designing Plasmonic Hot Carrier Devices for Uncooled Infrared Photodetection
Creators - without role: Gregory T. Forcherio - Naval Surface Warfare Center
Timothy A. Morgan - Naval Surface Warfare Center
Scott G. Criswell - Vanderbilt University
Dmitry A. Kozak - United States Naval Research Laboratory
Jason Valentine - Vanderbilt University
Joshua D. Caldwell - Vanderbilt University
Benjamin R. Conley - Naval Surface Warfare Center
IEEE
Publication Details: 2020 IEEE RESEARCH AND APPLICATIONS OF PHOTONICS IN DEFENSE CONFERENCE (RAPID), pp.1-2
Publisher: IEEE
Number of pages: 2
Grant note: National Defense Education program Office of Naval Research, Naval Innovative Science &Engineering program
Identifiers: 991044495277603276
Academic Unit: School of Engineering; Mechanical Engineering; Electrical and Computer Engineering; Interdisciplinary Program in Materials Science; Chemistry
Language: English
Resource Type: Conference proceeding

Designing Plasmonic Hot Carrier Devices for Uncooled Infrared Photodetection

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