Theses most similar to Experimental study of a high efficiency step-tunable MW gyrotron oscillator (Tax, David S. (David Samuel); 2013) read it
- Advisor: Richard J. Temkin amd Kenneth E. Kreischer
- Department of Electrical Engineering and Computer Science
Measurements of the temporal and spatial phase variations of a 33 GHz pulsed free electron laser amplifier and application to RF acceleration
Volfbeyn, Pavel S (1995)
- Advisor: George Bekefi
- Department of Physics
A continuous-wave second harmonic gyrotron oscillator at 460 GHz
Hornstein, Melissa K. (Melissa Kristen), 1977- (2005)
- Advisor: Richard J. Temkin amd Kenneth E. Kreischer
- Department of Electrical Engineering and Computer Science
Frequency-tunable second-harmonic submillimeter-wave gyrotron oscillators
Sousa, Antonio C. Torrezan de (Antonio Carlos Torrezan de) (2010)
- Advisor: Richard J. Temkin amd Kenneth E. Kreischer
- Department of Electrical Engineering and Computer Science
- Advisor: Richard J. Temkin amd Kenneth E. Kreischer
- Department of Electrical Engineering and Computer Science
Design of a 460 GHz second harmonic gyrotron oscillator for use in dynamic nuclear polarization
Hornstein, Melissa K. (Melissa Kristen), 1977- (2001)
- Advisor: Richard J. Temkin amd Kenneth E. Kreischer
- Department of Electrical Engineering and Computer Science
A novel wideband gyrotron travelling wave amplifier
Sirigiri, Jagadishwar R. (Jagadishwar Rao), 1973- (2003)
- Advisor: Richard J. Temkin amd Kenneth E. Kreischer
- Department of Electrical Engineering and Computer Science
Design and test of a 94 GHz overmoded traveling wave tube amplifier
Kowalski, Elizabeth J. (Elizabeth Joan) (2015)
- Advisor: Richard J. Temkin amd Kenneth E. Kreischer
- Department of Electrical Engineering and Computer Science
High power microwave generation using an active metamaterial powered by an electron beam
Hummelt, Jason Samuel (2016)
- Advisor: Richard J. Temkin amd Kenneth E. Kreischer
- Department of Nuclear Science and Engineering
- Advisor: Richard J. Temkin amd Kenneth E. Kreischer
- Department of Electrical Engineering and Computer Science