H. Pfeffer scite author profile

H. Pfeffer

5Publications

84Citation Statements Received

31Citation Statements Given

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Affiliations

Fermilab, Fermi Research Alliance, Cornell University

Publications

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Tevatron electron lenses: Design and operation

Shiltsev

Bishofberger

Kamerdzhiev

et al. 2008

Phys. Rev. ST Accel. Beams

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The beam-beam effects have been the dominating sources of beam loss and lifetime limitations in the Tevatron proton-antiproton collider [V. Shiltsev et al., Phys. Rev. ST Accel. Beams 8, 101001 (2005)]. Electron lenses were originally proposed for compensation of electromagnetic long-range and head-on beam-beam interactions of proton and antiproton beams [V. Shiltsev et al., Phys. Rev. ST Accel. Beams 2, 071001 (1999).]. Results of successful employment of two electron lenses built and installed in the Tevatron are reported by Shiltsev et al.

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Production and Quality Assurance of Main Busbar Interconnection Splices During the LHC 2008–2009 Shutdown

Bertinelli

Bottura

Dalin

et al. 2011

IEEE Trans. Appl. Supercond.

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A 6 kV arbitrary waveform generator for the Tevatron Electron Lens

Pfeffer¹,

Saewert²

2011

J. Inst.

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This paper reports on a 6 kV modulator built and installed at Fermilab to drive the electron gun anode for the Tevatron Electron Lens (TEL). The TEL was built with the intention of shifting the individual (anti)proton bunch tunes to even out the tune spread among all 36 bunches with the desire of improving Tevatron integrated luminosity. This modulator is essentially a 6 kV arbitrary waveform generator that enables the TEL to define the electron beam intensity on a bunch-by-bunch basis. A voltage waveform is constructed having a 7 μs duration that corresponds to the tune shift requirements of a 12-bunch (anti)proton beam pulse train. This waveform is played out for any one or all three bunch trains in the Tevatron. The programmed waveform voltages transition to different levels at time intervals corresponding to the 395 ns bunch spacing. Thus, complex voltage waveforms can be played out at a sustained rate of 143 kHz over the full 6 kV output range. This paper describes the novel design of the inductive adder topology employing five transformers. It describes the design aspects that minimize switching losses for this multi-kilovolt, high repetition rate and high duty factor application.

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Design Considerations of a Power Supply System for Fast Cycling Superconducting Accelerator Magnets of 2 Tesla B-Field Generated by a Conductor of 100 kA Current

Hays

Piekarz

Pfeffer

et al. 2008

IEEE Trans. Appl. Supercond.

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Abstract-Recently proposed fast cycling accelerators for proton drivers (SF-SPS, CERN and SF-MR, SF-BOOSTER, FNAL)neutrino sources require development of new magnet technology. In support of this magnet development a power supply system will need to be developed that can support the high current and high rate of power swing required by the fast cycling (1 sec rise and fall in the SF-MR, 5Hz in Booster). This paper will outline a design concept for a +/-2000 V and 100,000 A fast ramping power supply system. This power supply design is in support of a 6.44 km magnet system at 0.020 H and 330 m 5 Hz, 0.00534 H superconducting loads. The design description will include the layout and plan for extending the present FNAL Main Injector style ramping power supply to the higher currents needed for this operation. This will also include the design for a harmonic filter and power factor corrector that will be needed to control the large power swings caused by the fast cycle time. A conceptual design for the current regulation system and control will also be outlined. The power circuit design will include the bridge, filter and transformer plan based on existing designs.

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Commissioning of the second Tevatron Electron Lens and beam study results

Kamerdzhiev

Fellenz

Hively

et al. 2007

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H. Pfeffer

Tevatron electron lenses: Design and operation

Production and Quality Assurance of Main Busbar Interconnection Splices During the LHC 2008–2009 Shutdown

A 6 kV arbitrary waveform generator for the Tevatron Electron Lens

Design Considerations of a Power Supply System for Fast Cycling Superconducting Accelerator Magnets of 2 Tesla B-Field Generated by a Conductor of 100 kA Current

Commissioning of the second Tevatron Electron Lens and beam study results

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