A 'Relativistic Mirror' Experiment with Frequency Tuning and Energy Gain.
Abstract
The front of an intense relativistic electron beam has been used to reflect a counterstreaming electromagnetic wave (fi sub i = 9.3 GHz, Pi sub i = 250 kW). A doubly-Doppler-shifted reflected wave with a pulse duration on the order of a nanosecond has been produced with a six-fold increase in frequency, a 13-dB power gain, and a doubling of wave energy. The output has been analyzed with a multi-channel grating spectrometer and found to have a spectral width Delta lambda/lamda of approx. 5%. The reflected-wave frequency was tunable over a range of approx. + or - 20% by simply varying the external magnetic field, and over a much broader range by simultaneously changing the beam rise time. All these observations are in good agreement with a simple theoretical model of beam-front scattering. This mechanism represents a new kind of short-pulse, high-power, tunable source of millimeter (and probably submillimeter) wavelength radiation, and it could be immediately useful as an electron beam velocity diagnostic. (Author)
Document Details
- Document Type
- Technical Report
- Publication Date
- Sep 01, 1977
- Accession Number
- ADA046795
Entities
People
- John Pasour
- R. K. Parker
- Victor L. Granatstein
Organizations
- United States Naval Research Laboratory