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Workshops on “ Instrumentation for Diagnostics and Control of

Workshops on “ Instrumentation for Diagnostics and Control of Laser-accelerated Proton (Ion) Beams “. Paul R. Bolton, Quantum Beam Science Directorate, Kansai Photon Science Institute, Japan Atomic Energy Agency. Instrumentation development:

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Workshops on “ Instrumentation for Diagnostics and Control of

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  1. Workshops on “ Instrumentation for Diagnostics and Control of Laser-accelerated Proton (Ion) Beams “ Paul R. Bolton,Quantum Beam Science Directorate,Kansai Photon Science Institute,Japan Atomic Energy Agency

  2. Instrumentation development: physical foundation for our lofty goals - establishes what we know experimentally and why we believe it companion development for new science & technology, complex machines & facilities (XFEL example) still significant issues in Ion Beam Radiotherapy (IBRT) – eg. World Congress 2012 in Beijing: Medical Physics and Biomedical Engineering

  3. Instrumentation development: physical foundation for our lofty goals - establishes what we know experimentally and why we believe it companion development for new science & technology, complex machines & facilities (XFEL example) still significant issues in Ion Beam Radiotherapy (IBRT) – eg. World Congress 2012 in Beijing: Medical Physics and Biomedical Engineering for laser-driven particle accelerator system: goal is ‘accelerator quality’ laser as an integrated component - source, diagnostics, controls verify machine design monitor & optimize performance

  4. Instrumentation development: physical foundation for our lofty goals - establishes what we know experimentally and why we believe it companion development for new science & technology, complex machines & facilities (XFEL example) still significant issues in Ion Beam Radiotherapy (IBRT) – eg. World Congress 2012 in Beijing: Medical Physics and Biomedical Engineering for laser-driven particle accelerator system: goal is ‘accelerator quality’ laser as an integrated component - source, diagnostics, controls verify machine design monitor & optimize performance ideally noninvasive, online, prompt readout (at rep-rate), robust, single bunch/shot resolutions correlate single laser pulse parameters with target state and single bunch parameters (at a rep-rate)

  5. Integrated Laser-driven Ion Accelerator System = ILDIAS (about accelerator quality) ILDIAS medical applications: -radiobiology (cellular) -tissue irradiation -dosimetry -imaging/radiography -beam delivery other applications: applications laser/plasma-centric accelerator-centric ILDIAS concept distinguishes beam transport from application-specific delivery …

  6. Integrated Laser-driven Ion Accelerator System = ILDIAS (about accelerator quality) ILDIAS • laser • systems: • -highest • peak power • (single shot) • rep-rated • systems laser-plasma studies: -laser pulse and target parameters -scaling medical applications: -radiobiology (cellular) -tissue irradiation -dosimetry -imaging/radiography -beam delivery other applications: applications laser/plasma-centric accelerator-centric ILDIAS concept distinguishes beam transport from application-specific delivery …

  7. Integrated Laser-driven Ion Accelerator System = ILDIAS (about accelerator quality) ILDIAS • laser • systems: • -highest • peak power • (single shot) • rep-rated • systems laser-plasma studies: -laser pulse and target parameters -scaling transport optics: -collection -collimation -injection -beamline R&D -post-accel. structures medical applications: -radiobiology (cellular) -tissue irradiation -dosimetry -imaging/radiography -beam delivery other applications: applications laser/plasma-centric accelerator-centric ILDIAS concept distinguishes beam transport from application-specific delivery …

  8. Integrated Laser-driven Ion Accelerator System = ILDIAS (about accelerator quality) ILDIAS • laser • systems: • -highest • peak power • (single shot) • rep-rated • systems laser-plasma studies: -laser pulse and target parameters -scaling targetry: -conditioning -motion & positioning -diagnostics • instrumentation: • diagnostics • (ion bunch, laser, • laser-plasma, • target state, • correlations…) • calibrations • -controls transport optics: -collection -collimation -injection -beamline R&D -post-accel. structures medical applications: -radiobiology (cellular) -tissue irradiation -dosimetry -imaging/radiography -beam delivery other applications: applications laser/plasma-centric accelerator-centric ILDIAS concept distinguishes beam transport from application-specific delivery …

  9. “ Instrumentation for Diagnostics and Control of Laser-accelerated Proton (Ion) Beams: First Workshop” Back Row: Stuart Green, Martin Tolley, Markus Roth, Alessandro Flacco, Dario Giove, Paul Mckenna, Sargis Ter-Avetisyan, Sabine Reinhardt, Vincent Floquet, Carlo DeMartinis Front Row: Julien Fuchs, Nick Dover, James Green, Ceri Brenner, Paul Bolton, David Neely, Rajendra Prasad, Ulrich Schramm, Giorgio Turchetti Cosener’s House in Abingdon, UK ; August 9 &10, 2010

  10. First Workshop in 2010 was a good start Diagnostics with Post-processing - RCF and Image Plates: diagnostic features, limitations, post-processing, dynamic range, calibration, imaging spectroscopy (spatial and spectral resolutions), dosimetry Prompt, inline Diagnostics (rep-rated) – scintillators , CCD’s, MCP’s: diagnostic features, calibration, limitations

  11. First Workshop in 2010 was a good start Diagnostics with Post-processing - RCF and Image Plates: diagnostic features, limitations, post-processing, dynamic range, calibration, imaging spectroscopy (spatial and spectral resolutions), dosimetry Prompt, inline Diagnostics (rep-rated) – scintillators , CCD’s, MCP’s: diagnostic features, calibration, limitations Spectrometry – Thomson: design and detection features, multi-pinhole technique comparison with RCF (imaging spectroscopy) Correlated Plasma Diagnostics – TASRI (time and space resolved interferomtry with chirped probes) electron density and temperature (hot and cold)

  12. First Workshop in 2010 was a good start Diagnostics with Post-processing - RCF and Image Plates: diagnostic features, limitations, post-processing, dynamic range, calibration, imaging spectroscopy (spatial and spectral resolutions), dosimetry Prompt, inline Diagnostics (rep-rated) – scintillators , CCD’s, MCP’s: diagnostic features, calibration, limitations Spectrometry – Thomson: design and detection features, multi-pinhole technique comparison with RCF (imaging spectroscopy) Correlated Plasma Diagnostics – TASRI (time and space resolved interferomtry with chirped probes) electron density and temperature (hot and cold) Nuclear Activation: imaging spectroscopy (stack detection (eg. 63Cu (p,n) 63Zn ) nuclear pyrometry (single foil detection) features/application of autonomous PET (micro)Targetry: integrate fabrication and metrology for state & positioning (rep-rate issues) diverse approaches, adaptability, standards requirements

  13. First Workshop in 2010 was a good start Facilities, Programs and Applications….. PROMETHEUS program – LILIA experiment with FLAME laser (Frascati) and laser-injection LIGHT @ GSI – Laser Ion Generation, Handling and Transport (injector project) Instrumentation-Targetry at LIBRA (RAL/STFC) – Synergies for Laser-driven Systems and Applications “Opportunities and Challenges Arising from Laser-driven Particle Therapy” (Oxford) “Dose-dependent Biological Damage of Tumor Cells by Laser-accelerated Proton Beams” (FZD) Diagnostics at UH100 Facility (CEA/SPAM/PHI)

  14. First Workshop in 2010 was a good start Facilities, Programs and Applications….. PROMETHEUS program – LILIA experiment with FLAME laser (Frascati) and laser-injection LIGHT @ GSI – Laser Ion Generation, Handling and Transport (injector project) Instrumentation-Targetry at LIBRA (RAL/STFC) – Synergies for Laser-driven Systems and Applications “Opportunities and Challenges Arising from Laser-driven Particle Therapy” (Oxford) “Dose-dependent Biological Damage of Tumor Cells by Laser-accelerated Proton Beams” (FZD) Diagnostics at UH100 Facility (CEA/SPAM/PHI) manuscript draft is in progress based on this material presented at the First Workshop

  15. Second Workshop Program indicates an appropriate continuation of this focus and healthy exchange… - consider publishing additional new material based on this workshop - consider website for workshop presentation slides and shared information (similar to suggestions from the Abingdon meeting)

  16. Second Workshop Program indicates an appropriate continuation of this focus and healthy exchange… - consider publishing additional new material based on this workshop - consider website for workshop presentation slides and shared information (similar to suggestions from the Abingdon meeting) we begin with a Special Thanks to Julien for Hosting the Second Workshop Third Instrumentation Workshop in 2014 will be hosted by Markus Roth in Darmstadt (TUD)

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