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A DAMPED AND DETUNED ACCELERATING STRUCRURE FOR THE MAIN LINACS
KHAN V. - OF THE COMPACT LINEAR COLLIDER wydawnictwo: WYD PW, 2011, wydanie I cena netto: 41.20 Twoja cena 39,14 zł + 5% vat - dodaj do koszyka A Damped and Detuned Accelerating Structure for the Main Linacs of the Compact Linear
Collider
Linear colliders are an option for lepton collision at several TeV. The Compact Linear
Collider (CLIC) aims at electron and positron collisions at a centre of mass energy of 3
TeV. In CLIC, the main accelerating structures are designer to operate at an X-band
frequency of 12 GHz with an accelerating gradient of 100 MV/m. Two significant issues in
linear accelerators that can prevent high gradient being achieved are electrical breakdown
and wakefields. The baseline design for the CLIC main linacs relies on a small aperture
size to reduce the break down probability and a strong damping scheme to suppress the
wakefields. The strong damping scheme may have a higher possibility of electrical
breakdown. In this thesis an alternative design for the main accelerating structures of
CLIC is studiem and various aspects of this design are discussed. This design is known as
a Damped and Detuned Structure (DDS) which relies on moderate damping and strong detuning
of the higher order modes (HOMs). The broad idea of DDS is based upon the Next Linear
Collider (NLC) design. The advantages of this design are: well damped wakefields,
minimised rf breakdown probability and reduced size of the structure compared to the
strong damping design. Procedures necessary to minimise the rf monopole fields and enhance
the wakefield suppression are discussed. The rf as well as mechanical designs of a test
structure are presented. This unique design forms the basis of this research and allows
both the electric al breakdown and beam dynamics constraints to be simultaneously
satisfied.
230 pages, Paperback
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