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Jackson Anderson

Research Assistant Professor, Department of Electrical and Biomedical Engineering

jackson.anderson@uvm.edu
Jackson Anderson
jackson.anderson@uvm.edu
Alma mater(s)
  • PhD, Electrical and Computer Engineering, Purdue University, 2023
  • MS, Microelectronic Engineering, Rochester Institute of Technology, 2017
  • BS, Microelectronic Engineering, Rochester Institute of Technology, 2015
Affiliated Department(s)

Department of Electrical and Biomedical Engineering

BIO

Jackson Anderson received his BS (‘15) and MS (‘17) in microelectronic engineering from the Rochester Institute of Technology and his PhD (‘23) in electrical and computer engineering from Purdue University. He has interned in the areas of in-line testing, yield analysis, and manufacturing technology (data analytics) at Globalfoundries and IBM Microelectronics. He joined ¶¶Òõ̽̽ in 2023, where he helped establish laboratories for microelectronics teaching and research as part of a Department of Education effort to close the growing workforce gap in the semiconductor industry. His research interests lie in the area of piezo and ferroelectric materials characterization, how these materials can be integrated into electrical and mechanical devices, and how these devices can be integrated into commercial fabrication processes to enable new functionality and increased efficiency in circuits.

Courses

  • Semiconductor Materials and Devices - EE 3440/5440, PHYS 3675/5675
  • IC Fabrication  - EE 3420, PHYS 3165

Area(s) of expertise

Piezo and ferroelectric materials characterization.

Bio

Jackson Anderson received his BS (‘15) and MS (‘17) in microelectronic engineering from the Rochester Institute of Technology and his PhD (‘23) in electrical and computer engineering from Purdue University. He has interned in the areas of in-line testing, yield analysis, and manufacturing technology (data analytics) at Globalfoundries and IBM Microelectronics. He joined ¶¶Òõ̽̽ in 2023, where he helped establish laboratories for microelectronics teaching and research as part of a Department of Education effort to close the growing workforce gap in the semiconductor industry. His research interests lie in the area of piezo and ferroelectric materials characterization, how these materials can be integrated into electrical and mechanical devices, and how these devices can be integrated into commercial fabrication processes to enable new functionality and increased efficiency in circuits.

Courses

  • Semiconductor Materials and Devices - EE 3440/5440, PHYS 3675/5675
  • IC Fabrication  - EE 3420, PHYS 3165

Areas of Expertise

Piezo and ferroelectric materials characterization.