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Title: NSLS-II injector commissioning and initial operation

Abstract

The injector for the National Synchrotron Light Source II (NSLS-II) storage ring consists of a 3 GeV booster synchrotron and a 200 MeV S-band linac. The linac was designed to produce either a single bunch with a charge of 0.5 nC of electrons or a train of bunches up to 300 ns long containing a total charge of 15 nC. The booster was designed to accelerate up to 15 nC each cycle in a train of bunches up to 300 ns long. Linac commissioning was completed in April 2012. Booster commissioning was started in November 2013 and completed in March 2014. All of the significant design goals were satisfied including beam emittance, energy spread, and transport efficiency. While the maximum booster charge accelerated was only 10 nC, this has proven to be more than sufficient for storage ring commissioning and operation. The injector has operated reliably during storage ring operation since then. Results will be presented showing measurements of linac and booster operating parameters achieved during commissioning and initial operation. Operating experience and reliability during the first year of NSLS-II operation will be discussed.

Authors:
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Publication Date:
Research Org.:
Brookhaven National Laboratory (BNL)
Sponsoring Org.:
USDOE Office of Science (SC)
OSTI Identifier:
1193208
Report Number(s):
BNL-107993-2015-CP
R&D Project: LS001
DOE Contract Number:  
DE-SC00112704
Resource Type:
Conference
Resource Relation:
Conference: 6th International Particle Accelerator Conference IPAC"15; Richmond, VA; 20150503 through 20150508
Country of Publication:
United States
Language:
English
Subject:
43 PARTICLE ACCELERATORS

Citation Formats

Bacha, B., Blum, E., Bassi, B., Bengtsson, J., Blednykh, A., Buda, S., Cheng, W., Choi, J., Cuppolo, J., D Alsace, R., Davidsaver, M., DeLong, J., Doom, L., Durfee, d., fliller, R., Fulkerson, M., Ganetis, G., Gao, F., Gardner, C., Guo, W., Heese, R., Hidaka, Y., Hu, Y., Johanson, M., Kosciuk, B., Kowalski, S., Dramer, S., Krinsky, S., Li, Y., Louie, W., Maggipinto, M., Marino, P., Mead, J., Oliva, G., Padrazo, D., Pedersen, K., Podobedov, B., Rainer, R., Rose, J., Santana, M., Seletskiy, S., Shaftan, T., Singh, O., Singh, P., Smalyuk, V., Smith, R., Summers, T., Tagger, J., Tian, Y., Wahl, W., Wang, G., Weiner, G., Willeke, F., Yang, L., Yang, X., Zeitler, E., Zitvogel, E., and Zuhoski, P. NSLS-II injector commissioning and initial operation. United States: N. p., 2015. Web.
Bacha, B., Blum, E., Bassi, B., Bengtsson, J., Blednykh, A., Buda, S., Cheng, W., Choi, J., Cuppolo, J., D Alsace, R., Davidsaver, M., DeLong, J., Doom, L., Durfee, d., fliller, R., Fulkerson, M., Ganetis, G., Gao, F., Gardner, C., Guo, W., Heese, R., Hidaka, Y., Hu, Y., Johanson, M., Kosciuk, B., Kowalski, S., Dramer, S., Krinsky, S., Li, Y., Louie, W., Maggipinto, M., Marino, P., Mead, J., Oliva, G., Padrazo, D., Pedersen, K., Podobedov, B., Rainer, R., Rose, J., Santana, M., Seletskiy, S., Shaftan, T., Singh, O., Singh, P., Smalyuk, V., Smith, R., Summers, T., Tagger, J., Tian, Y., Wahl, W., Wang, G., Weiner, G., Willeke, F., Yang, L., Yang, X., Zeitler, E., Zitvogel, E., & Zuhoski, P. NSLS-II injector commissioning and initial operation. United States.
Bacha, B., Blum, E., Bassi, B., Bengtsson, J., Blednykh, A., Buda, S., Cheng, W., Choi, J., Cuppolo, J., D Alsace, R., Davidsaver, M., DeLong, J., Doom, L., Durfee, d., fliller, R., Fulkerson, M., Ganetis, G., Gao, F., Gardner, C., Guo, W., Heese, R., Hidaka, Y., Hu, Y., Johanson, M., Kosciuk, B., Kowalski, S., Dramer, S., Krinsky, S., Li, Y., Louie, W., Maggipinto, M., Marino, P., Mead, J., Oliva, G., Padrazo, D., Pedersen, K., Podobedov, B., Rainer, R., Rose, J., Santana, M., Seletskiy, S., Shaftan, T., Singh, O., Singh, P., Smalyuk, V., Smith, R., Summers, T., Tagger, J., Tian, Y., Wahl, W., Wang, G., Weiner, G., Willeke, F., Yang, L., Yang, X., Zeitler, E., Zitvogel, E., and Zuhoski, P. Sun . "NSLS-II injector commissioning and initial operation". United States. https://www.osti.gov/servlets/purl/1193208.
@article{osti_1193208,
title = {NSLS-II injector commissioning and initial operation},
author = {Bacha, B. and Blum, E. and Bassi, B. and Bengtsson, J. and Blednykh, A. and Buda, S. and Cheng, W. and Choi, J. and Cuppolo, J. and D Alsace, R. and Davidsaver, M. and DeLong, J. and Doom, L. and Durfee, d. and fliller, R. and Fulkerson, M. and Ganetis, G. and Gao, F. and Gardner, C. and Guo, W. and Heese, R. and Hidaka, Y. and Hu, Y. and Johanson, M. and Kosciuk, B. and Kowalski, S. and Dramer, S. and Krinsky, S. and Li, Y. and Louie, W. and Maggipinto, M. and Marino, P. and Mead, J. and Oliva, G. and Padrazo, D. and Pedersen, K. and Podobedov, B. and Rainer, R. and Rose, J. and Santana, M. and Seletskiy, S. and Shaftan, T. and Singh, O. and Singh, P. and Smalyuk, V. and Smith, R. and Summers, T. and Tagger, J. and Tian, Y. and Wahl, W. and Wang, G. and Weiner, G. and Willeke, F. and Yang, L. and Yang, X. and Zeitler, E. and Zitvogel, E. and Zuhoski, P.},
abstractNote = {The injector for the National Synchrotron Light Source II (NSLS-II) storage ring consists of a 3 GeV booster synchrotron and a 200 MeV S-band linac. The linac was designed to produce either a single bunch with a charge of 0.5 nC of electrons or a train of bunches up to 300 ns long containing a total charge of 15 nC. The booster was designed to accelerate up to 15 nC each cycle in a train of bunches up to 300 ns long. Linac commissioning was completed in April 2012. Booster commissioning was started in November 2013 and completed in March 2014. All of the significant design goals were satisfied including beam emittance, energy spread, and transport efficiency. While the maximum booster charge accelerated was only 10 nC, this has proven to be more than sufficient for storage ring commissioning and operation. The injector has operated reliably during storage ring operation since then. Results will be presented showing measurements of linac and booster operating parameters achieved during commissioning and initial operation. Operating experience and reliability during the first year of NSLS-II operation will be discussed.},
doi = {},
journal = {},
number = ,
volume = ,
place = {United States},
year = {2015},
month = {5}
}

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