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LHC and CLIC LLRF final reports

Research output: Book/Report/ProceedingsBook

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LHC and CLIC LLRF final reports. / Burt, Graeme; Dexter, Amos; Woolley, Ben et al.
Switzerland: CERN, 2013. 82 p.

Research output: Book/Report/ProceedingsBook

Harvard

Burt, G, Dexter, A, Woolley, B, Tahir, I, Syratchev, I & Wuensch, W 2013, LHC and CLIC LLRF final reports. CERN, Switzerland. <http://cds.cern.ch/record/1619669/files/CERN-OPEN-2013-032.pdf>

APA

Burt, G., Dexter, A., Woolley, B., Tahir, I., Syratchev, I., & Wuensch, W. (2013). LHC and CLIC LLRF final reports. CERN. http://cds.cern.ch/record/1619669/files/CERN-OPEN-2013-032.pdf

Vancouver

Burt G, Dexter A, Woolley B, Tahir I, Syratchev I, Wuensch W. LHC and CLIC LLRF final reports. Switzerland: CERN, 2013. 82 p.

Author

Burt, Graeme ; Dexter, Amos ; Woolley, Ben et al. / LHC and CLIC LLRF final reports. Switzerland : CERN, 2013. 82 p.

Bibtex

@book{62a197091b6342e6a908177430edf9f8,
title = "LHC and CLIC LLRF final reports",
abstract = "Crab cavities rotate bunches from opposing beams to achieve effective head-on collision in CLIC or collisions at an adjustable angle in LHC. Without crab cavities 90% of achievable luminosity at CLIC would be lost. In the LHC, the crab cavities allow the same or larger integrated luminosity while reducing significantly the requested dynamic range of physics detectors. The focus for CLIC is accurate phase synchronisation of the cavities, adequate damping of wakefields and modest amplitude stability. For the LHC, the main LLRF issues are related to imperfections: beam offsets in cavities, RF noise, measurement noise in feedback loops, failure modes and mitigations. This report develops issues associated with synchronising the CLIC cavities. It defines an RF system and experiments to validate the approach. It reports on the development of hardware for measuring the phase performance of the RF distributions system and cavities. For the LHC, the hardware being very close to the existing LLRF, the report focuses on the requirements on the LLRF to mitigate anticipated imperfections.",
author = "Graeme Burt and Amos Dexter and Ben Woolley and Imran Tahir and Igor Syratchev and Walter Wuensch",
year = "2013",
month = oct,
day = "25",
language = "English",
publisher = "CERN",

}

RIS

TY - BOOK

T1 - LHC and CLIC LLRF final reports

AU - Burt, Graeme

AU - Dexter, Amos

AU - Woolley, Ben

AU - Tahir, Imran

AU - Syratchev, Igor

AU - Wuensch, Walter

PY - 2013/10/25

Y1 - 2013/10/25

N2 - Crab cavities rotate bunches from opposing beams to achieve effective head-on collision in CLIC or collisions at an adjustable angle in LHC. Without crab cavities 90% of achievable luminosity at CLIC would be lost. In the LHC, the crab cavities allow the same or larger integrated luminosity while reducing significantly the requested dynamic range of physics detectors. The focus for CLIC is accurate phase synchronisation of the cavities, adequate damping of wakefields and modest amplitude stability. For the LHC, the main LLRF issues are related to imperfections: beam offsets in cavities, RF noise, measurement noise in feedback loops, failure modes and mitigations. This report develops issues associated with synchronising the CLIC cavities. It defines an RF system and experiments to validate the approach. It reports on the development of hardware for measuring the phase performance of the RF distributions system and cavities. For the LHC, the hardware being very close to the existing LLRF, the report focuses on the requirements on the LLRF to mitigate anticipated imperfections.

AB - Crab cavities rotate bunches from opposing beams to achieve effective head-on collision in CLIC or collisions at an adjustable angle in LHC. Without crab cavities 90% of achievable luminosity at CLIC would be lost. In the LHC, the crab cavities allow the same or larger integrated luminosity while reducing significantly the requested dynamic range of physics detectors. The focus for CLIC is accurate phase synchronisation of the cavities, adequate damping of wakefields and modest amplitude stability. For the LHC, the main LLRF issues are related to imperfections: beam offsets in cavities, RF noise, measurement noise in feedback loops, failure modes and mitigations. This report develops issues associated with synchronising the CLIC cavities. It defines an RF system and experiments to validate the approach. It reports on the development of hardware for measuring the phase performance of the RF distributions system and cavities. For the LHC, the hardware being very close to the existing LLRF, the report focuses on the requirements on the LLRF to mitigate anticipated imperfections.

M3 - Book

BT - LHC and CLIC LLRF final reports

PB - CERN

CY - Switzerland

ER -