Development of an intense positron source using a crystal-amorphous hybrid target for linear colliders
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O. Dadoun | J. Urakawa | Kazuro Furukawa | T. Suwada | R. Chehab | Tohru Takahashi | T. Omori | T. Kamitani | V. Strakhovenko | A. Variola | K. Umemori | Y. Uesugi | T. Akagi | M. Satoh | S. Kawada
[1] Daniel Schulte,et al. A Multi-TeV linear collider based on CLIC technology : CLIC Conceptual Design Report , 2012 .
[2] X. Artru,et al. Polarized and unpolarized positron sources for electron–positron colliders , 2008 .
[3] S. Burdin,et al. Summary of experimental studies, at CERN, on a positron source using crystal effects , 2005, physics/0506016.
[4] Y. Ogawa,et al. Measurement of positron production efficiency from a tungsten monocrystalline target using 4- and 8-GeV electrons. , 2003, Physical review. E, Statistical, nonlinear, and soft matter physics.
[5] S. Burdin,et al. Experimental Study of a Crystal Positron Source , 2002 .
[6] V. Verzilov,et al. Positron Production in Tungsten Crystals by 1.2-GeV Channeling Electrons , 1998 .
[7] Y. Chesnokov,et al. Crystal Channeling and Its Application at High-Energy Accelerators , 1997 .
[8] A. Xavier. A simulation code for channeling radiation by ultrarelativistic electrons or positrons , 1990 .
[9] M. Kumakhov. On the theory of electromagnetic radiation of charged particles in a crystal , 1976 .
[10] H. Vaidya. The spin-spin correlation functions and susceptibility amplitudes for the two-dimensional Ising model; triangular lattice , 1976 .