Status Update on Cornell’s SRF Compact Conduction Cooled Cryomodule

Stilin, Neil; Holic, Adam; Liepe, Matthias; O'Connell, Tim; Sears, James; Shemelin, Valery; Turco, Jessica

doi:10.18429/JACoW-IPAC2022-TUPOTK037

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BiBTeX citation export for TUPOTK037: Status Update on Cornell’s SRF Compact Conduction Cooled Cryomodule

@inproceedings{stilin:ipac2022-tupotk037,
  author       = {N.A. Stilin and A.T. Holic and M. Liepe and T.I. O’Connell and J. Sears and V.D. Shemelin and J. Turco},
% author       = {N.A. Stilin and A.T. Holic and M. Liepe and T.I. O’Connell and J. Sears and V.D. Shemelin and others},
% author       = {N.A. Stilin and others},
  title        = {{Status Update on Cornell’s SRF Compact Conduction Cooled Cryomodule}},
  booktitle    = {Proc. IPAC'22},
% booktitle    = {Proc. 13th International Particle Accelerator Conference (IPAC'22)},
  pages        = {1299--1302},
  eid          = {TUPOTK037},
  language     = {english},
  keywords     = {cavity, cryomodule, SRF, operation, radio-frequency},
  venue        = {Bangkok, Thailand},
  series       = {International Particle Accelerator Conference},
  number       = {13},
  publisher    = {JACoW Publishing, Geneva, Switzerland},
  month        = {07},
  year         = {2022},
  issn         = {2673-5490},
  isbn         = {978-3-95450-227-1},
  doi          = {10.18429/JACoW-IPAC2022-TUPOTK037},
  url          = {https://jacow.org/ipac2022/papers/tupotk037.pdf},
  abstract     = {{A new frontier in Superconducting RF (SRF) development is increasing the accessibility of SRF technology to small-scale accelerator operations which are used in various industrial or research applications. This is made possible by using commercial cryocoolers as a cooling source, which removes the need for expensive liquid cryogenics and their supporting infrastructure. Cornell University is currently developing a new cryomodule based on a conduction cooling scheme. This cryomodule will use two pulse tube cryocoolers in place of liquid cryogenics in order to cool the system. A new 1.3 GHz cavity has been designed with a set of four niobium rings welded at the equator and irises which allow for a direct thermal link between the cavity and cryocooler cold heads. The cavity will use two coaxial RF input couplers capable of delivering up to 100 kW total RF power for high-current beam operation. This coupler design was modified from the Cornell ERL injector couplers, including simplifications such as removing the cold RF window and most outer bellows, while retaining inner bellows for adjustable coupling.}},
}