Compact, High-Power Electron Beam Based Terahertz Sources

Compact, High-Power Electron Beam Based Terahertz Sources

Although terahertz (THz) radiation was first observed about 100 years ago, this portion of the electromagnetic spectrum at the boundary between the microwaves and the infrared has been, for a long time, rather poorly explored. This situation changed with the rapid development of coherent THz sources...

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Veröffentlicht in:Proceedings of the IEEE 2007-08, Vol.95 (8), p.1666-1678
Hauptverfasser: Biedron, Sandra G., Doria, Andrea, Giovenale, Emilio, Messina, Giovanni, Spassovsky, Ivan Panov, Lewellen, John W., Milton, Stephen Val, Gopalsami, Nachappa, Schneider, John F., Skubal, Laura, Li, Yuelin, Virgo, Mathew, Gallerano, Gian Piero
Format: Artikel
Sprache:eng
Schlagworte:
BEAM BUNCHING
Beams (radiation)
Biomedical optical imaging
Boundaries
Bunching
Coherence
COHERENT RADIATION
DESIGN
Devices
Electromagnetic radiation
Electromagnetic spectrum
electron beam
ELECTRON BEAMS
free-electron laser
Infrared
Infrared spectra
intense particle beams
Microwave devices
Microwave oscillators
Microwaves
Optical devices
Oscillators
PARTICLE ACCELERATORS
PHOTON BEAMS
Quantum cascade lasers
radiation sources
Solid state circuits
terahertz
THZ RANGE
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Beschreibung
Zusammenfassung:Although terahertz (THz) radiation was first observed about 100 years ago, this portion of the electromagnetic spectrum at the boundary between the microwaves and the infrared has been, for a long time, rather poorly explored. This situation changed with the rapid development of coherent THz sources such as solid-state oscillators, quantum cascade lasers, optically pumped solid-state devices, and novel coherent radiator devices. These in turn have stimulated a wide variety of applications from material science to telecommunications, from biology to biomedicine. Recently, there have been two related compact coherent radiation devices invented able to produce up to megawatts of peak THz power by inducing a ballistic bunching effect on the electron beam, forcing the beam to radiate coherently. An introduction to the two systems and the corresponding output photon beam characteristics will be provided.
ISSN:0018-9219
1558-2256
DOI:10.1109/JPROC.2007.898858