R.D. Bundy scite author profile

R.D. Bundy

5Publications

20Citation Statements Received

3Citation Statements Given

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Affiliations

Thomas Jefferson National Accelerator Facility

Publications

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Superconducting prototype cavities for the Spallation Neutron Source (SNS) project

Ciovati

Kneisel

Brawley

et al.

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The Spallation Neutron Source project includes a superconducting linac section in the energy range from 186 MeV to 1000 MeV. For this energy range two types of cavities are needed with geometrical β values of β=0.61 and β=0.81. An aggressive cavity prototyping program is being pursued at Jefferson Lab, which calls for fabricating and testing four β=0.61 cavities and two β=0.81 cavities. Both types consist of six cells made from high purity niobium and feature one HOM coupler of the TESLA type on each beam pipe and a port for a high power coaxial input coupler. Three of the four β=0.61 cavities will be used for a cryomodule test at the end of 2001. Two cavities of each type have been fabricated and the first tests on both cavities exceeded the design values for gradient and Q value: E acc = 10.1 MV/m and Q = 5×10 9 at 2.1K for the β=0.61 and E acc = 12.5 MV/m and Q = 5×10 9 at 2.1 K for the β=0.81.

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Preliminary results from prototype niobium cavities for the JLAB Ampere-class FEL

Kneisel

Ciovati

Bundy

et al. 2007

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In a previous paper the cavity [1] design for an Ampere-class cryomodule was introduced. We have since fabricated a 1500 MHz version of a single cell cavity with waveguide couplers for HOM and fundamental power, attached to one end of the cavity, a 5-cell cavity made from large grain niobium without couplers and. a 750 MHz single cell cavity without endgroups to get some information about obtainable Q-values, gradients and multipacting behavior at lower frequency.This contribution reports on the various tests of these cavities.

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JLAB high-current CW cryomodules for ERL and FEL applications

Rimmer

Bundy

Cheng

et al. 2007

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We describe the activities underway at JLab to develop new CW cryomodules capable of transporting up to Ampere-levels of beam currents for use in ERLs and FELs. Goals include an efficient cell shape, high packing factor for efficient real-estate gradient and very strong HOM damping to push BBU thresholds up by two or more orders of magnitude compared to existing designs. Cavity shape, HOM damping and ancillary components are optimized for this application. Designs are being developed for low-frequency (750 MHz), Ampere-class compact FELs and for high-frequency (1.5 GHz), 100 mA configurations. These designs and concepts can easily be scaled to other frequencies. We present the results of conceptual design studies, simulations and prototype measurements. These modules are being developed for the next generation ERL based high power FELs but may be useful for other applications such as high energy light sources, electron cooling, electron-ion colliders, industrial processing etc.

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CEBAF Cryounit Loss of Vacuum Experiment

Wiseman

Bundy

Kelley

et al. 1991

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Cryobench — Apparatus for Testing CEBAF Cryogenic Subcomponents

Wiseman

Bundy

Guerra

et al. 1991

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R.D. Bundy

Superconducting prototype cavities for the Spallation Neutron Source (SNS) project

Preliminary results from prototype niobium cavities for the JLAB Ampere-class FEL

JLAB high-current CW cryomodules for ERL and FEL applications

CEBAF Cryounit Loss of Vacuum Experiment

Cryobench — Apparatus for Testing CEBAF Cryogenic Subcomponents

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