Paper | Title | Page |
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MOPG024 | Conceptual Design of a High Precision Dual Directional Beam Position Monitoring System for Beam Crosstalk Cancellation and Improved Output Pulse Shapes | 83 |
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Funding: Work supported by Brookhaven Science Associates, LLC under contract No. DE-AC02-98CH10886 with the U.S. Department of Energy. The Relativistic Heavy Ions Collider (RHIC) would benefit from improved beam position measurements near the interaction points that see both beams, especially as the tolerances become tighter when reducing the beam sizes to obtain increased luminosity. Two limitations of the present beam position monitors (BPMs) would be mitigated if the proposed approach is successful. The small but unavoidable cross-talk between signals from bunches traveling in opposite directions when using conventional BPMs will be reduced by adopting directional BPMs. Further improvements will be achieved by cancelling residual cross-talk using pairs of such BPMs. Appropriately delayed addition and integration of the signals will also provide pulses with relatively flat maxima that will be easier to digitize by relaxing the presently very stringent timing requirements. |
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Poster MOPG024 [0.959 MB] | |
MOPG026 | A Wire Scanner System for Characterizing the BNL Energy Recovery Linac Beam Position Monitor System | 89 |
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A stepper motor controlled wire scanner assembly has recently been modified to support testing of the Brookhaven National Laboratory (BNL) Collider-Accelerator departments Energy Recovery Linac (ERL) beam position monitor (BPM) system. The ERL BPM consists of 4 9.33mm diameter buttons mounted at 90 degree spacing in a cube with 1.875 inside diameter. The buttons were designed by BNL and fabricated by Times Microwave Systems. Libera single pass BPM electronic modules, manufactured by Instrumentation Technologies, will be used to measure the X and Y transverse beam positions at 14 locations around the ERL. The wire scanner assembly provides the ability to measure the BPM button response to a pulsed wire, and evaluate and calibrate the Libera position measurement electronics. A description of the wire scanner system and test result data will be presented.
Work supported by Brookhaven Science Associates, LLC under contract No. DE-AC02-98CH10886 with the U.S. Department of Energy. |
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WEAP01 | Coherent Electron Cooling Proof of Principle Instrumentation Design | 231 |
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Funding: US DOE The goal of the Coherent Electron Cooling Proof-of-Principle experiment being designed at RHIC is to demonstrate longitudinal (energy spread) cooling before the expected CD-2 for eRHIC. The scope of the experiment is to cool longitudinally a single bunch of 40GeV/u Au ions in RHIC. This paper will describe the instrumentation systems proposed to meet the diagnostics challenges. These include measurements of beam intensity, emittance, energy spread, bunch length, position, orbit stability, and transverse and temporal alignment of electron and ion beams. |
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