SUPERCONDUCTING RF CAVITY FOR TESTING MATERIALS AND FABRICATION PROCESSES AT 1.3 GHZ AT OVER THREE TIMES THE BCS LIMIT OF NIOBIUM Conference Paper

abstract

• A 1.3 GHz test cavity has been designed to test wafer samples of superconducting materials. The surface magnetic field on the sample wafer is 3.75 times greater than anywhere else on the cavity surface. The cavity also facilitates measurement of the rf surface resistance corresponding to a Q of 1010. The cavity is operated in a TE01 mode. A high purity sapphire hemisphere is used to enhance the circulating field on the sample and suppress the fields on the remainder of the cavity surface. The sapphire purity must be tested for its loss tangent and dielectric constant. To test these properties a smaller sapphire rod of the same quality will be inserted into a CEBAF cavity operating in a TE01 mode. This will allow us to measure the temperature of the sapphire as a function of input energy and time, and the dielectric constant through its effect on the resonant frequency. 2010 American Institute of Physics.

name of conference

• TRANSACTIONS OF THE CRYOGENIC ENGINEERING CONFERENCECEC: Advances in Cryogenic Engineering

authors

• Mcintyre, Peter

published proceedings

• ADVANCES IN CRYOGENIC ENGINEERING, VOLS 55A AND 55B

author list (cited authors)

• Pogue, N., McIntyre, P., Sattarov, A., Blackburn, R., Manus, R., Marhauser, F., & Reece, C.

citation count

• 0

complete list of authors

• Pogue, N||McIntyre, P||Sattarov, A||Blackburn, R||Manus, R||Marhauser, F||Reece, C

publication date

• April 2010

publisher

• AIP Publishing  Publisher

published in

• AIP Conference Proceedings  Journal

keywords

• Cavity
• Dielectric
• Heterostructure
• Linac
• Microwave
• Sapphire

Digital Object Identifier (DOI)

• 10.1063/1.3422439

International Standard Book Number (ISBN) 13

• 978-0-7354-0761-9

start page

• 849

end page

• +

volume

• 1218

issue

• 1

URL

• http%3A%2F%2Fdx.doi.org%2F10.1063%2F1.3422439