UK Accelerator Institutes Seminar Series Spring 2022 (Session 4)

Europe/London
Emmanuel Tsesmelis (CERN), Ian Bailey (Lancaster University / Cockcroft Institute of Accelerator Science and Technology), Lee Jones, Luke Aidan Dyks (University of Oxford)
Description

UK Accelerator Institutes Seminar Series

Further abstracts will be added in due course.  Seminar slides and recordings can be found in the timetable.

    • 1
      Ion Sources

      A quick journey through ion sources, from the plasma pioneers and hot filament ion sources, to microwave ion sources and Electron Cyclotron Resonance (ECR) ion sources. Even higher charge states can be reached with Electron Beam ion sources. Vacuum arc and laser plasma ion sources are used for ‘hard to ionise’ materials. There are several good uses for negative ions, but how do you make them? Caesium is key to high current negative ion production, however the volume process can also reliably and cleanly create negative ions. The Low Energy Beams Group at ISIS is currently developing two world leading negative ion sources: the 150 mA 2X Scaled Penning Surface Plasma Source and an un-caesiated maintenance-free Inductively Coupled Plasma (ICP) negative volume source for ISIS operations.

      Speaker: Dan Faircloth (STFC)
    • 2
      ALS Upgrade Goals and Project Status

      The ALS-U project will upgrade the existing Advanced Light Source (ALS) at Berkeley Lab to deliver diffraction limited photon beam performance and aims to increase the beam brightness by two orders of magnitude for soft x-rays compared to the current ALS facility. The storage ring design utilizes a nine-bend achromat lattice with reverse bending magnets and on-axis swap-out injection from an accumulator ring. In order to achieve the new target brightness for the x-ray source, the storage ring lattice was optimized to reach a stored beam horizontal emittance of 70 pm rad, thereby requiring the addition of an accumulator ring to the accelerator complex.

      Our talk will describe the optics design and highlight some of the challenging technical hardware developments. In addition, we will discuss installation progress of the accumulator ring as well as our extensive installation planning for the 12 months Dark Time where the ALS storage ring will be replaced with the new nine-bend achromat.

      Speakers: Christoph Steier (Lawrence Berkeley National Laboratory), Daniela Leitner (LBNL)
    • 3
      IsoDAR@YEMILAB and its next-generation proton cyclotron

      The IsoDAR cyclotron design, for a neutrino experiment at YEMILAB, Korea, produces $60\,$MeV protons with a beam current of $10\,$mA. This is an order of magnitude larger than that from conventional machines and will be a game changer for medical isotope production.

      This is achieved through three innovations: use of $\rm H_{2}^{+}$ as the accelerated particle, deploying an RFQ in place of the usual LEBT system, and harnessing the 'vortex motion' of the high current beam to reduce the transverse beam dimension. These will be explained, and the current status and prospects outlined.

      Speaker: Roger Barlow (University of Huddersfield (GB))
    • 4
      The H2020 CompactLight Design Study

      CompactLight (XLS) is an H2020 Design Study funded by the Horizon 2020 Research Program and carried out by an International Collaboration of 26 partners and 5 third parties, including CERN, INFN, Elettra, and UKRI. The project, which started in January 2018 with a duration of 48 months, aimed at designing an innovative, compact, and cost-effective hard X-ray FEL facility complemented by a soft X-ray source. In December 2021, the CompactLight Conceptual Design Report was completed. The result is an accelerator that can be operated up to 1 kHz repetition rate, beyond today's state of the art, using the latest concepts for high brightness electron photoinjectors, very high gradient accelerating structures in X-band, and novel short period undulators. This paper gives an overview of the project, focusing on the addressed technological challenges and the future applications.

      Speaker: Andrea Latina (CERN)
    • 5
      The Muon Collider

      Recently, the muon collider has been recognised as an important option to be considered for the future of particle physics. It is part of the European Accelerator R&D Roadmap developed in 2021 and approved by the CERN Council. Also, interest is increasing in the Americas and in Asia, demonstrated, for example, by the ongoing Snowmass process. The presentation will give an introduction io the muon collider concept and the identified challenges. It will also describe the R&D progress and plans.

      Speaker: Daniel Schulte (CERN)
    • 6
      Distributed coupling Linear Accelerators and their applications

      We introduce a new type of linear accelerator for which the cells are isolated, and the RF is fed from a set of manifold waveguides that runs in parallel with the structure. These structures were originally motivated by the desire to optimize the accelerator cavity shapes for high gradient operation, which led to mostly isolated cells. We discuss the efforts being pursued to apply these new structure topologies to future energy frontier linear colliders, medical linacs, and industrial linacs. The need to develop these linacs with high beam loading led us to create a new methodology for computing the beam loading, especially at very low energy. The beam dynamics and the RF loading need to be solved self-consistently. We will also discuss our efforts to invent new methods for economically manufacturing these structures.

      Speaker: Sami Tantawi (SLAC)
    • 7
      Lessons learnt in building a research capability for proton therapy; informing the design of a future Ion Therapy Research facility

      In April 2019 a meeting was held in Birmingham to discuss a future Ion Therapy Research Facility (ITRF). This meeting brought together a multidisciplinary audience including clinicians, clinical scientists, and academic scientists and engineers from across the life and physical sciences. Policy makers and funders also attended the meeting. The meeting agreed a consensus document and roadmap for the ITRF which was published in 2020 and this forms the basis of the ITRF which is being discussed with UKRI.

      In Manchester we have practical experience of designing a research capability for ion therapy research. When the NHS clinical proton therapy centre was designed in Manchester the fourth gantry space was set aside so that research capability could be integrated alongside the three clinical treatment gantries. The Christie Charity raised over £5.4M to build and equip this proton therapy research room.

      The research room was designed to investigate the key scientific and technological challenges that confront proton therapy and to provide a route for translating research innovations into the clinic for patient benefit. The research room was designed to emulate the clinical delivery of proton beams.

      This talk follows the building and commissioning of the proton therapy research room and the challenges encountered during the Covid-19 pandemic. It then goes on to highlight some of our latest results (including experiments conducted under ultra-high dose rate (FLASH)). It also talks about the latest innovations in the research room and how these are being developed to give world leading capabilities. It also demonstrates how working in partnership with clinical colleagues, the research is contributing to new innovations and clinical trials.

      Speaker: Karen Kirkby (University of Manchester)
    • 8
      The CERN LHC Injector Complex

      The recently-upgraded CERN LHC Injector complex is not only a key ingredient for the production of high-brightness beams for the LHC and the future HL-LHC, but also provides various types of beams to a very rich and varied fixed-target programme. A pulse-to-pulse modulated settings scheme make the injector complex very versatile, allowing efficient beam-time sharing for the experiments. This seminar will give an overview of the injector complex and its functioning, focusing on the production and delivery of beams to the various experimental areas.

      Speaker: Rende Steerenberg (CERN)