Clearing Electrodes

P. McIntyre and A. Sattarov, Killing the electron cloud effect in the LHC arcs, CARE-Conf-05-007-HHH and PAC2005 Knoxville, Tennessee, USA, 1620 May 2005.

Electrical Properties of Porcelain Enamel

R.F. Welton, M.P. Stockli, Y. Kang, M. Janney, R. Keller, R.W. Thomae, T. Schenkel, S. Shukla, Ion Source Antenna Development for the Spallation Neutron Source, Review of Scientific Instruments 73, 2 (2006).

W. Bruns, Wake Potential of an Array of Thin Electrodes in a Beam Pipe, October 2006

C. Biscardi, H. Hseuh, M. Mapes, Application of porcelain enamel as an ultra-high vacuum comaptible electrical insulator, J. Vac. Sci. Technol. A 18(4), 1751 (2000)

Yu.P. Severgin, M.Z. Filimorov, Insulating and Metal-Ceramic Materials for Particle Accelerators, PAC1993

J. Liebault, D. Moya-Siesse, J. Bernadini, and G. Moya, Charge Trapping Characterization in the Thin Oxide Layer / Non-Conductive Substrate System, Surface and Interface Analysis, 2002, 34: 668

E.W. Hughes, C. Lim, W.D. Faust, Porcelain Enamel Substrates, reprinted from The International Enamelist, Dana Chase Publications , Inc., 1981

NEG & Air-Exposed Metals

N. Hilleret. C. Scheuerlein, M. Taborelli, The Secondary Electron Yield of Air-Exposed Metal Surfaces, Applied Physics A 76, 1085 (2003)

I. Bojko, N. Hilleret, C. Scheuerlein, Influence of Air Exposures and Thermal Treatments on the Secondary Electron Yield of Copper, J. Vac. Sci. Technol. A 18 (3) p. 972 (2000)

B. Henrist, N. Hilleret, C. Scheuerlein, M. Taborelli, The Secondary Electron Yield of TiZr and TiZrV Non-Evaporable Getter Thin Film Coatings, Applied Surface Science 172, 95 (2001).