J. Rathke
AES Corporation
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Featured researches published by J. Rathke.
Proceedings of the 2005 Particle Accelerator Conference | 2005
Vladimir N. Litvinenko; I. Ben-Zvi; D. Beavis; M. Blaskiewicz; J.M. Brennan; A. Burrill; R. Calaga; P. Cameron; Xiangyun Chang; R. Connolly; D. Gassner; H. Hahn; A. Hershcovitch; H.C. Hseuh; P. Johnson; D. Kayran; J. Kewisch; R. Lambiase; G. Mahler; G. McIntyre; W. Meng; T. Nehring; A. Nicoletti; B. Oerter; D. Pate; J. Rank; T. Roser; T. Russo; J. Scaduto; K. Smith
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.
Proceedings of the 2005 Particle Accelerator Conference | 2005
I. Ben-Zvi; Vladimir N. Litvinenko; D. Barton; D. Beavis; M. Blaskiewicz; Joseph Brennan; A. Burrill; R. Calaga; P. Cameron; Xiangyun Chang; R. Connolly; Y. Eidelman; A. Fedotov; W. Fischer; D. Gassner; H. Hahn; M. Harrison; A. Hershcovitch; H.-C. Hseuh; A. Jain; P. Johnson; D. Kayran; J. Kewisch; R. Lambiase; W. W. MacKay; G. Mahler; N. Malitsky; G. McIntyre; W. Meng; K.A.M. Mirabella
We report progress on the R&D program for electron-cooling of the Relativistic Heavy Ion Collider (RHIC). This electron cooler is designed to cool 100 GeV/nucleon at storage energy using 54 MeV electrons. The electron source will be a superconducting RF photocathode gun. The accelerator will be a superconducting energy recovery linac. The frequency of the accelerator is set at 703.75 MHz. The maximum electron bunch frequency is 9.38 MHz, with bunch charge of 20 nC. The R&D program has the following components: The photoinjector and its photocathode, the superconducting linac cavity, start-to-end beam dynamics with magnetized electrons, electron cooling calculations including benchmarking experiments and development of a large superconducting solenoid. The photoinjector and linac cavity are being incorporated into an energy recovery linac aimed at demonstrating ampere class current at about 20 MeV.
Proceedings of the 2005 Particle Accelerator Conference | 2005
I. Ben-Zvi; D. Barton; D. Beavis; M. Blaskiewicz; J.M. Brennan; A. Burrill; R. Calaga; P. Cameron; Xiangyun Chang; R. Connolly; D. Gassner; J. Grimes; H. Hahn; A. Hershcovitch; H.C. Hseuh; P. Johnson; D. Kayran; J. Kewisch; R. Lambiase; Vladimir N. Litvinenko; G. McIntyre; W. Meng; T. Nehring; A. Nicoletti; D. Pate; B. Oerter; J. Rank; T. Rao; T. Roser; T. Russo
Next generation light-sources, electron coolers, high-power FELs, Compton X-ray sources and many other accelerators were made possible by the emerging technology of high-power, high-brightness electron beams. In order to get the anticipated performance level of ampere-class currents, many technological barriers are yet to be broken. BNL’s Collider-Accelerator Department is pursuing some of these technologies for its electron cooling of RHIC application, as well as a possible future electron-hadron collider. We will describe work on CW, high-current and high-brightness electron beams. This will include a description of a superconducting, laser-photocathode RF gun and an accelerator cavity capable of producing low emittance (about 1 micron rms normalized) one nano-Coulomb bunches at currents of the order of one ampere average.
ieee particle accelerator conference | 2007
I. Ben-Zvi; J. Alduino; D. Barton; D. Beavis; M. Blaskiewicz; J.M. Brennan; A. Burrill; R. Calaga; P. Cameron; Xiangyun Chang; A. Drees; A. Fedotov; W. Fischer; G. Ganetis; D. Gassner; J. Grimes; H. Hahn; Lee Hammons; A. Hershcovitch; H.C. Hseuh; D. Kayran; J. Kewisch; R. Lambiase; D. Lederle; Vladimir N. Litvinenko; C. Longo; W. W. MacKay; G. Mahler; G. Mclntyre; W. Meng
The physics interest in a luminosity upgrade of RHIC requires the development of a cooling-frontier facility. Detailed calculations were made of electron cooling of the stored RHIC beams. This has been followed by beam dynamics simulations to establish the feasibility of creating the necessary electron beam. The electron beam accelerator will be a superconducting Energy Recovery Linac (ERL). An intensive experimental R&D program engages the various elements of the accelerator, as described by 24 contributions to the 2007 PAC.
Proceedings of the 2005 Particle Accelerator Conference | 2005
J. Rathke; A. Ambrosio; M. Cole; E. Peterson; T. Schultheiss; H. Bluem; A.M.M. Todd; I. Campisi; E. Daly; J. Hogan; J. Mammosser; G.R. Neil; J. Preble; R. Rimmer; C. Rode; Jacek Sekutowicz; T. Whitlatch; M. Wiseman
Advanced Energy Systems has recently completed the design of a four cavity cryomodule for use as an FEL injector accelerator on the JLAB Injector Test Stand. Fabrication is nearing completion. Four 748.5 MHz single cell superconducting cavities have been completed and are currently at Jefferson Lab for final processing and test prior to integration in the module. This paper will review the design and fabrication of the cavities and cryomodule.
ieee particle accelerator conference | 2007
Vladimir N. Litvinenko; J. Alduino; D. Beavis; I. Ben-Zvi; M. Blaskiewicz; Joseph Brennan; A. Burrill; R. Calaga; P.R. Cameron; Xiangyun Chang; A. Drees; G. Ganetis; D.M. Gassner; J. Grimes; H. Hahn; L.R. Hammons; A. Hershcovitch; Hsiao-Chaun Hseuh; A.K. Jain; D. Kayran; J. Kewisch; R. Lambiase; D. Lederle; C. Longo; G. Mahler; G. Mclntyre; Wuzheng Meng; T. Nehring; B. Oerter; Chien Pai
In this paper we present status and plans for the 20- MeV R&D energy recovery linac (ERL), which is under construction at Collider Accelerator Department at BNL. The facility is based on high current (up to 0.5 A of average current) super-conducting 2.5 MeV RF gun,single-mode super-conducting 5-cell RF linac and about 20-m long return loop with very flexible lattice. The R&D ERL, which is planned for commissioning in early 2009, aims to address many outstanding questions relevant for high current, high brightness energy-recovery linacs.
11th Biennial European Particle Accelerator Conference (EPAC 2008); Genoa, Italy; 20080623 through 20080627 | 2008
D. Beavis; I. Ben-Zvi; M. Blaskiewicz; A. Burrill; R. Calaga; P. Cameron; Xiangyun Chang; A. Drees; G. Ganetis; D. Gassner; H. Hahn; Lee Hammons; A. Hershcovitch; H-C. Hseuh; A. Jain; D. Kayran; J. Kewisch; R. Lambiase; D. Lederle; G. Mahler; G. McIntyre; W. Meng; T. Nehring; B. Oerter; C. Pai; D. Pate; D. Phillips; E. Pozdeyev; T. Rao; J. Reich
24th International Linear Accelerator Conference, LINAC 2008 | 2009
D. Kayran; D. Beavis; I. Ben-Zvi; M. Blaskiewicz; J.M. Brennan; A. Burrill; R. Calaga; P. Cameron; Xiangyun Chang; A. Drees; G. Ganetis; D. Gassner; J. Grimes; H. Hahn; Lee Hammons; A. Hershcovitch; H.C. Hseuh; A. Jain; R. Lambiase; D. Lederle; Vladimir N. Litvinenko; G. Mahler; G. McIntyre; W. Meng; T. Nehring; B. Oerter; C. Pai; D. Pate; D. Phillips; E. Pozdeyev
20th Russian Conference on Charged Particle Accelerators, RuPAC 2006 | 2006
D. Kayran; I. Ben-Zvi; D. Barton; D. Beavis; M. Blaskiewicz; J.M. Brennan; A. Burrill; R. Calaga; P. Cameron; Xiangyun Chang; R. Connolly; D. Gassner; H. Hahn; A. Hershcovitch; H.C. Hseuh; P. D. Johnson; J. Kewisch; R. Lambiase; Vladimir N. Litvinenko; W. Meng; G. McIntyre; T. Nehring; A. Nicoletti; D. Pate; J. Rank; T. Roser; T. Russo; J. Scaduto; K. Smith; T. Srinivasan-Rao
Prepared for | 2005
I. Ben-Zvi; N. Malitsky; A. Fedotov; A. Favale; L. Merminga; A. Smirnov; T. Russo; G. Wang; Ya. Derbenev; Jean Delayen; Cole; Y. Zhao; A. Hershcovitch; T. Schultheiss; D.T. Abell; P.R. Johnson; C. Montag; Alexey V. Burov; K.A.M. Mirabella; H.L. Phillips; R. Lambiase; A. Sidorin; R. Connolly; J. Scaduto; D. Beavis; A. Burger; Jacek Sekutowicz; R. Calaga; D. Kayran; Yu.M. Shatunov