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The AWAKE Run 2 Programme and Beyond †. / AWAKE Collaboration.

в: Symmetry, Том 14, № 8, 1680, 08.2022.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

AWAKE Collaboration 2022, 'The AWAKE Run 2 Programme and Beyond †', Symmetry, Том. 14, № 8, 1680. https://doi.org/10.3390/sym14081680

APA

AWAKE Collaboration (2022). The AWAKE Run 2 Programme and Beyond †. Symmetry, 14(8), [1680]. https://doi.org/10.3390/sym14081680

Vancouver

AWAKE Collaboration. The AWAKE Run 2 Programme and Beyond †. Symmetry. 2022 авг.;14(8):1680. doi: 10.3390/sym14081680

Author

AWAKE Collaboration. / The AWAKE Run 2 Programme and Beyond †. в: Symmetry. 2022 ; Том 14, № 8.

BibTeX

@article{2147f1b635ee427d89c1f53f46af168f,
title = "The AWAKE Run 2 Programme and Beyond †",
abstract = "Plasma wakefield acceleration is a promising technology to reduce the size of particle accelerators. The use of high energy protons to drive wakefields in plasma has been demonstrated during Run 1 of the AWAKE programme at CERN. Protons of energy 400 GeV drove wakefields that accelerated electrons to 2 GeV in under 10 m of plasma. The AWAKE collaboration is now embarking on Run 2 with the main aims to demonstrate stable accelerating gradients of 0.5–1 GV/m, preserve emittance of the electron bunches during acceleration and develop plasma sources scalable to 100s of metres and beyond. By the end of Run 2, the AWAKE scheme should be able to provide electron beams for particle physics experiments and several possible experiments have already been evaluated. This article summarises the programme of AWAKE Run 2 and how it will be achieved as well as the possible application of the AWAKE scheme to novel particle physics experiments.",
keywords = "AWAKE, dark photons, electron–proton physics, proton-driven plasma wakefield acceleration, strong-field QED",
author = "{(AWAKE Collaboration)} and Edda Gschwendtner and Konstantin Lotov and Patric Muggli and Matthew Wing and Riccardo Agnello and Ahdida, {Claudia Christina} and {Amoedo Goncalves}, {Maria Carolina} and Yanis Andrebe and Oznur Apsimon and Robert Apsimon and Arnesano, {Jordan Matias} and Bachmann, {Anna Maria} and Diego Barrientos and Fabian Batsch and Vittorio Bencini and Michele Bergamaschi and Patrick Blanchard and Burrows, {Philip Nicholas} and Birger Buttensch{\"o}n and Allen Caldwell and James Chappell and Eric Chevallay and Moses Chung and Cooke, {David Andrew} and Heiko Damerau and Can Davut and Gabor Demeter and Dexter, {Amos Christopher} and Steffen Doebert and Elverson, {Francesa Ann} and John Farmer and Ambrogio Fasoli and Valentin Fedosseev and Ricardo Fonseca and Ivo Furno and Spencer Gessner and Aleksandr Gorn and Eduardo Granados and Marcel Granetzny and Tim Graubner and Olaf Grulke and Guran, {Eloise Daria} and Vasyl Hafych and Anthony Hartin and James Henderson and Mathias H{\"u}ther and Miklos Kedves and Vadim Khudiakov and Petr Tuev and Vlada Yarygova",
note = "Funding Information: This work was supported in parts by a Leverhulme Trust Research Project Grant RPG-2017-143 and by STFC (AWAKE-UK, Cockcroft Institute core, John Adams Institute core, and UCL consolidated grants), United Kingdom; the Russian Science Foundation, project 20-12-00062, for Novosibirsk{\textquoteright}s contribution; the National Research Foundation of Korea (Nos. NRF-2016R1A5A1013277 and NRF-2020R1A2C1010835); the Wolfgang Gentner Programme of the German Federal Ministry of Education and Research (grant no. 05E15CHA); M. Wing acknowledges the support of DESY, Hamburg. Support of the National Office for Research, Development and Innovation (NKFIH) under contract numbers 2019-2.1.6-NEMZ_KI-2019-00004 and MEC_R-140947, and the support of the Wigner Datacenter Cloud facility through the Awakelaser project is acknowledged. The work of V. Hafych has been supported by the European Union{\textquoteright}s Framework Programme for Research and Innovation Horizon 2020 (2014–2020) under the Marie Sklodowska-Curie Grant Agreement No. 765710. TRIUMF contribution is supported by NSERC of Canada. Publisher Copyright: {\textcopyright} 2022 by the authors.",
year = "2022",
month = aug,
doi = "10.3390/sym14081680",
language = "English",
volume = "14",
journal = "Symmetry",
issn = "2073-8994",
publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",
number = "8",

}

RIS

TY - JOUR

T1 - The AWAKE Run 2 Programme and Beyond †

AU - (AWAKE Collaboration)

AU - Gschwendtner, Edda

AU - Lotov, Konstantin

AU - Muggli, Patric

AU - Wing, Matthew

AU - Agnello, Riccardo

AU - Ahdida, Claudia Christina

AU - Amoedo Goncalves, Maria Carolina

AU - Andrebe, Yanis

AU - Apsimon, Oznur

AU - Apsimon, Robert

AU - Arnesano, Jordan Matias

AU - Bachmann, Anna Maria

AU - Barrientos, Diego

AU - Batsch, Fabian

AU - Bencini, Vittorio

AU - Bergamaschi, Michele

AU - Blanchard, Patrick

AU - Burrows, Philip Nicholas

AU - Buttenschön, Birger

AU - Caldwell, Allen

AU - Chappell, James

AU - Chevallay, Eric

AU - Chung, Moses

AU - Cooke, David Andrew

AU - Damerau, Heiko

AU - Davut, Can

AU - Demeter, Gabor

AU - Dexter, Amos Christopher

AU - Doebert, Steffen

AU - Elverson, Francesa Ann

AU - Farmer, John

AU - Fasoli, Ambrogio

AU - Fedosseev, Valentin

AU - Fonseca, Ricardo

AU - Furno, Ivo

AU - Gessner, Spencer

AU - Gorn, Aleksandr

AU - Granados, Eduardo

AU - Granetzny, Marcel

AU - Graubner, Tim

AU - Grulke, Olaf

AU - Guran, Eloise Daria

AU - Hafych, Vasyl

AU - Hartin, Anthony

AU - Henderson, James

AU - Hüther, Mathias

AU - Kedves, Miklos

AU - Khudiakov, Vadim

AU - Tuev, Petr

AU - Yarygova, Vlada

N1 - Funding Information: This work was supported in parts by a Leverhulme Trust Research Project Grant RPG-2017-143 and by STFC (AWAKE-UK, Cockcroft Institute core, John Adams Institute core, and UCL consolidated grants), United Kingdom; the Russian Science Foundation, project 20-12-00062, for Novosibirsk’s contribution; the National Research Foundation of Korea (Nos. NRF-2016R1A5A1013277 and NRF-2020R1A2C1010835); the Wolfgang Gentner Programme of the German Federal Ministry of Education and Research (grant no. 05E15CHA); M. Wing acknowledges the support of DESY, Hamburg. Support of the National Office for Research, Development and Innovation (NKFIH) under contract numbers 2019-2.1.6-NEMZ_KI-2019-00004 and MEC_R-140947, and the support of the Wigner Datacenter Cloud facility through the Awakelaser project is acknowledged. The work of V. Hafych has been supported by the European Union’s Framework Programme for Research and Innovation Horizon 2020 (2014–2020) under the Marie Sklodowska-Curie Grant Agreement No. 765710. TRIUMF contribution is supported by NSERC of Canada. Publisher Copyright: © 2022 by the authors.

PY - 2022/8

Y1 - 2022/8

N2 - Plasma wakefield acceleration is a promising technology to reduce the size of particle accelerators. The use of high energy protons to drive wakefields in plasma has been demonstrated during Run 1 of the AWAKE programme at CERN. Protons of energy 400 GeV drove wakefields that accelerated electrons to 2 GeV in under 10 m of plasma. The AWAKE collaboration is now embarking on Run 2 with the main aims to demonstrate stable accelerating gradients of 0.5–1 GV/m, preserve emittance of the electron bunches during acceleration and develop plasma sources scalable to 100s of metres and beyond. By the end of Run 2, the AWAKE scheme should be able to provide electron beams for particle physics experiments and several possible experiments have already been evaluated. This article summarises the programme of AWAKE Run 2 and how it will be achieved as well as the possible application of the AWAKE scheme to novel particle physics experiments.

AB - Plasma wakefield acceleration is a promising technology to reduce the size of particle accelerators. The use of high energy protons to drive wakefields in plasma has been demonstrated during Run 1 of the AWAKE programme at CERN. Protons of energy 400 GeV drove wakefields that accelerated electrons to 2 GeV in under 10 m of plasma. The AWAKE collaboration is now embarking on Run 2 with the main aims to demonstrate stable accelerating gradients of 0.5–1 GV/m, preserve emittance of the electron bunches during acceleration and develop plasma sources scalable to 100s of metres and beyond. By the end of Run 2, the AWAKE scheme should be able to provide electron beams for particle physics experiments and several possible experiments have already been evaluated. This article summarises the programme of AWAKE Run 2 and how it will be achieved as well as the possible application of the AWAKE scheme to novel particle physics experiments.

KW - AWAKE

KW - dark photons

KW - electron–proton physics

KW - proton-driven plasma wakefield acceleration

KW - strong-field QED

UR - http://www.scopus.com/inward/record.url?scp=85137337193&partnerID=8YFLogxK

U2 - 10.3390/sym14081680

DO - 10.3390/sym14081680

M3 - Article

AN - SCOPUS:85137337193

VL - 14

JO - Symmetry

JF - Symmetry

SN - 2073-8994

IS - 8

M1 - 1680

ER -

ID: 37125606