AWAKE-UK 2014-2015 bridging request

AWAKE-UK 2014-2015 过渡请求

基本信息

批准号：
ST/M006549/1
负责人：
Dino Anthony Jaroszynski
金额：
$ 0.62万
依托单位：
University of Strathclyde
依托单位国家：
英国
项目类别：
Research Grant
财政年份：
2014
资助国家：
英国
起止时间：
2014 至无数据
项目状态：
已结题

来源：
https://gtr.ukri.org/projects?ref=ST%2FM006549%2F1
关键词：
AWAKE UK 2014 2015 bridging

项目摘要

The AWAKE project at CERN aims to demonstrate proton-driven plasma wakefield accelertaion for the first time. This will be carried out using the SPS proton beam in the CNGS facility. A wakefield will be excited in a plasma column which the modulates the current of the proton beam splitting it up into micro-bunches. These constructively interfere to create a high amplitude wakefield that will accelerate injected electrons from 15 MeV to 2 GeV in 6 m of plasma. The understanding of the self-modulation process, the development of long, scalable and uniform plasma cells and the development of schemes for production and acceleration of short proton bunches could lead to a future stage of AWAKE in which electrons are accelerated to 100 GeV in 100 m of plasma. Application of this technology to high-energy particle facilities such as a future linear collider, LHeC, or a fixed-target and test-beam facility is the ultimate goal.

CERN的清醒项目旨在首次展示质子驱动的等离子体韦克菲尔德·阿斯卡翁。这将使用CNGS设施中的SPS质子束进行。韦克菲尔德将在血浆柱中激发，该等离子柱将其调节质子束的电流将其拆分为微捆。这些建设性的干扰会产生一个高振幅韦克菲尔德，该尾矿将在6 m的血浆中加速从15 meV升至2 GEV的电子。对自我调制过程的理解，长，可扩展和均匀的浆细胞的发展以及用于生产和加速短质子束的方案的发展可能会导致未来的清醒阶段，在100 m的血浆中电子将电子加速至100 GEV。将该技术应用于高能粒子设施，例如未来的线性对撞机，LHEC或固定目标和测试束设施，是最终目标。

项目成果

期刊论文数量（1）

专著数量（0）

科研奖励数量（0）

会议论文数量（0）

专利数量（0）

Proton-driven plasma wakefield acceleration: a path to the future of high-energy particle physics

DOI：
10.1088/0741-3335/56/8/084013
发表时间：
2014-01
期刊：
Plasma Physics and Controlled Fusion
影响因子：
2.2
作者：
R. Assmann;R. Bingham;R. Bingham;T. Bohl;C. Bracco;B. Buttenschön;A. Butterworth;A. Caldwell;S. Chattopadhyay;S. Cipiccia;S. Cipiccia;E. Feldbaumer;R. Fonseca;R. Fonseca;B. Goddard;M. Gross;O. Grulke;E. Gschwendtner;J. Holloway;J. Holloway;Chengkun Huang;D. Jaroszynski;S. Jolly;P. Kempkes;N. Lopes;N. Lopes;K. Lotov;K. Lotov;J. Machacek;S. Mandry;S. Mandry;J. Mckenzie;M. Meddahi;B. Militsyn;N. Moschuering;P. Muggli;Z. Najmudin;T. Noakes;P. Norreys;P. Norreys;E. Öz;A. Pardons;A. Petrenko;A. Petrenko;A. Pukhov;K. Rieger;O. Reimann;H. Ruhl;E. Shaposhnikova;Luís O. Silva;A. Sosedkin;A. Sosedkin;R. Tarkeshian;R. Trines;T. Tückmantel;J. Vieira;J. Vieira;H. Vincke;M. Wing;G. Xia
通讯作者：
R. Assmann;R. Bingham;R. Bingham;T. Bohl;C. Bracco;B. Buttenschön;A. Butterworth;A. Caldwell;S. Chattopadhyay;S. Cipiccia;S. Cipiccia;E. Feldbaumer;R. Fonseca;R. Fonseca;B. Goddard;M. Gross;O. Grulke;E. Gschwendtner;J. Holloway;J. Holloway;Chengkun Huang;D. Jaroszynski;S. Jolly;P. Kempkes;N. Lopes;N. Lopes;K. Lotov;K. Lotov;J. Machacek;S. Mandry;S. Mandry;J. Mckenzie;M. Meddahi;B. Militsyn;N. Moschuering;P. Muggli;Z. Najmudin;T. Noakes;P. Norreys;P. Norreys;E. Öz;A. Pardons;A. Petrenko;A. Petrenko;A. Pukhov;K. Rieger;O. Reimann;H. Ruhl;E. Shaposhnikova;Luís O. Silva;A. Sosedkin;A. Sosedkin;R. Tarkeshian;R. Trines;T. Tückmantel;J. Vieira;J. Vieira;H. Vincke;M. Wing;G. Xia