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High Current Energy Recovery Linac at BNL
By: Litvinenko, V.N.; Ben-Zvi, I.; Preble, J.; Phillips, L.; Funk, W.; Delayen, J.; Todd, A.; Schultheiss, T.; Rathke, J.; Holmes, D.; Favale, A.; Cole, M.; Burger, A.; Beavis, D.; Blaskiewicz, M.; Brennan, J.M.; Burrill, A.; Calaga, R.; Cameron, P.; Chang, X.; Connolly, R.; Gassner, D.M.; Hahn, H.; Hershcovitch, A.; Hseuh, H.-C.; Johnson, P.D.; Kayran, D.; Kewisch, J.; Lambiase, R.; Mahler, G.; McIntyre, G.; Meng, W.; Nehring, T.C.; Nicoletti, A.; Oerter, B.; Pate, D.; Rank, J.; Roser, T.; Russo, T.; Scaduto, J.; Smith, K.S.; Srinivasan-Rao, T.; Williams, N.W.; Wu, K.-C.; Yakimenko, V.; Yip, K.; Zaltsman, A.; Zhao, Y.; Bluem, H.P.;
2005 / IEEE / 0-7803-8859-3
This item was taken from the IEEE Conference ' High Current Energy Recovery Linac at BNL ' We present the design and parameters of an energy recovery linac (ERL) facility, which is under construction in the Collider-Accelerator Department at BNL. This R&D facility has the goal of demonstrating CW operation of an ERL with an average beam current in the range of 0.1 - 1 ampere and with very high efficiency of energy recovery. The possibility of a future upgrade to a two-pass ERL is also being considered. The heart of the facility is a 5-cell 703.75 MHz super-conducting RF linac with strong Higher Order Mode (HOM) damping. The flexible lattice of the ERL provides a test-bed for exploring issues of transverse and longitudinal instabilities and diagnostics of intense CW electron beams. This ERL is also perfectly suited for a far-IR FEL. We present the status and plans for construction and commissioning of this facility.