Basic information on superconductivity:
Cern School on Superconductivity
IPHT Jena / public lecture: "100 years of superconductivity" (in german)
Some basic information on CCCs:
W. Vodel e. a., 2009: The SQUID based Cryogenic Current Comparator – an useful tool for beam diagnostics
I. K. Harvey, 1972: A Precise Low Temperature DC Ratio Transformer
A very good overview paper about SQUID technology:
R. L. Fagaly, 2005: SQUID Instruments and Applications
The new CCC for FAIR
R. Geithner e. a., 2010: A non-destructive Beam Monitoring System based on an LTS-SQUID
R. Geithner e. a., 2009: An Improved Cryogenic Current Comparator for FAIR
M. Schwickert e. a., 2009: A CRYOGENIC CURRENT COMPARATOR FOR FAIR
A. Steppke e. a., 2009: A cryogenic current comparator for beam diagnostics in the FAIR project
The old CCC at GSI-Darmstadt:
P. Forck e. a., 2000: Measurements and Improvements of the time structure of a slowly extracted beam from a synchrotron
A. Peters e. a., 1999: Recent Improvements of a Cryogenic Current Comparator for nA Ion Beams with high intensity dynamics
A. Peters e. a., 1998: A Cryogenic Current Comparator for the Absolute Measurement of nA Beams
A. Peters e. a., 1997: Absolute Measurements and Analysis of nA-Ion Beams
A. Peters e. a., 1995: Review of the Experimental Results
with a Cryogenic Current Comparator
Diploma Theses
(in german, incomplete):
C. H. Schroeder, 1993: Entwicklung eines Kryostaten für LHe-Temperatur zum Einbau eines supraleitenden Strahltransformators mit SQUID
V. Duerr, 1993: Dimensionierung, Konstruktion und Bau eines mit flüssigem Helium gekühlten Strahlstrom-Transformators mit einem SQUID
Dissertations
D. M. Haider, 2023: Precise intensity monitoring at CRYRING@ESR: On designing a Cryogenic Current Comparator for FAIR
F. Kurian, 2015: Cryogenic Current Comparators for Precise Ion Beam Current Measurements (SIS18 extraction line application)
The CCC for the CSR at MPI-Heidelberg:
Th. Sieber, 2009: Intensity and Profile Measurements for
Low Intensity Ion Beams in an Electrostatic Cryogenic Storage Ring (CSR)
The CCC for dark current measurements in RF cavities at DESY-Hamburg:
W. Vodel e. a., 2007: CURRENT STATUS OF THE SQUID BASED CRYOGENIC CURRENT COMPARATOR FOR ABSOLUTE MEASUREMENTS OF THE DARK CURRENT OF SUPERCONDUCTING RF ACCELERATOR CAVITIES
W. Vodel e. a., 2007: An LTS-SQUID based measurement tool for characterization of superconductive RF cavities
W. Vodel e. a., 2005: SQUID BASED CRYOGENIC CURRENT COMPARATOR FOR
MEASUREMENTS OF THE DARK CURRENT OF SUPERCONDUCTING CAVITIES
K. Knaack e. a., 2003: CRYOGENIC CURRENT COMPARATOR FOR ABSOLUTE
MEASUREMENTS OF THE DARK CURRENT OF SUPERCONDUCTING CAVITIES FOR TESLA
W. Vodel e. a., 2003: Low-Tc-SQUID based Cryogenic Current Comparator for Application in High Energy Physics
Other CCC projects for particle accelerators:
T. Watanabe e. a., 2004: A prototype of a highly sensitive cryogenic current comparator with a HTS SQUID and HTS magnetic shield
Y. Sasaki e. a., 1998: Nondestructive DC Beam Current Monitor with Nano-Ampere Resolution
T. Tanabe e. a., 1998: A CRYOGENIC CURRENT MEASURING DEVICE FOR THE LOW-INTENSITY BEAM AT THE STORAGE RING TARN II
W. Kuchnir, 1983: SQUID BASED BEAM CURRENT METER
Theory of superconductive magnetic shielding:
K.Grohmann et.al.,1976: Field attenuation as the underlying principle of cryo current comparators
K.Grohmann et.al.,1976: Field attenuation as the underlying principles of cryo current comparators 2. Ring cavity elements
K.Grohmann et.al.,1976: Magnetic shielding by superconducting simple and coaxial cylinders: a comparison