Cs_{2}Te normal conducting photocathodes in the superconducting rf gun

Cs_{2}Te normal conducting photocathodes in the superconducting rf gun

The superconducting radio frequency photoinjector (SRF gun) is one of the latest applications of superconducting rf technology in the accelerator field. Since superconducting photocathodes with high quantum efficiency are yet unavailable, normal conducting cathode material is the main choice for SRF...

Full description

Bibliographic Details
Main Authors: R. Xiang, A. Arnold, H. Buettig, D. Janssen, M. Justus, U. Lehnert, P. Michel, P. Murcek, A. Schamlott, Ch. Schneider, R. Schurig, F. Staufenbiel, J. Teichert
Format: Article
Language:English
Published: American Physical Society 2010-04-01
Series:Physical Review Special Topics. Accelerators and Beams
Online Access:http://doi.org/10.1103/PhysRevSTAB.13.043501
id doaj-aa0d24223b534af1a607c0f01a762852
record_format Article
spelling doaj-aa0d24223b534af1a607c0f01a7628522020-11-25T02:46:35ZengAmerican Physical SocietyPhysical Review Special Topics. Accelerators and Beams1098-44022010-04-0113404350110.1103/PhysRevSTAB.13.043501Cs_{2}Te normal conducting photocathodes in the superconducting rf gunR. XiangA. ArnoldH. BuettigD. JanssenM. JustusU. LehnertP. MichelP. MurcekA. SchamlottCh. SchneiderR. SchurigF. StaufenbielJ. TeichertThe superconducting radio frequency photoinjector (SRF gun) is one of the latest applications of superconducting rf technology in the accelerator field. Since superconducting photocathodes with high quantum efficiency are yet unavailable, normal conducting cathode material is the main choice for SRF photoinjectors. However, the compatibility between the photocathode and the cavity is one of the challenges for this concept. Recently, a SRF gun with Cs_{2}Te cathode has been successfully operated in Forschungszentrum Dresden-Rossendorf. In this paper, we will present the physical properties of Cs_{2}Te photocathodes in the SC cavity, such as the quantum efficiency, the lifetime, the rejuvenation, the charge saturation, and the dark current.http://doi.org/10.1103/PhysRevSTAB.13.043501
collection DOAJ
language English
format Article
sources DOAJ
author R. Xiang
A. Arnold
H. Buettig
D. Janssen
M. Justus
U. Lehnert
P. Michel
P. Murcek
A. Schamlott
Ch. Schneider
R. Schurig
F. Staufenbiel
J. Teichert
spellingShingle R. Xiang
A. Arnold
H. Buettig
D. Janssen
M. Justus
U. Lehnert
P. Michel
P. Murcek
A. Schamlott
Ch. Schneider
R. Schurig
F. Staufenbiel
J. Teichert
Cs_{2}Te normal conducting photocathodes in the superconducting rf gun
Physical Review Special Topics. Accelerators and Beams
author_facet R. Xiang
A. Arnold
H. Buettig
D. Janssen
M. Justus
U. Lehnert
P. Michel
P. Murcek
A. Schamlott
Ch. Schneider
R. Schurig
F. Staufenbiel
J. Teichert
author_sort R. Xiang
title Cs_{2}Te normal conducting photocathodes in the superconducting rf gun
title_short Cs_{2}Te normal conducting photocathodes in the superconducting rf gun
title_full Cs_{2}Te normal conducting photocathodes in the superconducting rf gun
title_fullStr Cs_{2}Te normal conducting photocathodes in the superconducting rf gun
title_full_unstemmed Cs_{2}Te normal conducting photocathodes in the superconducting rf gun
title_sort cs_{2}te normal conducting photocathodes in the superconducting rf gun
publisher American Physical Society
series Physical Review Special Topics. Accelerators and Beams
issn 1098-4402
publishDate 2010-04-01
description The superconducting radio frequency photoinjector (SRF gun) is one of the latest applications of superconducting rf technology in the accelerator field. Since superconducting photocathodes with high quantum efficiency are yet unavailable, normal conducting cathode material is the main choice for SRF photoinjectors. However, the compatibility between the photocathode and the cavity is one of the challenges for this concept. Recently, a SRF gun with Cs_{2}Te cathode has been successfully operated in Forschungszentrum Dresden-Rossendorf. In this paper, we will present the physical properties of Cs_{2}Te photocathodes in the SC cavity, such as the quantum efficiency, the lifetime, the rejuvenation, the charge saturation, and the dark current.
url http://doi.org/10.1103/PhysRevSTAB.13.043501
work_keys_str_mv AT rxiang cs2tenormalconductingphotocathodesinthesuperconductingrfgun
AT aarnold cs2tenormalconductingphotocathodesinthesuperconductingrfgun
AT hbuettig cs2tenormalconductingphotocathodesinthesuperconductingrfgun
AT djanssen cs2tenormalconductingphotocathodesinthesuperconductingrfgun
AT mjustus cs2tenormalconductingphotocathodesinthesuperconductingrfgun
AT ulehnert cs2tenormalconductingphotocathodesinthesuperconductingrfgun
AT pmichel cs2tenormalconductingphotocathodesinthesuperconductingrfgun
AT pmurcek cs2tenormalconductingphotocathodesinthesuperconductingrfgun
AT aschamlott cs2tenormalconductingphotocathodesinthesuperconductingrfgun
AT chschneider cs2tenormalconductingphotocathodesinthesuperconductingrfgun
AT rschurig cs2tenormalconductingphotocathodesinthesuperconductingrfgun
AT fstaufenbiel cs2tenormalconductingphotocathodesinthesuperconductingrfgun
AT jteichert cs2tenormalconductingphotocathodesinthesuperconductingrfgun
_version_ 1724757325317668864

Similar Items