400 MHz LHC Crab Cryomodule with HOM Dampers, Tuners and Couplers

Award Information
Agency:
Department of Energy
Branch
n/a
Amount:
$150,000.00
Award Year:
2012
Program:
SBIR
Phase:
Phase I
Contract:
DE-FG02-12ER90337
Award Id:
n/a
Agency Tracking Number:
99331
Solicitation Year:
2012
Solicitation Topic Code:
29 g
Solicitation Number:
DE-FOA-0000577
Small Business Information
1012 N. Walnut St., Lansing, MI, -
Hubzone Owned:
Y
Minority Owned:
N
Woman Owned:
N
Duns:
621290001
Principal Investigator:
Terry Grimm
Dr.
(517) 775-4436
grimm@niowaveinc.com
Business Contact:
Jerry Hollister
Dr.
(517) 230-7417
hollister@niowaveinc.com
Research Institution:
Stub




Abstract
Superconducting radio frequency (SRF) cavities are being successfully used for acceleration of charged particle beams worldwide. The application of the SRF cavities for manipulation of the beam properties in the transverse direction finds more and more applications. The use of superconducting (SC) structures helps maximize the electric field gradient, which is a highly desirable feature for applications involving manipulations of the charged particle beams at the point of delivery, such as Final Focus (FF) point. Application of the parallel bar SC structure in future SRF accelerators will allow a further increase over existing machine performance. Compact equipment utilizing SRF cavities can be successfully used in a broad range of applications from increasing beam luminosity in colliders, to manipulation of the correlation between the longitudinal and transverse phase space projections of the beam particle distribution. This proposal will develop a cryomodule for a 400 MHz superconducting parallel-bar crabbing cavity designed for tilting a proton beam with energy of up to 7 TeV at the Final Focus point. The parallel-bar structure uses a significant transverse asymmetry of the electric field distribution of the fundamental mode, which requires a respective asymmetry of the power coupler. At the same time this intrinsic asymmetry of the cavity design immediately leads to a more complicated HOM spectrum, which makes damping of the unwanted modes in the cavity a non-trivial task. This proposal will design and develop the asymmetric power coupler & amp; pickup, the HOM dampers, both slow and fast frequency tuners, and the microphonic mechanical dampers. All other systems needed for a functional cryomodule (eg: helium transfer lines, magnetic shielding, etc) will also be a part of this project. The final cryomodule design should satisfy the strict requirements and the limitations of the existing tunnel environment of the LHC synchrotron near the FF point.

* information listed above is at the time of submission.

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