A proposal for the programme of the John Adams Institute for Accelerator Science 2021-2025

约翰·亚当斯加速器科学研究所 2021-2025 年计划提案

• 批准号: ST/V001655/1
• 负责人: Philip Burrows
• 金额: $ 398.98万
• 依托单位: University of Oxford
• 依托单位国家: 英国
• 项目类别: Research Grant
• 财政年份: 2021
• 资助国家: 英国
• 起止时间: 2021 至 无数据
• 项目状态: 未结题
• 来源: https://gtr.ukri.org/projects?ref=ST%2FV001655%2F1
• 关键词: proposal; programme; John; Adams; Institute

The John Adams Institute for Accelerator Science (JAI) is a centre of excellence for advanced accelerator science and technology. We perform R&D and training, provide expertise, and promote accelerator applications in science and society. The JAI currently comprises 20 faculty, 23 staff, and 38 PhD students from the Physics Departments of Oxford University (UOXF), Royal Holloway University of London (RHUL), and Imperial College London (ICL). An additional 33 staff from the UK's national laboratories and CERN are affiliated with our research and teaching programmes. We have six guiding principles: a) Develop, support and engagement of accelerator science facilities and R&D programmes of strategic importance for the UK; b) Develop worldwide collaborations that enhance the capabilities available to us;c) Develop novel acceleration and compact light source techniques and their applications;d) Deliver a world leading training programme to develop the next generation of leaders in the field;e) Communicate developments in the field to the public and decision makers;f) Strengthen the links among the partner universities to deliver a programme that is greater than the sum of its parts. For the period 2021-2025, we have focused on research areas that have the greatest benefit to national priorities: Low-emittance, high-brightness electron beams, including next-generation electron-positron colliders (ILC, CLIC), the Diamond Light Source (DLS) and its upgrade, and a future UK FEL.High-energy/high-intensity hadron beams, including current and future energy-frontier proton colliders (LHC, HL-LHC, FCC), and ISIS and its upgrade.Advanced acceleration techniques, including laser- and beam-driven plasma-wakefield acceleration.Particle-beam therapy applications using electron, proton and ion beams.Through this programme we are supporting the UK's accelerator strategy by taking lead roles in both our national and overseas facilities including: DLS, ISIS and CLF at STFC/RAL, CLARA at STFC/DL, LHC, HL-LHC, CLIC, FCC and AWAKE at CERN, FLASHforward at DESY, and ATF/ATF2 at KEK.These themes position us optimally to support our core goals of supporting major national and international accelerator developments; motivating our researchers and giving them skills in state-of-the-art technologies; and being able to transfer our knowledge to major collaborative developments and to industry.

约翰·亚当斯（John Adams）加速器科学研究所（JAI）是高级加速器科学技术卓越中心。我们进行研发和培训，提供专业知识，并促进科学和社会中的加速器应用。 JAI目前包括来自牛津大学物理系（UOXF），伦敦皇家霍洛威大学（RHUL）和伦敦帝国学院（ICL）的20名教职员工，23名员工和38名博士学位学生。来自英国国家实验室和CERN的33名员工隶属于我们的研究和教学计划。我们有六个指导原则：a）对英国的加速器科学设施和研发计划的发展，支持和参与； b）开发全球合作，以增强我们可用的能力； c）发展新颖的加速度和紧凑的光源技术及其应用； d）提供世界领先的培训计划，以发展该领域的下一代领导者； e）将领域的发展发展与公众和决策者之间的联系； For the period 2021-2025, we have focused on research areas that have the greatest benefit to national priorities: Low-emittance, high-brightness electron beams, including next-generation electron-positron colliders (ILC, CLIC), the Diamond Light Source (DLS) and its upgrade, and a future UK FEL.High-energy/high-intensity hadron beams, including current and future energy-frontier proton colliders (LHC, HL-LHC, FCC), and ISIS and its upgrade.Advanced acceleration techniques, including laser- and beam-driven plasma-wakefield acceleration.Particle-beam therapy applications using electron, proton and ion beams.Through this programme we are supporting the UK's accelerator strategy by taking lead roles in both our national and overseas facilities including: DLS, ISIS and CLF在STFC/RAL，CLARA，位于STFC/DL，LHC，HL-LHC，CLIC，FCC和CERN，DESY的FlashForward，以及Kek的ATF/ATF2，这些主题的位置为我们提供最佳的位置，以支持我们支持我们支持我们的核心目标，以支持我们支持我们的核心目标，以支持我们支持我们的核心目标，以支持我们支持我们的国家和国际促进剂的核心目标；激励我们的研究人员并为他们提供最先进技术的技能；并能够将我们的知识转移到主要的协作发展和行业。

项目成果

Towards a muon collider

• DOI: 10.1140/epjc/s10052-023-11889-x
• 发表时间: 2023-03
• 期刊: The European Physical Journal C
• 作者: C. Accettura;D. Adams;Rohit Agarwal;C. Ahdida;C. Aimè;N. Amapane;D. Amorim;P. Andreetto;F. Anulli;Robert Appleby;A. Apresyan;A. Apyan;S. Arsenyev;P. Asadi;M. Mahmoud;A. Azatov;J. Back;L. Balconi;L. Bandiera;R. Barlow;N. Bartosik;E. Barzi;F. Batsch;M. Bauce;J. Berg;A. Bersani;A. Bertarelli;A. Bertolin;F. Boattini;A. Bogacz;M. Bonesini;B. Bordini;S. Bottaro;L. Bottura;A. Braghieri;M. Breschi;N. Bruhwiler;X. Buffat;L. Buonincontri;P. Burrows;G. Burt;D. Buttazzo;B. Caiffi;M. Calviani;S. Calzaferri;D. Calzolari;R. Capdevilla;C. Carli;F. Casaburo;M. Casarsa;L. Castelli;M. Catanesi;G. Cavoto;F. Celiberto;L. Celona;A. Cerri;Gianmario Cesarini;C. Cesarotti;G. Chachamis;A. Chancé;Siyu Chen;Y. Chien;M. Chiesa;A. Colaleo;F. Collamati;G. Collazuol;M. Costa;N. Craig;C. Curatolo;D. Curtin;G. Molin;M. Dam;H. Damerau;S. Dasu;J. Blas;S. Curtis;E. D. Matteis;Stefania Rosa;J. Delahaye;D. Denisov;H. Denizli;C. Densham;R. Dermisek;L. Luzio;E. D. Meco;B. Micco;K. Dienes;E. Diociaiuti;T. Dorigo;A. Dudarev;R. Edgecock;F. Errico;M. Fabbrichesi;S. Farinon;A. Ferrari;J. Somoza;F. Filthaut;D. Fiorina;E. Fol;M. Forslund;R. Franceschini;R. F. Ximenes;E. Gabrielli;M. Gallinaro;F. Garosi;L. Giambastiani;A. Gianelle;S. Gilardoni;D. Giove;C. Giraldin;A. Glioti;M. Greco;A. Greljo;Ramona Groeber;C. Grojean;A. Grudiev;Jiayin Gu;C. Han;Tao Han;J. Hauptman;B. Henning;K. Hermanek;M. Herndon;T. Holmes;S. Homiller;Guoyuan Huang;S. Jana;S. Jindariani;Y. Kahn;I. Karpov;D. Kelliher;W. Kilian;A. Kolehmainen;K. Kong;P. Koppenburg;Nils Kreher;G. Krintiras;K. Krizka;G. Krnjaic;Nilanjana Kumar;A. Lechner;L. Lee;Qiang Li;R. L. Voti;R. Lipton;Zhen Liu;S. Lomte;K. Long;J. L. Gómez;R. Losito;I. Low;Qianshu Lu;D. Lucchesi;Lianliang Ma;Yang Ma;S. Machida;F. Maltoni;M. Mandurrino;B. Mansoulie;L. Mantani;C. Marchand;S. Mariotto;S. Martin-Haugh;D. Marzocca;P. Mastrapasqua;G. Mauro;A. Mazzolari;N. McGinnis;P. Meade;B. Mele;F. Meloni;M. Mentink;C. Merlassino;E. Metral;Rebecca T. Miceli;N. Milas;N. Mokhov;A. Montella;T. Mulder;R. Musenich;M. Nardecchia;F. Nardi;N. Neufeld;D. Neuffer;Y. Onel;D. Orestano;D. Paesani;S. P. Griso;M. Palmer;P. Panci;G. Panico;R. Paparella;P. Paradisi;A. Passeri;N. Pastrone;A. Pellecchia;F. Piccinini;A. Portone;K. Potamianos;M. Prioli;L. Quettier;E. Radicioni;R. Radogna;R. Rattazzi;D. Redigolo;L. Reina;E. Resseguie;J. Reuter;P. Ribani;C. Riccardi;L. Ricci;S. Ricciardi;L. Ristori;T. Robens;W. Rodejohann;C. Rogers;M. Romagnoni;K. Ronald;L. Rossi;R. Ruiz;F. Queiroz;F. Sala;P. Sala;J. Šalko;P. Salvini;E. Salvioni;J. Santiago;I. Sarra;Francisco Javier Saura Esteban;J. Schieck;D. Schulte;M. Selvaggi;C. Senatore;A. Senol;D. Sertore;L. Sestini;Varun Sharma;V. Shiltsev;Jing Shu;F. Simone;R. Simoniello;K. Skoufaris;M. Sorbi;S. Sorti;A. Stamerra;S. Stapnes;G. Stark;M. Statera;Bernd Stechauner;D. Stolarski;D. Stratakis;S. Su;W. Su;O. Sumensari;Xiaohu Sun;R. Sundrum;M. Swiatlowski;A. Sytov;Benjamin T. Kuchma;T. Tait;jian tang;Jingyu Tang;A. Tesi;P. Testoni;B. Thomas;E. Thompson;R. Torre;L. Tortora;L. Tortora;S. Trifinopoulos;I. Vai;R. Valente;R. Valente;M. Valente;A. Valenti;N. Valle;U. Rienen;R. Venditti;A. Verweij;P. Verwilligen;L. Vittorio;P. Vitulo;Liantao Wang;H. Weber;M. Woźniak;R. Wu;Yongcheng Wu;A. Wulzer;K. Xie;A. Yamamoto;Yifeng Yang;K. Yonehara;A. Zaza;Xiaoran Zhao;A. Zlobin;D. Zuliani;J. Zurita

Hyperspectral compressive wavefront sensing

高光谱压缩波前传感

• DOI: 10.1017/hpl.2022.35
• 发表时间: 2023-03-21
• 期刊: HIGH POWER LASER SCIENCE AND ENGINEERING
• 影响因子: 4.8
• 作者: Howard, Sunny;Esslinger, Jannik;Doepp, Andreas
• 通讯作者: Doepp, Andreas

Transition between Instability and Seeded Self-Modulation of a Relativistic Particle Bunch in Plasma.

• DOI: 10.1103/physrevlett.126.164802
• 发表时间: 2020-12
• 期刊: Physical review letters
• 影响因子: 8.6
• 作者: F. Batsch;P. Muggli;R. Agnello;C. C. Ahdida-C.;M. C. Amoedo Goncalves-M. C.-Amoedo-Goncalves-2126140196;Y. Andrèbe;O. Apsimon;R. Apsimon;A. Bachmann;M. Baistrukov;P. Blanchard;F. Braunmüller;P. Burrows;B. Buttenschön;A. Caldwell;J. Chappell;E. Chevallay;M. Chung;D. Cooke;H. Damerau;C. Davut;G. Demeter;H. Deubner;S. Doebert;J. Farmer;A. Fasoli;V. Fedosseev;R. Fiorito;R. Fonseca;F. Friebel;I. Furno;L. Garolfi;S. Gessner;I. Gorgisyan;A. Gorn;Eduardo Granados;M. Granetzny;T. Graubner;O. Grulke;E. Gschwendtner;V. Hafych;A. Helm;J. Henderson;M. Hüther;I. Kargapolov;S.-Y. Kim;F. Kraus;M. Krupa;T. Lefevre;L. Liang;S. Liu;N. Lopes;K. Lotov;M. Martyanov;S. Mazzoni;D. Medina Godoy;V. A. Minakov;J. Moody;K. Moon;P. Morales Guzmán;M. Moreira;T. Nechaeva;E. Nowak;C. Pakuza;H. Panuganti;A. Pardons;A. Perera;J. Půček;A. Pukhov;R. Ramjiawan;S. Rey;K. Rieger;O. Schmitz;E. Senes;L. O. Silva-L. O.-Silva-2149087295;R. Speroni;R. Spitsyn;C. Stollberg;A. Sublet;A. Topaloudis;N. Torrado;P. Tuev;M. Turner;F. Velotti;L. Verra;V. Verzilov;J. Vieira;H. Vincke;C. Welsch;M. Wendt;M. Wing;P. Wiwattananon;J. Wolfenden;B. Woolley;G. Xia;M. Zepp;G. Zevi Della Porta

Experimental study of extended timescale dynamics of a plasma wakefield driven by a self-modulated proton bunch

• DOI: 10.1103/physrevaccelbeams.24.011301
• 发表时间: 2020-10
• 期刊: Physical Review Accelerators and Beams
• 影响因子: 1.7
• 作者: J. Chappell;E. Adli;R. Agnello;M. Aladi;Y. Andrèbe;O. Apsimon;R. Apsimon;A. Bachmann;M. Baistrukov;F. Batsch;M. Bergamaschi;P. Blanchard;P. Burrows;B. Buttenschön;A. Caldwell;E. Chevallay;M. Chung;D. Cooke;H. Damerau;C. Davut;G. Demeter;L. Deubner;A. Dexter;G. Djotyan;S. Doebert;J. Farmer;A. Fasoli;V. Fedosseev;R. Fiorito;R. Fonseca;F. Friebel;I. Furno;L. Garolfi;S. Gessner;B. Goddard;I. Gorgisyan;A. Gorn;Eduardo Granados;M. Granetzny;O. Grulke;E. Gschwendtner;V. Hafych;A. Hartin;A. Helm;J. Henderson;A. Howling;M. Hüther;R. Jacquier;S. Jolly;I. Kargapolov;M. Kedves;F. Keeble;M. D. Kelisani;Shinseog Kim;F. Kraus;M. Krupa;T. Lefevre;Yu Li;L. Liang;Shaocheng Liu;N. Lopes;K. Lotov;M. Martyanov;S. Mazzoni;D. Godoy;V. A. Minakov;J. Moody;P. Guzmán;M. Moreira;H. Panuganti;A. Pardons;F. Asmus;A. Perera;A. Petrenko;J. Půček;A. Pukhov;B. Ráczkevi;R. Ramjiawan;S. Rey;H. Ruhl;H. Saberi;O. Schmitz;E. Senes;Peter Sherwood;L. Silva;R. Spitsyn;P. Tuev;F. Velotti;L. Verra;V. Verzilov;J. Vieira;C. Welsch;B. Williamson;M. Wing;J. Wolfenden;B. Woolley;G. Xia;M. Zepp;G. Z. D. Porta

Gravitational waves from high-power twisted light

高功率扭曲光产生的引力波

• DOI: 10.48550/arxiv.2309.04191
• 发表时间: 2023
• 作者: Atonga E