JaCoW Logo

Reference Search

Warning
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]	A. van der Hart et al., “Non-Destructive Beam Monitors for the SNQ-Linac”, in Proc. LINAC'86, Stanford, CA, USA, Sep. 1986, paper MO3-9, pp. 56-58. 
[n]	N. A. Moody, D. W. Feldman, K. Jensen, P. G. O, J. L. Shaw, and J. E. Yater, “Experimental Progress Toward Low Workfunction Controlled Porosity Dispenser Photocathodes”, in Proc. FEL'06, Berlin, Germany, Aug.-Sep. 2006, paper THPPH069, pp. 748-751. 
[n]	H. Bartosik et al., “Low Gamma Transition Optics for the SPS: Simulation and Experimental Results for High Brightness Beams”, in Proc. HB'12, Beijing, China, Sep. 2012, paper WEO1B01, pp. 381-385. 
[n]	K. Noda et al., “HIMAC and New Facility Design for Wide Spread Use of Carbon Cancer Therapy”, in Proc. APAC'04, Gyeongju, Korea, Mar. 2004, paper THA201, pp. XX-XX. 
[n]	S. D. Walker et al., “A Holistic Approach to Simulating Beam Losses in the Large Hadron Collider Using BDSIM”, in Proc. ICAP'18, Key West, Florida, USA, Oct. 2018, pp. 221-226. doi:10.18429/JACoW-ICAP2018-TUPAF15
[n]	W. J. D. Johnson and W. E. Stein, “Dual Klystron Modulator”, in Proc. LINAC'90, Albuquerque, NM, USA, Sep. 1990, paper MO464, pp. 229-231. 
[n]	T. Furukawa et al., “Recent Improvement of Slow-extraction at HIMAC Synchrotron”, in Proc. EPAC'04, Lucerne, Switzerland, Jul. 2004, paper THOBLH01, pp. 267-269. 
[n]	M. Otani et al., “Development of Muon LINAC for the Muon g-2/EDM Experiment at J-PARC”, in Proc. IPAC'16, Busan, Korea, May 2016, pp. 1543-1546. doi:10.18429/JACoW-IPAC2016-TUPMY003
[n]	M. K. Craddock and Y.-N. Rao, “Cyclotron and FFAG Studies Using Cyclotron Codes”, in Proc. Cyclotrons'10, Lanzhou, China, Sep. 2010, paper THA1CCO04, pp. 395-397. 
[n]	W. Shields, A. Finn, P. Karataev, R. Bartolini, I. P. S. Martin, and G. Rehm, “Longitudinal Beam Profile Measurements of the Microbunching Instability”, in Proc. IPAC'14, Dresden, Germany, Jun. 2014, pp. 3706-3708. doi:10.18429/JACoW-IPAC2014-THPME183
[n]	K. Hanke et al., “Study of an Energy Upgrade of the CERN PS Booster”, in Proc. IPAC'11, San Sebastian, Spain, Sep. 2011, paper WEPS020, pp. 2526-2528. 
[n]	M. La China, J. Garcia Perez, G. Gubello, C. Hauviller, W. Scandale, and E. Todesco, “Geometrical Position of the Large Hadron Collider Main Dipole inside the Cryostat”, in Proc. EPAC'02, Paris, France, Jun. 2002, paper MOPLE027, pp. 2409-2411. 
[n]	O. S. Melnychuk, R. V. Pilipenko, Y. M. Pischalnikov, W. Schappert, and D. A. Sergatskov, “Phase Method of Measuring Cavity Quality Factor”, in Proc. IPAC'14, Dresden, Germany, Jun. 2014, pp. 2604-2607. doi:10.18429/JACoW-IPAC2014-WEPRI053
[n]	N. Hayashi et al., “Injection Energy Recovery of J-PARC RCS”, in Proc. IPAC'11, San Sebastian, Spain, Sep. 2011, paper WEPS096, pp. 2730-2732. 
[n]	C. Charrondi?¿re, A. Rijllart, M. Bajko, J. G. Perez, E. Gorskaia, and G. Koltin, “Magnetic Axis and Geometric Measurement for the LHC Cryomagnet”, in Proc. ICALEPCS'03, Gyeongju, Korea, Oct. 2003, paper WP575, pp. XX-XX. 
[n]	C. E. Reece, A. D. Palczewski, and B. P. Xiao, “An Analysis of the Temperature and Field Dependence of the RF Surface Resistance of Nitrogen-Doped Niobium SRF Cavities with Respect to Existing Theoretical Models”, in Proc. IPAC'15, Richmond, VA, USA, May 2015, pp. 3532-3535. doi:10.18429/JACoW-IPAC2015-WEPWI021
[n]	M. M. Rihaoui, D. Mihalcea, P. Piot, W. Gai, and J. G. Power, “Single-Shot Longitudinal Phase Space Measurement Diagnostics Beamline Status at the Argonne Wakefield Accelerator”, in Proc. PAC'11, New York, NY, USA, Mar.-Apr. 2011, paper WEP196, pp. 1858-1860. 
[n]	F. Schillaci et al., “Commissioning of the ELIMED Line: challenges in the selection and extraction of a laser-driven beam”, presented at the IPAC'26, Deauville, France, May 2026, paper TUP3077, unpublished. 

For LaTeX

Use Complete Form

For BibTeX

References

Back to search