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Studies of proton driven plasma Wake...

Li, Yangmei.

Studies of proton driven plasma Wakefield acceleration

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	Studies of proton driven plasma Wakefield accelerationby Yangmei Li.
作者:	Li, Yangmei.
出版者:	Cham :Springer International Publishing :2020.
面頁冊數:	xx, 125 p. :ill., digital ;24 cm.
Contained By:	Springer Nature eBook
標題:	Particle acceleration.
電子資源:	https://doi.org/10.1007/978-3-030-50116-7
ISBN:	9783030501167$q(electronic bk.)

Studies of proton driven plasma Wakefield acceleration
Li, Yangmei.

Studies of proton driven plasma Wakefield acceleration[electronic resource] /by Yangmei Li. - Cham :Springer International Publishing :2020. - xx, 125 p. :ill., digital ;24 cm. - Springer theses,2190-5053. - Springer theses..

Introduction -- Physics of Plasma Wake_Eld Acceleration in Uniform Plasma -- High Quality Electron Bunch Generation in a Single Proton Bunch Driven Hollow Plasma Wake_Eld Accelerator -- Multiple Proton Bunch Driven Hollow Plasma Wake_Eld Acceleration in Nonlinear Regime -- High-quality Positrons From a Multi-Proton Bunch Driven Hollow Plasma Wake_Eld Accelerator -- Assessment of Misalignment Induced E_Ects IN Proton Driven Hollow Plasma Wake_Eld Acceleration -- Self-Modulated Long Proton Bunch Driven Plasma Wake_Eld Acceleration -- Conclusions and Outlooks.

This thesis focuses on a cutting-edge area of research, which is aligned with CERN's mainstream research, the "AWAKE" project, dedicated to proving the capability of accelerating particles to the energy frontier by the high energy proton beam. The author participated in this project and has advanced the plasma wakefield theory and modelling significantly, especially concerning future plasma acceleration based collider design. The thesis addresses electron beam acceleration to high energy whilst preserving its high quality driven by a single short proton bunch in hollow plasma. It also demonstrates stable deceleration of multiple proton bunches in a nonlinear regime with strong resonant wakefield excitation in hollow plasma, and generation of high energy and high quality electron or positron bunches. Further work includes the assessment of transverse instabilities induced by misaligned beams in hollow plasma and enhancement of the wakefield amplitude driven by a self-modulated long proton bunch with a tapered plasma. This work has major potential to impact the next generation of linear colliders and also in the long-term may help develop compact accelerators for use in industrial and medical facilities.

ISBN: 9783030501167$q(electronic bk.)

Standard No.: 10.1007/978-3-030-50116-7doiSubjects--Topical Terms:

286001
Particle acceleration.

LC Class. No.: QC787.P3 / L593 2020

Dewey Class. No.: 539.73

Studies of proton driven plasma Wakefield acceleration
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505 0 $a Introduction -- Physics of Plasma Wake_Eld Acceleration in Uniform Plasma -- High Quality Electron Bunch Generation in a Single Proton Bunch Driven Hollow Plasma Wake_Eld Accelerator -- Multiple Proton Bunch Driven Hollow Plasma Wake_Eld Acceleration in Nonlinear Regime -- High-quality Positrons From a Multi-Proton Bunch Driven Hollow Plasma Wake_Eld Accelerator -- Assessment of Misalignment Induced E_Ects IN Proton Driven Hollow Plasma Wake_Eld Acceleration -- Self-Modulated Long Proton Bunch Driven Plasma Wake_Eld Acceleration -- Conclusions and Outlooks.
520 $a This thesis focuses on a cutting-edge area of research, which is aligned with CERN's mainstream research, the "AWAKE" project, dedicated to proving the capability of accelerating particles to the energy frontier by the high energy proton beam. The author participated in this project and has advanced the plasma wakefield theory and modelling significantly, especially concerning future plasma acceleration based collider design. The thesis addresses electron beam acceleration to high energy whilst preserving its high quality driven by a single short proton bunch in hollow plasma. It also demonstrates stable deceleration of multiple proton bunches in a nonlinear regime with strong resonant wakefield excitation in hollow plasma, and generation of high energy and high quality electron or positron bunches. Further work includes the assessment of transverse instabilities induced by misaligned beams in hollow plasma and enhancement of the wakefield amplitude driven by a self-modulated long proton bunch with a tapered plasma. This work has major potential to impact the next generation of linear colliders and also in the long-term may help develop compact accelerators for use in industrial and medical facilities.
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