β-Gallium oxide power electronics
Abstract
Gallium Oxide has undergone rapid technological maturation over the last decade, pushing it to the forefront of ultra-wide band gap semiconductor technologies. Maximizing the potential for a new semiconductor system requires a concerted effort by the community to address technical barriers which limit performance. Due to the favorable intrinsic material properties of gallium oxide, namely, critical field strength, widely tunable conductivity, mobility, and melt-based bulk growth, the major targeted application space is power electronics where high performance is expected at low cost. This Roadmap presents the current state-of-the-art and future challenges in 15 different topics identified by a large number of people active within the gallium oxide research community. Addressing these challenges will enhance the state-of-the-art device performance and allow us to design efficient, high-power, commercially scalable microelectronic systems using the newest semiconductor platform.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- Feb 01, 2022
- Source ID
- 10.1063/5.0060327
Entities
People
- Aaron R. Arehart
- Adam T. Neal
- Ahmad E Islam
- Akito Kuramata
- Andrea Arias-Purdue
- Andrew J. Green
- Ankit Sharma
- Avinash Kumar
- Fredrik Allerstam
- Grace Xing
- Hemant Ghadi
- J. D. Blevins
- James S. Speck
- Kelson D. Chabak
- Kevin Leedy
- Kimiyoshi Koshi
- Kohei Sasaki
- Krishnendu Ghosh
- Krister Gumaelius
- Kyle J. Liddy
- Masataka Higashiwaki
- Oliver Bierwagen
- Peter Moens
- Samuel Graham
- Shin Mou
- Shinya Watanabe
- Siddharth Rajan
- Sriram Krishnamoorthy
- Sukwon Choi
- Thomas Neyer
- Uttam Singisetti
- Vivek Mehrotra
- Wenshen Li
- Zhe Cheng
Organizations
- Air Force Office of Scientific Research
- Air Force Research Laboratory
- Cornell University
- Georgia Tech
- National Institute of Information and Communications Technology
- Novel Crystal Technology, Inc.
- ON Semiconductor
- Ohio State University
- Pennsylvania State University
- Teledyne Technologies
- University at Buffalo
- University of California
- University of Illinois Urbana–Champaign