Abstract
Terahertz (THz) radiation based technological solutions have applications in many areas including information and communication technology, biology, medical sciences, non-destructive detection and security. With the development of accelerator technologies around the world, there has been a growing interest in the generation of THz radiation driven by a linear accelerator (LINAC). The crucial part in the generation of the tunable THz radiation is the production of microbunched electron beams with picosecond (ps) and sub-ps periodicity. A long electron beam propagating through a plasma channel can be modulated and divided into a train of microbunches, with the periodicity defined by the plasma frequency. We proposed a method of microbunched beam conditioning to allow Smith-Purcell THz radiation generation. The great advantage of the beam plasma modulation is its simplicity, as the microbunch periodicity can be tuned by changing the gas pressure in a plasma capillary and thus the plasma density and plasma frequency. We show that this approach has the potential to generate coherent and tunable THz radiation.
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