Associate Professor
Electrical Engineering Department
Biomedical Engineering Interdepartmental Program
University of California, Los Angeles

Biography: short, medium, long and personal

Full Curriculum Vitae.

Biosketch in NSF format for MEMS and NE.

Biosketch in NIH format.

• B.E.E. University of Minnesota, Minneapolis, Electrical Engineering, December, 1989 (summa cum laude)
• M.S. University of California, Berkeley, Electrical Engineering, December, 1994
• Ph.D. University of California, Berkeley, Electrical Engineering, December, 1996

• Electrical Engineering Department
  • Micro and Nano Engineering Research Laboratory, Principal Investigator
  • MEMS / Nano Major Field, Chair
  • Nanoelectronics Research Facility (NRF or Nanolab), Director
  • Instructional Microfabrication Laboratory (Microlab), Director
• Biomedical Engineering Interdepartmental Program
  • Neuroengineering Technologies and Applications Laboratory (NETA Lab), Principal Investigator
  • Neuroengineering Major Field, Chair
  • Neuroengineering Training Program, Director
• California Nanosystems Institute
  • Nanomechanics, Thrust Area Leader

The research interests of Prof. Judy and the students in his research laboratories can be summarized as the following: The development and use of state-of-the-art engineering techniques and technologies to address a wide range of important unsolved problems and unanswered questions. In practice, the research guided by Prof. Judy falls primarily into two categories: miniaturization technologies and applications (both at the microscale and the nanoscale) and neuroengineering technologies and applications.

• EE 3: Introduction to Eletrical Engineering (W07, W08, W09)
• EE CM150, MAE CM180, BME CM150: Introduction to Micromachining and MEMS
  • Undergraduates: F03, F04, F05, F06, F07
  • Graduate Students: F07
• EE CM150L, MAE CM180L, BME CM150L: Introduction to Micromachining and MEMS Laboratory
  • Undergraduates: F03, F04, F05, F06, F07
  • Graduate Students: F07

• EE CM150/CM250A, MAE CM180/CM280A, BME CM150/CM250A: Introduction to Micromachining and MEMS
• EE CM250A / MAE CM280A / BME CM250A: Introduction to Micromachining and MEMS (Graduate Students)
• EE CM150L / MAE CM180L / BME CM150L: Introduction to Micromachining and MEMS Laboratory (Undergraduate Students)
• EE CM250L / MAE CM280L / BME CM250L: Introduction to Micromachining and MEMS Laboratory (Graduate Students)
• EE M250 / MAE M280 / BME M250: Micromachining and MEMS
• EE M252 / MAE M282 / BME M252: MEMS Design
• EE 289.1: Introduction to Magnetism and Magnetic Materials
• BME 19: Neuroengineering: The Technology that Could Enable “The Matrix” (fiat lux: a special 1-credit freshman seminar limited to 20 students)
• BME M260: Neuroengineering
• BME M261A-C: Introduction to Current Literature in Neuroscience

• You can find a complete list of publications here.

• Undergraduate Education
• Graduate Education
• Working in Industry
• Working in Academia

• Can I joinr your research laboratory?
• Can you serve on my Master’s Thesis Committee?
• Can you serve on my Qualifying Exam Committee?
• Can you write a letter of recommendation for me?
• How to write a good technical paper or thesis