Normal-Conducting High Current RF Photoinjector for High Power CW FEL

An RF photoinjector capable of producing high average current with low emittance and energy spread is a key enabling technology for high power CW FEL. The design of a 2.5-cell, -mode, 700-MHz normal-conducting RF photoinjector cavity with magnetic emittance compensation is completed. With average gr...

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Hauptverfasser:	Kurennoy, S.S., Nguyen, D.C., Schrage, D.L., Wood, R.L., Schultheiss, T., Christina, V., Rathke, J., Young, L.M.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Acceleration Cooling Couplers Design optimization Electromagnetic modeling Electromagnetic waveguides Electron beams Iris Radio frequency Thermal stresses
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creator	Kurennoy, S.S. Nguyen, D.C. Schrage, D.L. Wood, R.L. Schultheiss, T. Christina, V. Rathke, J. Young, L.M.
description	An RF photoinjector capable of producing high average current with low emittance and energy spread is a key enabling technology for high power CW FEL. The design of a 2.5-cell, -mode, 700-MHz normal-conducting RF photoinjector cavity with magnetic emittance compensation is completed. With average gradients of 7, 7, and 5 MV/m in its three accelerating cells, the photoinjector will produce a 2.5-MeV electron beam with 3-nC charge per bunch and transverse rms emittance below 7 mm-mrad. Electromagnetic modeling has been used extensively to optimize ridge-loaded tapered waveguides and RF couplers, and led to a new, improved coupler iris design. The results, combined with a thermal and stress analysis, show that the challenging problem of cavity cooling can be successfully solved. Fabrication of a demo 100-mA (at 35 MHz bunch repetition rate) photoinjector is underway. The design is scalable to higher average currents by increasing the electron bunch repetition rate, and provides a path to a MW-class FEL. This paper presents the cavity design and details of RF coupler modeling.
doi_str_mv	10.1109/PAC.2005.1591296
format	Conference Proceeding
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The design of a 2.5-cell, -mode, 700-MHz normal-conducting RF photoinjector cavity with magnetic emittance compensation is completed. With average gradients of 7, 7, and 5 MV/m in its three accelerating cells, the photoinjector will produce a 2.5-MeV electron beam with 3-nC charge per bunch and transverse rms emittance below 7 mm-mrad. Electromagnetic modeling has been used extensively to optimize ridge-loaded tapered waveguides and RF couplers, and led to a new, improved coupler iris design. The results, combined with a thermal and stress analysis, show that the challenging problem of cavity cooling can be successfully solved. Fabrication of a demo 100-mA (at 35 MHz bunch repetition rate) photoinjector is underway. The design is scalable to higher average currents by increasing the electron bunch repetition rate, and provides a path to a MW-class FEL. This paper presents the cavity design and details of RF coupler modeling.</abstract><pub>IEEE</pub><doi>10.1109/PAC.2005.1591296</doi><tpages>3</tpages></addata></record>
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subjects	Acceleration Cooling Couplers Design optimization Electromagnetic modeling Electromagnetic waveguides Electron beams Iris Radio frequency Thermal stresses
title	Normal-Conducting High Current RF Photoinjector for High Power CW FEL
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