Relevant bibliographies by topics / Microbunch

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  1. Journal articles

Academic literature on the topic 'Microbunch'

Author: Grafiati
Published: 14 March 2023

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Journal articles on the topic "Microbunch"

1

Adli, Erik, and Patric Muggli. "Proton-Beam-Driven Plasma Acceleration." Reviews of Accelerator Science and Technology 09 (January 2016): 85–104. http://dx.doi.org/10.1142/s1793626816300048.

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We describe the main ideas, promises and challenges related to proton-driven plasma wakefield acceleration. Existing high-energy proton beams have the potential to accelerate electron beams to the TeV scale in a single plasma stage. In order to drive a wake effectively the available beams must be either highly compressed or microbunched. The self-modulation instability has been suggested as a way to microbunch the proton beams. The AWAKE project at CERN is currently the only planned proton-driven plasma acceleration experiment. A self-modulated CERN SPS beam will be used to drive a plasma wake
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2

Schächter, Levi, and Wayne D. Kimura. "Quasi-monoenergetic ultrashort microbunch electron source." Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 875 (December 2017): 80–86. http://dx.doi.org/10.1016/j.nima.2017.08.041.

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3

Shields, W., R. Bartolini, G. Boorman, et al. "Microbunch Instability Observations from a THz Detector at Diamond Light Source." Journal of Physics: Conference Series 357 (May 3, 2012): 012037. http://dx.doi.org/10.1088/1742-6596/357/1/012037.

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4

Huang, Z., and T. Shaftan. "Impact of beam energy modulation on rf zero-phasing microbunch measurements." Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 528, no. 1-2 (2004): 345–49. http://dx.doi.org/10.1016/j.nima.2004.04.065.

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5

Carlsten, Bruce E., Kip A. Bishofberger, Leanne D. Duffy, John W. Lewellen, Quinn R. Marksteiner, and Nikolai A. Yampolsky. "Using Emittance Partitioning Instead of a Laser Heater to Suppress the Microbunch Instability." IEEE Transactions on Nuclear Science 63, no. 2 (2016): 921–29. http://dx.doi.org/10.1109/tns.2015.2498619.

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6

Petzoldt, J., K. E. Roemer, W. Enghardt, et al. "Characterization of the microbunch time structure of proton pencil beams at a clinical treatment facility." Physics in Medicine and Biology 61, no. 6 (2016): 2432–56. http://dx.doi.org/10.1088/0031-9155/61/6/2432.

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7

Kaufmann, Pierre, and Jean-Pierre Raulin. "Can microbunch instability on solar flare accelerated electron beams account for bright broadband coherent synchrotron microwaves?" Physics of Plasmas 13, no. 7 (2006): 070701. http://dx.doi.org/10.1063/1.2244526.

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8

Carlsten, Bruce E., Petr M. Anisimov, Cris W. Barnes, Quinn R. Marksteiner, River R. Robles, and Nikolai Yampolsky. "High-Brightness Beam Technology Development for a Future Dynamic Mesoscale Materials Science Capability." Instruments 3, no. 4 (2019): 52. http://dx.doi.org/10.3390/instruments3040052.

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A future capability in dynamic mesoscale materials science is needed to study the limitations of materials under irreversible and extreme conditions, where these limitations are caused by nonuniformities and defects in the mesoscale. This capability gap could potentially be closed with an X-ray free-electron laser (XFEL), producing 5 × 1010 photons with an energy of 42 keV, known as the Matter–Radiation Interactions in Extremes (MaRIE) XFEL. Over the last few years, researchers at the Los Alamos National Laboratory have developed a preconceptual design for a MaRIE-class XFEL based on existing
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9

Seo, Yoonho, and Wonhyung Lee. "Stimulated Superradiance Emitted from Periodic Microbunches of Electrons." Japanese Journal of Applied Physics 49, no. 11 (2010): 116402. http://dx.doi.org/10.1143/jjap.49.116402.

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10

Lumpkin, A. H. "Coherent optical transition radiation imaging for compact accelerator electron-beam diagnostics." International Journal of Modern Physics A 34, no. 34 (2019): 1943013. http://dx.doi.org/10.1142/s0217751x19430139.

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Application of coherent optical transition radiation (COTR) diagnostics to compact accelerators has been demonstrated for the laser-driven plasma accelerator case recently. It is proposed that such diagnostics for beam size, beam divergence, microbunching fraction, spectral content, and bunch length would be useful before and after any subsequent acceleration in crystals or nanostructures. In addition, there are indications that under some scenarios a microbunched beam could resonantly excite wake fields in nanostructures that might lead to an increased acceleration gradient.
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