The fabrication of millimeter-wavelength accelerating structures | Zendy

P. J. Chou | Zendy; Gordon Bowden | Zendy; M.R. Copeland | Zendy; A. Farvid | Zendy; Robert E. Kirby | Zendy; A. Menegat | Zendy; C. Pearson | Zendy; L. Shere | Zendy; R. Siemann | Zendy; J.E. Spencer | Zendy; D.H. Whittum | Zendy

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The fabrication of millimeter-wavelength accelerating structures

Author(s) -

P. J. Chou,

Gordon Bowden,

M.R. Copeland,

A. Farvid,

Robert E. Kirby,

A. Menegat,

C. Pearson,

L. Shere,

R. Siemann,

J.E. Spencer,

D.H. Whittum

Publication year - 1997

Publication title -

osti oai (u.s. department of energy office of scientific and technical information)

Language(s) - English

Resource type - Conference proceedings

DOI - 10.1063/1.53064

Subject(s) - millimeter , fabrication , optoelectronics , wavelength , extremely high frequency , materials science , computer science , optics , physics , telecommunications , medicine , alternative medicine , pathology

There is a growing interest in the development of high gradient (♢ 1GeV/m) accelerating structures. The need for high gradient acceleration based on current microwave technology requires the structures to be operated in the millimeter wavelength. Fabrication of accelerating structures at millimeter scale with sub-micron tolerances poses great challenges. The accelerating structures impose strict requirements on surface smoothness and finish to suppress field emission and multipactor effects. Various fabrication techniques based on conventional machining and micromachining have been evaluated and tested. These will be discussed and measurement results presented.

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