Superconducting RF systems for eRHIC

S. Belomestnykh; I. Ben-Zvi; C. Brutus; H. Hahn; D. Kayran; V. Litvinenko; G. Mahler; G. McIntyre; C. Pai; I. Pinayev; V. Ptitsyn; J. Skaritka; R. Than; J. Tuozzolo; Q. Wu; T. Xin; Wencan Xu; A. Zaltsman

Superconducting RF systems for eRHIC

S. Belomestnykh
, I. Ben-Zvi
, C. Brutus
, H. Hahn
, D. Kayran
, V. Litvinenko
, G. Mahler
, G. McIntyre
, C. Pai
, I. Pinayev
, V. Ptitsyn
, J. Skaritka
, R. Than
, J. Tuozzolo
, Q. Wu
, T. Xin
, Wencan Xu
, A. Zaltsman

Physics and Astronomy

Brookhaven National Laboratory
Stony Brook University

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

4 Scopus citations

Abstract

The proposed electron-hadron collider eRHIC will consist of a six-pass 30-GeV electronEnergy Recovery Linac (ERL) and one of RHIC storage rings operating with energy up to 250GeV. The collider design extensively utilizes superconducting RF (SRF) technology in bothelectron and hadron parts. This paper describes various SRF systems, their requirements andparameters.

Original language	English
Title of host publication	IPAC 2012 - International Particle Accelerator Conference 2012
Pages	2474-2476
Number of pages	3
State	Published - 2012
Event	3rd International Particle Accelerator Conference 2012, IPAC 2012 - New Orleans, LA, United States Duration: May 20 2012 → May 25 2012

Publication series

Name	IPAC 2012 - International Particle Accelerator Conference 2012

Conference

Conference	3rd International Particle Accelerator Conference 2012, IPAC 2012
Country/Territory	United States
City	New Orleans, LA
Period	05/20/12 → 05/25/12

Cite this

Belomestnykh, S., Ben-Zvi, I., Brutus, C., Hahn, H., Kayran, D., Litvinenko, V., Mahler, G., McIntyre, G., Pai, C., Pinayev, I., Ptitsyn, V., Skaritka, J., Than, R., Tuozzolo, J., Wu, Q., Xin, T., Xu, W., & Zaltsman, A. (2012). Superconducting RF systems for eRHIC. In IPAC 2012 - International Particle Accelerator Conference 2012 (pp. 2474-2476). (IPAC 2012 - International Particle Accelerator Conference 2012).

@inproceedings{9804b89da87541c192256ede891f91e6,

title = "Superconducting RF systems for eRHIC",

abstract = "The proposed electron-hadron collider eRHIC will consist of a six-pass 30-GeV electronEnergy Recovery Linac (ERL) and one of RHIC storage rings operating with energy up to 250GeV. The collider design extensively utilizes superconducting RF (SRF) technology in bothelectron and hadron parts. This paper describes various SRF systems, their requirements andparameters.",

author = "S. Belomestnykh and I. Ben-Zvi and C. Brutus and H. Hahn and D. Kayran and V. Litvinenko and G. Mahler and G. McIntyre and C. Pai and I. Pinayev and V. Ptitsyn and J. Skaritka and R. Than and J. Tuozzolo and Q. Wu and T. Xin and Wencan Xu and A. Zaltsman",

year = "2012",

language = "English",

isbn = "9783954501151",

series = "IPAC 2012 - International Particle Accelerator Conference 2012",

pages = "2474--2476",

booktitle = "IPAC 2012 - International Particle Accelerator Conference 2012",

note = "3rd International Particle Accelerator Conference 2012, IPAC 2012 ; Conference date: 20-05-2012 Through 25-05-2012",

}

Belomestnykh, S, Ben-Zvi, I, Brutus, C, Hahn, H, Kayran, D, Litvinenko, V, Mahler, G, McIntyre, G, Pai, C, Pinayev, I, Ptitsyn, V, Skaritka, J, Than, R, Tuozzolo, J, Wu, Q, Xin, T, Xu, W & Zaltsman, A 2012, Superconducting RF systems for eRHIC. in IPAC 2012 - International Particle Accelerator Conference 2012. IPAC 2012 - International Particle Accelerator Conference 2012, pp. 2474-2476, 3rd International Particle Accelerator Conference 2012, IPAC 2012, New Orleans, LA, United States, 05/20/12.

TY - GEN

T1 - Superconducting RF systems for eRHIC

AU - Belomestnykh, S.

AU - Ben-Zvi, I.

AU - Brutus, C.

AU - Hahn, H.

AU - Kayran, D.

AU - Litvinenko, V.

AU - Mahler, G.

AU - McIntyre, G.

AU - Pai, C.

AU - Pinayev, I.

AU - Ptitsyn, V.

AU - Skaritka, J.

AU - Than, R.

AU - Tuozzolo, J.

AU - Wu, Q.

AU - Xin, T.

AU - Xu, Wencan

AU - Zaltsman, A.

PY - 2012

Y1 - 2012

N2 - The proposed electron-hadron collider eRHIC will consist of a six-pass 30-GeV electronEnergy Recovery Linac (ERL) and one of RHIC storage rings operating with energy up to 250GeV. The collider design extensively utilizes superconducting RF (SRF) technology in bothelectron and hadron parts. This paper describes various SRF systems, their requirements andparameters.

AB - The proposed electron-hadron collider eRHIC will consist of a six-pass 30-GeV electronEnergy Recovery Linac (ERL) and one of RHIC storage rings operating with energy up to 250GeV. The collider design extensively utilizes superconducting RF (SRF) technology in bothelectron and hadron parts. This paper describes various SRF systems, their requirements andparameters.

UR - https://www.scopus.com/pages/publications/84885640882

M3 - Conference contribution

AN - SCOPUS:84885640882

SN - 9783954501151

T3 - IPAC 2012 - International Particle Accelerator Conference 2012

SP - 2474

EP - 2476

BT - IPAC 2012 - International Particle Accelerator Conference 2012

T2 - 3rd International Particle Accelerator Conference 2012, IPAC 2012

Y2 - 20 May 2012 through 25 May 2012

ER -

Superconducting RF systems for eRHIC

Abstract

Publication series

Conference

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