JaCoW Logo

Reference Search

Warning
Some papers have malformed authors, please correct this before using these references.

The page numbers for some of these references could not be added automatically. You must provide the page numbers from the original proceedings which is located at JACoW.org, and substitute ‘pp. XX-XX’ with the correct page numbers.

Favourites


For Word

[n]	BNL Advanced Synchrotron Study Group, “The CMS, a Cold Magnet Synchrotron to Upgrade the Proton Energy Range of the BNL Facility”, in Proc. PAC'71, Chicago, IL, USA, Mar. 1971, pp. 694-699. 
[n]	T. Adachi et al., “Development of a Signal Processing Board for Spill Digital Servo System for Proton Synchrotron”, in Proc. ICALEPCS'07, Oak Ridge, TN, USA, Oct. 2007, paper WPPB14, pp. 430-432. 
[n]	S. Calatroni, C. Benvenuti, and V. Ruzinov, “Diffusion of Oxygen in Niobium during Bake-out”, in Proc. SRF'01, Tsukuba, Japan, Sep. 2001, paper PR025, pp. XX-XX. 
[n]	S. N. Simrock, “Achieving Phase and Amplitude Stability in Pulsed Superconducting Cavities”, in Proc. SRF'01, Tsukuba, Japan, Sep. 2001, paper SA009, pp. XX-XX. 
[n]	S. Noguchi, “SRF System in the JAERI-KEK Joint Project”, in Proc. SRF'01, Tsukuba, Japan, Sep. 2001, paper TA001, pp. XX-XX. 
[n]	H. Padamsee, “SRF for Neutrino Factories”, in Proc. SRF'01, Tsukuba, Japan, Sep. 2001, paper TA007, pp. XX-XX. 
[n]	E. I. Simakov, W. B. Haynes, S. S. Kurennoy, J. F. O, E. R. Olivas, and D. Y. Shchegolkov, “Pushing the Gradient Limitations of Superconducting Photonic Band Gap Structure Cells”, in Proc. IPAC'12, New Orleans, LA, USA, May 2012, paper WEPPP035, pp. 2801-2803. 
[n]	K. W. Shepard, “The U. S. RIA Project SRF Linac”, in Proc. SRF'01, Tsukuba, Japan, Sep. 2001, paper TA003, pp. XX-XX. 
[n]	B. Holzer and C. Montag, “Reproducibility and Predictability of Persistent Current Effects in the HERA Proton Storage Ring”, in Proc. EPAC'00, Vienna, Austria, Jun. 2000, paper THP3B10, pp. 2142-2144. 
[n]	S. Belomestnykh and H. Padamsee, “Performance of the CESR Superconducting RF System and Future Plans”, in Proc. SRF'01, Tsukuba, Japan, Sep. 2001, paper SA003, pp. XX-XX. 
[n]	E. Chiaveri, “A High-Power Superconducting H- Linac (SPL) at CERN”, in Proc. SRF'01, Tsukuba, Japan, Sep. 2001, paper TA005, pp. XX-XX. 
[n]	M. P. Kelly, K. W. Shepard, and M. Kedzie, “High-pressure Rinse and Chemical Polish of a Spoke Cavity”, in Proc. SRF'01, Tsukuba, Japan, Sep. 2001, paper PT017, pp. XX-XX. 
[n]	J. C. Frisch et al., “Status of the LCLS Experiment Timing System”, in Proc. IBIC'12, Tsukuba, Japan, Oct. 2012, paper TUPA44, pp. 453-457. 
[n]	A. Matheisen, “Status of the RF Superconductivity Activities at DESY”, in Proc. SRF'01, Tsukuba, Japan, Sep. 2001, paper TL007, pp. XX-XX. 
[n]	E. Ciapala et al., “Operating Experience with the LEP2 Superconducting RF System”, in Proc. SRF'01, Tsukuba, Japan, Sep. 2001, paper SA001, pp. XX-XX. 
[n]	X. W. Wang, F. Yong, and R. Zhang, “The Design of the Medical Cyclotron RF Cavity”, in Proc. Cyclotrons'16, Zurich, Switzerland, Sep. 2016, pp. 227-228. doi:10.18429/JACoW-Cyclotrons2016-TUP27
[n]	C.-Y. Tan, D. S. Bollinger, and C. W. Schmidt, “A Possible FNAL 750 keV Linac Injector Upgrade”, in Proc. PAC'09, Vancouver, Canada, May 2009, paper FR5REP056, pp. 4896-4898. 
[n]	I. Podadera et al., “Beam Diagnostics for Commissioning and Operation of a Novel Compact Cyclotron for Radioisotope Production”, in Proc. IBIC'13, Oxford, UK, Sep. 2013, paper WEPC04, pp. 660-663. 
[n]	P. B. Jurj, “Normalized Transverse Emittance Reduction via Ionization Cooling in MICE ÔÇÖFlip ModeÔÇÖ”, in Proc. IPAC'21, Campinas, Brazil, May 2021, pp. 474-477. doi:10.18429/JACoW-IPAC2021-MOPAB134
[n]	A. Gatera et al., “Minerva (MYRRHA Phase 1) RFQ Beam Commissioning”, in Proc. IPAC'21, Campinas, Brazil, May 2021, pp. 675-678. doi:10.18429/JACoW-IPAC2021-MOPAB205

For LaTeX

Use Complete Form

For BibTeX

References

Back to search