37 research outputs found
Progress with PXIE MEBT Chopper
A capability to provide a large variety of bunch patterns is crucial for the
concept of the Project X serving MW-range beam to several experiments
simultaneously. This capability will be realized by the Medium Energy Beam
Transport's (MEBT) chopping system that will divert 80% of all bunches of the
initially 5mA, 2.1 MeV CW 162.5 MHz beam to an absorber according to a
pre-programmed bunch-by-bunch selection. Being considered one of the most
challenging components, the chopping system will be tested at the Project X
Injector Experiment (PXIE) facility that will be built at Fermilab as a
prototype of the Project X front end. The bunch deflection will be made by two
identical sets of travelling-wave kickers working in sync. Currently, two
versions of the kickers are being investigated: a helical 200 Ohm structure
with a switching-type 500 V driver and a planar 50 Ohm structure with a linear
250 V amplifier. This paper will describe the chopping system scheme and
functional specifications for the kickers, present results of electromagnetic
measurements of the models, discuss possible driver schemes, and show a
conceptual mechanical design.Comment: 3 pp. 3rd International Particle Accelerator Conference (IPAC 2012)
20-25 May 2012. New Orleans, Louisian
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Analog signal pre-processing for the Fermilab Main Injector BPM upgrade
An analog signal pre-processing scheme was developed, in the framework of the Fermilab Main Injector Beam Position Monitor (BPM) Upgrade, to interface BPM pickup signals to the new digital receiver based read-out system. A key component is the 8-channel electronics module, which uses separate frequency selective gain stages to acquire 53 MHz bunched proton, and 2.5 MHz anti-proton signals. Related hardware includes a filter and combiner box to sum pickup electrode signals in the tunnel. A controller module allows local/remote control of gain settings and activation of gain stages, and supplies test signals. Theory of operation, system overview, and some design details are presented, as well as first beam measurements of the prototype hardware
Beam halo dynamics and control with hollow electron beams
Experimental measurements of beam halo diffusion dynamics with collimator
scans are reviewed. The concept of halo control with a hollow electron beam
collimator, its demonstration at the Tevatron, and its possible applications at
the LHC are discussed.Comment: 5 pages, 4 figures, in Proceedings of the 52nd ICFA Advanced Beam
Dynamics Workshop on High-Intensity and High-Brightness Hadron Beams
(HB2012), Beijing, China, 17-21 September 201
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Recent Experience with Electron Lens Beam-Beam Compensation at the Tevatron
Tevatron Electron Lenses (TEL) have reliably demonstrated correction of the bunch-to-bunch tune shift induced by long-range beam-beam interactions. With the commissioning of the new high voltage modulator that became operational in 2008, the electron beam can be pulsed on every bunch of the Tevatron beam. We report on the recent results of beam-beam compensation studies in the high luminosity regime