 DOCUMENT METADATASLAC Publication: SLAC-PUB-17301
SLAC Release Date: August 6, 2018
An Advanced NCRF Linac Concept for a High Energy e e- Linear Collider Point Design - 2018
Bane, Karl.
An advanced Normal Conducting Radio Frequency (NCRF) C-band linear accelerator (linac)
structure has been designed for a high gradient, high power e e - linear collider in the TeV class.
The structure features internal manifolds for distributing RF power separately to each cell,
permitting the full structure geometry to be designed for high shunt impedance and low
breakdown. In addition, the structure is cooled directly by liquid nitrogen (LN), further increasing
the shunt impedance. A crucial... Show Full Abstract
An advanced Normal Conducting Radio Frequency (NCRF) C-band linear accelerator (linac)
structure has been designed for a high gradient, high power e e - linear collider in the TeV class.
The structure features internal manifolds for distributing RF power separately to each cell,
permitting the full structure geometry to be designed for high shunt impedance and low
breakdown. In addition, the structure is cooled directly by liquid nitrogen (LN), further increasing
the shunt impedance. A crucial part of the design process has been cost optimization, and
based on achieving the DOE-HEP GARD goal for RF power of $2/peak kW, the linac would be
substantially cheaper than current designs. Show Partial Abstract
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