1. Research and PhD programmes at the York Plasma Institute Professor Kieran Gibson York Plasma Institute Department of Physics, University of York kieran.gibson@york.ac.uk Fusenet Fusenet

2. York Plasma Institute The York Plasma Institute: Our vision: “To establish a world-leading interdisciplinary plasma institute, with an international reputation for fundamental plasma science and related technology, collaborating with existing industries and fostering the development of new start-up companies” Staff, PhD and MSc students YPI Laboratories Opening by Prof Sir John Beddington, 1/10/2012

3. York Plasma Institute York Plasma Institute: The three research strands Academic staff span three strands, supported by Industry Officer (Dr Kate Lancaster) Magnetic confinement fusion – Prof Howard Wilson (lead) – Prof Kieran Gibson – Dr Roddy Vann – Dr Ben Dudson – Prof Bruce Lipschultz – Dr Matt Reinke – Laser-plasma interaction – Prof Greg Tallents (lead) – Dr Nigel Woolsey – Dr John Pasley – Dr Chris Ridgers – Prof Geoff Pert, FRS (emeritus) Low temperature plasmas – Prof Timo Gans (lead) – Dr Deborah O’Connell – Dr Erik Wagenaars 7 PDRA staff and Research Officer 30 PhD students

4. York Plasma Institute YPI laboratories Provides local experimental capability in support of large IFE and MFE facilities Specialist low temperature plasma labs and diagnostics for surface processing of materials (including biomedical applications at atmospheric pressure)

5. York Plasma Institute Tokamak research supported by local remote control room access: York Remote Tokamak Control Room offers a model for remote data acccess and experiment control Enables academic engagement at all levels (UG, PGT, PGR and staff) Very effective in support of recent campaigns on MAST and support for KSTAR experiments led by York

6. York Plasma Institute Simulation facilities HECToR (UK) and HELIOS (IFERC) provide our high performance computing capability HELIOSHECToR

7. York Plasma Institute Magnetic Confinement Fusion

8. York Plasma Institute Tokamak research based in UK… A hot plasma in fusion conditions is confined in a toroidal chamber called a tokamak using magnetic fields MAST and JET at Culham Science Centre provide world-leading facilities for researching a range of fusion plasma phenomena MAST JET

9. York Plasma Institute …and overseas

10. York Plasma Institute …and overseas

11. York Plasma Institute Research themes Plasma turbulence and eruptions are a key challenge in fusion Examples of plasma research areas include: Quenching of turbulence by flows Plasma eruptions, or ELMs Exhaust properties Research spans experimental and theoretical physics

12. York Plasma Institute Magnetic fusion energy: The future’s ITER ITER is a €15Bn+ international fusion facility designed to answer the last technical and scientific questions required to construct a fusion power plant Under construction in southern France, ITER will be operational from 2020

13. York Plasma Institute Laser-Plasma Interaction

14. York Plasma Institute Laser-plasma interactions: Inertial fusion energy Inertial fusion is another approach to fusion energy: – Large laser facilities (or other drivers) used to compress DT ice pellet Orion laser facility, AWE Vulcan laser, Central Laser Facility www.clf.rl.ac.uk HiPER IFE reactor design

15. York Plasma Institute Laser-plasma interactions: Laboratory astrophysics High power lasers can be used to recreate conditions relevant to astrophysics here on Earth In a collaboration led by Oxford University, with Strathclyde, York, LULI, LLNL, etc have demonstrated a mechanism for seeding the inter-galactic magnetic field (Biermann battery)

16. York Plasma Institute Laser-plasma interactions: Manufacturing Lasers are used in a range of manufacturing technologies One example we at York are exploring in collaboration with Colarado State University is the potential of “EUV” lasers for manufacturing micro-machines (MEMS: micro-electromechanical systems) Image from http://www.memx.com/ http://www.memx.com/

17. York Plasma Institute Low Temperature Plasmas

18. York Plasma Institute Low temperature plasmas: Technology applications Low temperature plasmas have a wide range of uses in industry  Nanofabrication, eg computer chips  Coating technologies  Modifying surface functionality  Environmental applications York’s strong collaboration with Intel Diagnosis and control of low temperature plasmas is a key area of research at York

19. York Plasma Institute Low temperature plasmas: Technology applications Low temperature plasmas have a wide range of uses in industry  Nanofabrication, eg computer chips  Coating technologies  Modifying surface functionality  Environmental applications Diagnosis and control of low temperature plasmas is a key area of research at York

20. York Plasma Institute Low temperature plasmas have a wide range of potential biomedical applications being researched at York and other UK universities:  Surgery  Sterilisation, eg biofilms  Wound healing  Cancer treatment Low temperature plasmas: Biomedical applications Arthrocare

21. EPSRC Centre for Doctoral Training in The Science and Technology of Fusion Energy

22. A training programme with total value over £12M part of ~£350M EPSRC initiative across all areas of physical sciences and engineering York Plasma Institute leads network of 5 Universities (Durham, Liverpool, Manchester, Oxford, York) Key features  4-year doctoral programme  Typical intakes of 10-14 students per year for up to 5 intakes  formal assessable coursework (innovative delivery, broadening skills...)  Original research project  Cohort approach (eg peer-peer learning)  Transferable skills and outreach The FCDT Scheme: key features

23. High-level pathway to fusion identified in RCUK Energy programme report “A 20-year vision for the UK contribution to fusion as an energy source” (2010) The next generation of international fusion devices, whether IFE or MFE, will integrate plasma physics, materials science and technology Training must ensure world-class scientists are developed to take leading roles on international facilities such as ITER, NIF, IFMIF. Justification: need for this centre

24. Two strands: Materials and Plasma The programme develops two overlapping strands to provide breadth and depth  Materials strand  Plasma strand Core provides breadth Plasma strand provide depth Materials strand provide depth

25. Training: Taught programme

26. Skills are integrated into the taught programme – Group presentations in “materials applications” and “Project management” – Remote collaboration in “Project management” – Teamwork skills in the Plasma-Material interaction lab – Proposal writing, paper writing and presentation skills in Collaboratory (year 2) – Nuclear safety integrated into “Fusion Experience” course (year 3-4) In addition, there are some dedicated professional development activities:  Continuation of successful sundome outreach programme  Two high profile outreach days at CCFE and RAL, involving media, industry and children  Teambuilding courses  Programme management and QA  “Fusion experience” at CCFE, RAL and AWE (a week-long course led by national labs)  Summer schools and international conferences  Extended research placement at an international laboratory or industry (at least 3-4 weeks) York’s postgraduate professional development courses are available to all: – CV-writing; interview technique; presentation skills; Latex; IP and patents; enterprise… Training: Professional development

27. Skills are integrated into the taught programme – Group presentations in “materials applications” and “Project management” – Remote collaboration in “Project management” – Teamwork skills in the Plasma-Material interaction lab – Proposal writing, paper writing and presentation skills in Collaboratory (year 2) – Nuclear safety integrated into “Fusion Experience” course (year 3-4) In addition, there are some dedicated professional development activities:  Continuation of successful sundome outreach programme  Two high profile outreach days at CCFE and RAL, involving media, industry and children  Teambuilding courses  Programme management and QA  “Fusion experience” at CCFE, RAL and AWE (a week-long course led by national labs)  Summer schools and international conferences  Extended research placement at an international laboratory or industry (at least 3-4 weeks) York’s postgraduate professional development courses are available to all: – CV-writing; interview technique; presentation skills; Latex; IP and patents; enterprise… Full programme meets FuseNet accreditation

28. The Fusion DTN hosted the third Fusenet PhD event in York: June 2013 About 70 PhD students attended, playing a leading role in the organisation –Programme committee was student led, with representation from France, Germany, Holland and UK –Students chaired sessions –Students provided written feedback on each others presentations –Student posters and talks constituted most of the event –Networking and leadership skills developed: “speed dating event” and debate Good student feedback: average of 4.3 out of maximum 5 Fusenet PhD Event

29. Frontiers of Fusion Dr Dame Sue Ion, Professor Sir Chris Llewellyn-Smith, Stephen Biggs, Dr Michael Coppins, Dr Gianfranco Federici, Matthias Hirsch, Chris Holland, Dr Tim Horbury, Dr Guido Huijsmans, Craig Loch, Professor Paul McKenna, Dr Andrew Randewich, Dr Jack Snape, and Alan Sykes.

30. Any Questions?