Cockcroft Phase 4
Lead Research Organisation:
Lancaster University
Department Name: Physics
Abstract
Science has underpinned human progress for centuries. It has improved our quality of life and helps us understand our place in the Universe. The days when important breakthroughs could be achieved by a researcher working alone in a laboratory with minimal equipment are long gone. Now, the most important insights in science demand that researchers work in teams, collaborating between universities and laboratories and across national boundaries, often hand-in-hand with expert industrial partners. They also demand the best and most sophisticated equipment.
The Cockcroft Institute reflects these changes. Its purpose is to research, design and develop particle accelerators, machines that can be used to reveal the nature of matter, to probe what happened at the instant the universe was born and to develop new materials and healthcare tools to improve our quality of life. These machines are at the cutting-edge of technology, pushing to the limits our ability to control and understand processes happening at the smallest scales, and at the speed of light. They range from fairly small instruments built to support the semi-conductor industry, airport security and radiotherapy to enormous facilities providing intense, high energy beams of particles to create and probe the innermost workings of atoms. The global economy can afford only a few of these latter machines and so they demand collaboration between multi-national teams of the world's best scientists and engineers.
The Cockcroft Institute - a collaboration between academia, national laboratories, industry and local economy - brings together the best accelerator scientists, engineers, educators and industrialists to conceive, design, construct and use innovative instruments of discovery at all scales and lead the UK's participation in flagship international experiments. It stimulates the curiosity of emerging minds via the education of the future generation and engages with industrial partners to generate wealth for the community that sustains us.
Established more than a fifteen years ago, the Cockcroft Institute is increasingly focusing its attention on three parallel and complementary activities:
- Contributions to near future scientific frontier facilities based on incremental advances to conventional accelerating technologies
- Ground-breaking research in novel methods of particle acceleration which have the long term potential to yield much more compact types of particle accelerators
- Applications of accelerators to address global challenges in healthcare, security, energy, manufacturing and the environment.
The Cockcroft Institute reflects these changes. Its purpose is to research, design and develop particle accelerators, machines that can be used to reveal the nature of matter, to probe what happened at the instant the universe was born and to develop new materials and healthcare tools to improve our quality of life. These machines are at the cutting-edge of technology, pushing to the limits our ability to control and understand processes happening at the smallest scales, and at the speed of light. They range from fairly small instruments built to support the semi-conductor industry, airport security and radiotherapy to enormous facilities providing intense, high energy beams of particles to create and probe the innermost workings of atoms. The global economy can afford only a few of these latter machines and so they demand collaboration between multi-national teams of the world's best scientists and engineers.
The Cockcroft Institute - a collaboration between academia, national laboratories, industry and local economy - brings together the best accelerator scientists, engineers, educators and industrialists to conceive, design, construct and use innovative instruments of discovery at all scales and lead the UK's participation in flagship international experiments. It stimulates the curiosity of emerging minds via the education of the future generation and engages with industrial partners to generate wealth for the community that sustains us.
Established more than a fifteen years ago, the Cockcroft Institute is increasingly focusing its attention on three parallel and complementary activities:
- Contributions to near future scientific frontier facilities based on incremental advances to conventional accelerating technologies
- Ground-breaking research in novel methods of particle acceleration which have the long term potential to yield much more compact types of particle accelerators
- Applications of accelerators to address global challenges in healthcare, security, energy, manufacturing and the environment.
Organisations
Publications
Ries R
(2022)
Surface quality characterization of thin Nb films for superconducting radiofrequency cavities
in Superconductor Science and Technology
Ige TA
(2021)
Surveying the Challenges to Improve Linear Accelerator-based Radiation Therapy in Africa: a Unique Collaborative Platform of All 28 African Countries Offering Such Treatment.
in Clinical oncology (Royal College of Radiologists (Great Britain))
Baker CJ
(2021)
Sympathetic cooling of positrons to cryogenic temperatures for antihydrogen production.
in Nature communications
Baker CJ
(2021)
Sympathetic cooling of positrons to cryogenic temperatures for antihydrogen production.
in Nature communications
Volponi M
(2024)
TALOS (Total Automation of LabVIEW Operations for Science): A framework for autonomous control systems for complex experiments
in Review of Scientific Instruments
Nix L
(2024)
Terahertz-driven acceleration of subrelativistic electron beams using tapered rectangular dielectric-lined waveguides
in Physical Review Accelerators and Beams
Bontoiu C
(2023)
TeV/m catapult acceleration of electrons in graphene layers.
in Scientific reports
Gschwendtner E
(2022)
The AWAKE Run 2 Programme and Beyond
in Symmetry
Gschwendtner E
(2022)
The AWAKE Run 2 programme and beyond
Browning N
(2022)
The Design and Operation of a New Relativistic Ultrafast Electron Diffraction and Imaging (RUEDI) National Facility in the UK
in Microscopy and Microanalysis
Murooka Y
(2023)
The Design of Relativistic Ultrafast Electron Diffraction and Imaging (RUEDI) Facility for Materials in Extremes
in Microscopy and Microanalysis
MacLachlan A
(2023)
The Effects of Electron Cyclotron Absorption in Powerful Narrow-Band Sub-THz Oscillators Exploiting Volume and Surface Modes
in IEEE Transactions on Electron Devices
Feng, J.L.
(2022)
The Forward Physics Facility at the High-Luminosity LHC
in arXiv
Feng J
(2023)
The Forward Physics Facility at the High-Luminosity LHC
in Journal of Physics G: Nuclear and Particle Physics
Agostini P
(2021)
The Large Hadron-Electron Collider at the HL-LHC
in Journal of Physics G: Nuclear and Particle Physics
Jones LB
(2022)
The measurement of photocathode transverse energy distribution curves (TEDCs) using the transverse energy spread spectrometer (TESS) experimental system.
in The Review of scientific instruments
Heaven C
(2022)
The suitability of micronuclei as markers of relative biological effect
in Mutagenesis
Gratus J
(2023)
The tensorial representation of the distributional stress-energy quadrupole and its dynamics
in Classical and Quantum Gravity
Mee T
(2023)
The use of radiotherapy, surgery and chemotherapy in the curative treatment of cancer: results from the FORTY (Favourable Outcomes from RadioTherapY) project.
in The British journal of radiology
Huck S
(2023)
Toward a pulsed antihydrogen beam for WEP tests in AEgIS
in EPJ Web of Conferences
May A
(2021)
Towards a cryogen-free practical gradient cw SRF accelerator
in Superconductor Science and Technology
Accettura C
(2023)
Towards a muon collider
in The European Physical Journal C
Hahn C
(2022)
Towards harmonizing clinical linear energy transfer (LET) reporting in proton radiotherapy: a European multi-centric study.
in Acta oncologica (Stockholm, Sweden)
Batsch F
(2021)
Transition between Instability and Seeded Self-Modulation of a Relativistic Particle Bunch in Plasma
in Physical Review Letters
Li X
(2023)
Transition from backward to sideward stimulated Raman scattering with broadband lasers in plasmas
in Matter and Radiation at Extremes
Wolski A
(2022)
Transverse phase space tomography in an accelerator test facility using image compression and machine learning
in Physical Review Accelerators and Beams
Liu W
(2022)
Trapping and acceleration of spin-polarized positrons from ? photon splitting in wakefields
in Physical Review Research
Li Q
(2022)
Two-photon absorption and stimulated emission in poly-crystalline Zinc Selenide with femtosecond laser excitation
in Opto-Electronic Advances
Li G
(2022)
Ultrafast kinetics of the antiferromagnetic-ferromagnetic phase transition in FeRh.
in Nature communications
Pongchalee P
(2024)
Unaveraged simulations of a cavity based free electron laser
in Results in Physics
Doss C
(2023)
Underdense plasma lens with a transverse density gradient
in Physical Review Accelerators and Beams
Ghaith A
(2021)
Undulator design for a laser-plasma-based free-electron-laser
in Physics Reports
Köhne S
(2023)
Unsupervised classification of fully kinetic simulations of plasmoid instability using self-organizing maps (SOMs)
in Journal of Plasma Physics
Traczykowski P
(2023)
Up-sampling of electron beam simulation particles with addition of shot-noise
in Computer Physics Communications
Spencer K
(2022)
Variable and fixed costs in NHS radiotherapy; consequences for increasing hypo fractionation.
in Radiotherapy and oncology : journal of the European Society for Therapeutic Radiology and Oncology
Mee T
(2021)
Variations in Demand across England for the Magnetic Resonance-Linac Technology, Simulated Utilising Local-level Demographic and Cancer Data in the Malthus Project.
in Clinical oncology (Royal College of Radiologists (Great Britain))
Wanstall HC
(2024)
VHEE FLASH sparing effect measured at CLEAR, CERN with DNA damage of pBR322 plasmid as a biological endpoint.
in Scientific reports
Alves-Lima D
(2022)
Visualizing water inside an operating proton exchange membrane fuel cell with video-rate terahertz imaging
in Fuel Cells
Sullivan M
(2021)
X -band linac design
in Physical Review Accelerators and Beams
Aliasghari S
(2021)
X-ray computed tomographic and focused ion beam/electron microscopic investigation of coating defects in niobium-coated copper superconducting radio-frequency cavities
in Materials Chemistry and Physics
Morgan J
(2022)
X-ray pulse generation with ultra-fast flipping of its orbital angular momentum.
in Optics express
| Description | A route to high luminosity: Terahertz-frequency ultrashort bunch trains for novel accelerators |
| Amount | £602,105 (GBP) |
| Funding ID | ST/X004090/1 |
| Organisation | Science and Technologies Facilities Council (STFC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 08/2023 |
| End | 08/2028 |
| Description | AWAKE Run 2 |
| Amount | £130,911 (GBP) |
| Funding ID | ST/X005550/1 |
| Organisation | Science and Technologies Facilities Council (STFC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 03/2022 |
| End | 03/2025 |
| Description | AWAKE Run 2 phase 2 |
| Amount | £156,242 (GBP) |
| Funding ID | ST/X00614X/1 |
| Organisation | Science and Technologies Facilities Council (STFC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 11/2022 |
| End | 10/2025 |
| Description | AWAKE UK phase II |
| Amount | £396,778 (GBP) |
| Funding ID | ST/X005208/1 |
| Organisation | Science and Technologies Facilities Council (STFC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 03/2022 |
| End | 03/2025 |
| Description | Antiparticle beamline for experiments on matter antimatter symmetry |
| Amount | £463,725 (GBP) |
| Funding ID | EP/R025363/1 |
| Organisation | Engineering and Physical Sciences Research Council (EPSRC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 02/2018 |
| End | 02/2024 |
| Description | BioProton: Biologically relevant dose for Proton Therapy Planning |
| Amount | £1,394,633 (GBP) |
| Funding ID | EP/S024344/1 |
| Organisation | Engineering and Physical Sciences Research Council (EPSRC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 03/2019 |
| End | 03/2025 |
| Description | Enhancing ERL development in the UK |
| Amount | £122,185 (GBP) |
| Funding ID | ST/X000559/1 |
| Organisation | Science and Technologies Facilities Council (STFC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 09/2022 |
| End | 09/2026 |
| Description | Enhancing ERL development in the UK |
| Amount | £90,486 (GBP) |
| Funding ID | ST/X000540/1 |
| Organisation | Science and Technologies Facilities Council (STFC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 09/2022 |
| End | 03/2026 |
| Description | EuPRAXIA Doctoral Network |
| Amount | £530,503 (GBP) |
| Funding ID | EP/X027112/1 |
| Organisation | Engineering and Physical Sciences Research Council (EPSRC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 01/2023 |
| End | 12/2026 |
| Description | Exploratory study of PWFA-driven FEL at CLARA |
| Amount | £597,011 (GBP) |
| Funding ID | ST/S006214/1 |
| Organisation | Science and Technologies Facilities Council (STFC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 09/2019 |
| End | 03/2024 |
| Description | HL-LHC-UK Phase 2 |
| Amount | £1,253,837 (GBP) |
| Funding ID | ST/T001895/1 |
| Organisation | Science and Technologies Facilities Council (STFC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 03/2020 |
| End | 03/2026 |
| Description | HL-LHC-UK phase 2 |
| Amount | £549,253 (GBP) |
| Funding ID | ST/T001968/1 |
| Organisation | Science and Technologies Facilities Council (STFC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 03/2020 |
| End | 03/2026 |
| Description | HL-LHC-UK2 |
| Amount | £2,095,640 (GBP) |
| Funding ID | ST/T001844/1 |
| Organisation | Science and Technologies Facilities Council (STFC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 03/2020 |
| End | 03/2026 |
| Description | High Luminosity Upgrade of LHC UK - Phase II |
| Amount | £712,007 (GBP) |
| Funding ID | ST/T001925/1 |
| Organisation | Science and Technologies Facilities Council (STFC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 03/2020 |
| End | 03/2026 |
| Description | ITRF LhARA WP5 ULIV |
| Amount | £113,035 (GBP) |
| Funding ID | ST/X002632/1 |
| Organisation | Science and Technologies Facilities Council (STFC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 09/2022 |
| End | 09/2024 |
| Description | LLRF for high power facility researching high gradient RF Structures for linear colliders and other applications |
| Amount | £84,955 (GBP) |
| Funding ID | ST/W005743/1 |
| Organisation | Science and Technologies Facilities Council (STFC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 01/2022 |
| End | 03/2022 |
| Description | Manufacturing in the UK for High Gradient Cavities (MUHiG) |
| Amount | £58,285 (GBP) |
| Funding ID | ST/W005247/1 |
| Organisation | Science and Technologies Facilities Council (STFC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 11/2022 |
| End | 11/2024 |
| Description | NoMAD: Non-destructive Mobile Analysis and imaging Device |
| Amount | £181,033 (GBP) |
| Funding ID | BB/X003833/1 |
| Organisation | Biotechnology and Biological Sciences Research Council (BBSRC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 03/2023 |
| End | 09/2024 |
| Description | Non-invasive Gas Jet In-Vivo Profile Dosimetry for Particle Beam Therapy (JetDose) |
| Amount | £269,649 (GBP) |
| Funding ID | ST/W002159/1 |
| Organisation | Science and Technologies Facilities Council (STFC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 03/2022 |
| End | 06/2025 |
| Description | Precision experiments with Antihydrogen |
| Amount | £1,519,339 (GBP) |
| Funding ID | EP/V001426/1 |
| Organisation | Engineering and Physical Sciences Research Council (EPSRC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 06/2020 |
| End | 06/2024 |
| Description | Production of high quality electron bunches in AWAKE Run 2 |
| Amount | £513,927 (GBP) |
| Funding ID | ST/T00195X/1 |
| Organisation | Science and Technologies Facilities Council (STFC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 03/2020 |
| End | 03/2024 |
| Description | Production of high quality electron bunches in AWAKE Run 2 2023- |
| Amount | £18,627 (GBP) |
| Funding ID | ST/X006298/1 |
| Organisation | Science and Technologies Facilities Council (STFC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 03/2022 |
| End | 03/2025 |
| Description | Quantum Gas jet Scanner (QuantumJET) |
| Amount | £87,731 (GBP) |
| Funding ID | ST/W000687/1 |
| Organisation | Science and Technologies Facilities Council (STFC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 08/2021 |
| End | 08/2022 |
| Description | Slow Neutral Antimatter Atoms in Excited States for Inertial-type Precision Measurements (SNAP) |
| Amount | £869,447 (GBP) |
| Funding ID | EP/X014851/1 |
| Organisation | Engineering and Physical Sciences Research Council (EPSRC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 01/2023 |
| End | 12/2025 |
| Description | THz driven injection for high-quality high-gradient novel acceleration |
| Amount | £126,659 (GBP) |
| Funding ID | ST/T002735/1 |
| Organisation | Science and Technologies Facilities Council (STFC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 09/2019 |
| End | 05/2021 |
| Description | The Laser-hybrid Accelerator for Radiobiological Applications |
| Amount | £337,964 (GBP) |
| Funding ID | ST/X005895/1 |
| Organisation | Science and Technologies Facilities Council (STFC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 09/2022 |
| End | 09/2024 |
| Description | The Laser-hybrid Accelerator for Radiobiological Applications (ITRF) |
| Amount | £113,289 (GBP) |
| Funding ID | ST/X005798/1 |
| Organisation | Science and Technologies Facilities Council (STFC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 09/2022 |
| End | 09/2024 |
| Description | The new intensity frontier: exploring quantum electrodynamic plasmas |
| Amount | £430,374 (GBP) |
| Funding ID | EP/V049232/1 |
| Organisation | Engineering and Physical Sciences Research Council (EPSRC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 11/2021 |
| End | 10/2025 |
| Title | Dataset of moment coordinate transformations |
| Description | The dataset used to generate the results in "Moment tracking and their coordinate transformations for macroparticles with an application to plasmas around black holes", available as a preprint at https://arxiv.org/abs/2308.01276 PhaseSpaceData contains the data used to generate figure 5. SchwarzschildResults contains the data used to generate figure 7a and figure 8a. KruskalSzekeresResults contains the data used to generate figure 7b and 8b. |
| Type Of Material | Database/Collection of data |
| Year Produced | 2023 |
| Provided To Others? | Yes |
| URL | https://zenodo.org/record/8082180 |