Giovanni Ciavola I3 EURONS-2 COMPLECS Town Meeting, Sept. 19th, 2007, Helsinki 1 INFN - GSI - GANIL - LPSC - JYFL - KVI CERN - ATOMKI- TSL - NIPNE - IKF-

Slides:

Advertisements

Similar presentations

Report from: the High Intensity Stable Beam Working Group HISB-WG Marie-Helene Moscatello (GANIL) Annamaria Porcellato (Legnaro) Uli Ratzinger (GSI) Faical.

Advertisements

JYFL-Jyväskylä K=130 AVF Cyclotron. JYFL Ion Sources 6.4 GHz ECR 14 GHz ECR Multicusp H - source.

Anomalous Ion Heating Status and Research Plan

Frequency tuning, space charge compensation and hollow beam structure

Superconducting Ion Source Development in Berkeley

WP-M3 Superconducting Materials PArametric COnverter Detector INFN_Genoa Renzo Parodi.

Pascal Sortais – LPSC/SSI - SFP Porquerolles Institut of Nuclear Physics (INS) Institut des Sciences Nucléaires (ISN) Cosmology and Subatomic Physic.

W. Udo Schröder, 2004 Instrumentation 1. W. Udo Schröder, 2004 Instrumentation 2 Probes for Nuclear Processes To “see” an object, the wavelength of the.

1 CENTER for EDGE PLASMA SCIENCES C E PS Status of Divertor Plasma Simulator – II (DiPS-II) 2 nd PMIF Workshop Sep. 19, 2011 Julich, Germany H.-J. Woo.

Cyclic MHD Instabilities Hartmut Zohm MPI für Plasmaphysik, EURATOM Association Seminar talk at the ‚Advanced Course‘ of EU PhD Network, Garching, September.

Ion Injector Design Andrew Seltzman.

Laser Magnetized Plasma Interactions for the Creation of Solid Density Warm (~200 eV) Matter M.S. R. Presura, Y. Sentoku, A. Kemp, C. Plechaty,

Modeling of Assisted and Self- Pinch Transport D. V. Rose and D. R. Welch Mission Research Corporation C. L. Olson Sandia National Laboratories S. S. Yu.

PARS Workshop on Novel Methods of Excitation of ULF/ELF/VLF to Improve Efficiency and Availability" November 3 - 6, 2002 Sponsored by Air Force Research.

UTILIZATION OF ELECTRICAL ENERGY UNITNAME OF UNIT 1Electric Heating Electric Welding 2Electrochemical Process Control Devices Electric Circuits – For AC.

Non-collisional ion heating and Magnetic Turbulence in MST Abdulgader Almagri On behalf of MST Team RFP Workshop Padova, Italy April 2010.

Remote Plasma Sputtering: Recent Developments in Understanding the Process S. Thornley, P. Hockley, M. Thwaites, J. Dutson Dr James Dutson Senior Development.

Ion Beam Cocktail Development and ECR Ion Source Plasma Physics Experiments at JYFL Olli Tarvainen 11th International Conference on Heavy Ion Accelerator.

DAF Distributed Accelerator Facility (DAF) Transnational Access Nodes: 1.Tandem Accelerator Laboratory, Rudjer Boskovic Institute (RBI), Zagreb, Croatia.

NON-EQUILIBRIUM HEAVY GASES PLASMA MHD-STABILIZATION IN AXISYMMETRIC MIRROR MAGNETIC TRAP A.V. Sidorov 2, P.A. Bagryansky 1, A.D. Beklemishev 1, I.V. Izotov.

HYBRIS: R. Keller Page 1 A Hybrid Ion Source Concept for a Proton Driver Front-End R. Keller, P. Luft, M. Regis, J. Wallig M. Monroy, A. Ratti, and.

Initial wave-field measurements in the Material Diagnostic Facility (MDF) Introduction : The Plasma Research Laboratory at the Australian National University.

“Ultra Pure and High Intensity Multiply Charged Radioactive Ion Beams” Associated institutes: IPNS KEK, Japan S. Jeong, N. Imai, M. Oyaizu, H. Myiatake.

29 th June–1 st July 2003NewLeif FP6 I3 Joint Research Activity No. 2 Innovative Low Energy Ion Beam Technologies Co-ordinator: R.W. McCullough, Queen’s.

Introduction utilization of electrical energy

December 2007ESF-Workshop, Athens, Greece University of Jyväskylä, Department of Physics ECR ion source for the highly charged, intensive ion beams H.

New Progress of High Current Gasdynamic Ion Source

Vacuum Spark Ion Source: High Charge States Ion Beam E.M. Oks, G.Yu. Yushkov, A.G. Nikolaev, and V.P. Frolova High Current Electronics Institute, Siberian.

Radioactive ion beam facilities How does they work ? 2012 Student Practice in JINR Fields of Research 9.oct.2012 I. Sivacekflerovlab.jinr.ru.

Outstanding Issues Gordon Holman & The SPD Summer School Faculty and Students.

Limitation of the ECRIS performance by kinetic plasma instabilities O. Tarvainen, T. Kalvas, H. Koivisto, J. Komppula, R. Kronholm, J. Laulainen University.

F. Azaiez (IPN-Orsay) The European Collaboration for Stable Ion Beams – ECOS Pushing the limits with high intensity stable beams A typical bottom up initiative.

Oliver Kester I3 EURONS EURONS, EURISOL-DS Town Meeting, Helsinki, Finland, Sept Advanced charge state breeding Objectives: To optimize the charge.

Introduction to Plasma- Surface Interactions Lecture 3 Atomic and Molecular Processes.

High Energy Nuclear Physics and the Nature of Matter Outstanding questions about strongly interacting matter: How does matter behave at very high temperature.

ICIS2015,Aug , 2015, New York, USA Further improvement of RIKEN 28GHz SC-ECRIS for production of highly charged U ion beam T. Nakagawa (RIKEN, Nishina.

The REXTRAP Penning Trap Pierre Delahaye, CERN/ISOLDE Friedhelm Ames, Pierre Delahaye, Fredrik Wenander and the REXISOLDE collaboration TAS workshop, LPC.

Development of the Room Temperature CH-DTL in the frame of the HIPPI-CARE Project Gianluigi Clemente,

The FAIR* Project *Facility for Antiproton and Ion Research Outline:  FAIR layout  Research programs Peter Senger, GSI USTC Hefei Nov. 21, 2006 and CCNU.

-Plasma can be produced when a laser ionizes gas molecules in a medium -Normally, ordinary gases are transparent to electromagnetic radiation. Why then.

Giovanni Ciavola, JRA-07 ISIBHI JRA-07 Ion Sources for Intense Beams of Heavy Ions (ISIBHI) EURONS PCC Meeting, Groningen, Holland, December 2006.

Accelerators and Sources Report from Discussion Session Jose Alonso 1.

1 ASIPP Sawtooth Stabilization by Barely Trapped Energetic Electrons Produced by ECRH Zhou Deng, Wang Shaojie, Zhang Cheng Institute of Plasma Physics,

The Heavy Ion Fusion Virtual National Laboratory Erik P. Gilson** PPPL 15 th International Symposium on Heavy Ion Fusion June 9 th, 2004 Research supported.

Recent progress of RIKEN 28GHz SC-ECRIS for RIBF T. Nakagawa (RIKEN) 1.Introduction RIKEN Radio isotope factory project 2.RIKEN 28GHz SC-ECRIS Structure(Sc-coils,

CHARACTERIZATION OF MICROWAVE DISCHARGE ION SOURCE FOR HIGH PROTON BEAM PRODUCTION IN CW AND PULSED MODE Rosalba Miracoli Consegna del premio “Francesco.

PS-ESS and LEBT State of the art Lorenzo Neri Istituto Nazionale di Fisica Nucleare Laboratori Nazionali del Sud.

Beam Preparation, Task 9 Department of Physics, University of Jyväskylä.

New prototype modulator for the European XFEL Project (DESY) Pulse Step Modulator (PSM) Technology for long pulse applications.

The 12th Symposium on Accelerator Physics, Yuzhong, Gansu, China1 Study of Beam Properties at SECRAL and The Solenoid Pre-focusing LEBT Youjin.

Page The ESS Proton Source & LEBT WP6-WU2 L. Celona Warm Linac meeting, 06 July 2011, INFN-LNS, Catania WU 1 – Management (S. Gammino) WU 2 – Proton Source.

DC Sputtering Disadvantage #1 Low secondary electron yield

Discussions on preparations for future (joint) research projects

Development of a new compact 5.8 GHz ECR ion source at LPSC

Highlights from INFN-MED

Study of Beam Properties at SECRAL and The Solenoid Pre-focusing LEBT

JLEIC ion source: specifications, design, and R&D prospects

V. Bagnoud PHELIX, Plasma Physics department GSI Darmstadt

DECRIS-PM ion source for DC-280 cyclotron

The 15th International Conference on Ion Sources (ICIS’13)

Commissioning of the AISHA Ion Source at INFN-LNS

Ion sources at LNS Slides from S. Gammino (INFN-LNS)

Machine studies during beam commissioning

E3 Hall layout L4f/1.5kJ/150 fs L4p/150J/150 fs – 10 ps L4n/

Single-frequency operation mode Double-frequency operation mode

How to run ions in the future?

M4 m4 WHAT IS A TOKAMAK? Graphic: EUROfusion, Reinald Fenke, CC BY 4.0,

WHAT IS ELECTRIC HEATING. WHAT IS THE PRINCIPLE BEHIND IT

The GDT device at the Budker Institute of Nuclear Physics is an experimental facility for studies on the main issues of development of fusion systems based.

Plans for future electron cooling needs PS BD/AC

Presentation transcript:

Giovanni Ciavola I3 EURONS-2 COMPLECS Town Meeting, Sept. 19th, 2007, Helsinki 1 INFN - GSI - GANIL - LPSC - JYFL - KVI CERN - ATOMKI- TSL - NIPNE - IKF- IAP COMPLECS Coupling Of Microwaves to PLasma for Electron Cyclotron resonance ion Sources The core of the JRA consists of the study and analysis devoted to the search for innovative methods able to increase the energy content of the plasma in ECR ion sources, with the final goal to obtain intense beams of highly charged heavy ions, with special regards to metallic elements, particularly important for the TNA.

Giovanni Ciavola I3 EURONS-2 COMPLECS Town Meeting, Sept. 19th, 2007, Helsinki 2 Key points  In the last three years, it was understood that a better knowledge of the plasma-wave interaction, of the plasma-wall interaction and of the multi-charged ion beam formation may permit important steps forward.  The ECR-heating has to be studied by taking into account the wave behaviour and the mode structure inside the plasma chamber.  Plasma diagnostics will study the hot electrons loss on the plasma chamber wall to improve the ECRIS physics understanding.  The improvement of ECR ion source performances has been based on the increase of confinement time and plasma density, so high magnetic field trap has been designed and higher frequency has been used.

Giovanni Ciavola I3 EURONS-2 COMPLECS Town Meeting, Sept. 19th, 2007, Helsinki 3 GSI : ions of (A/q) = 1 to 8.5 are needed, dc mode : Xe 20+ ~ 1 emA; pulsed mode : 6 mA of U 28+ GANIL, INFN-LNL: (q/A) = (1/3) 1 emA 36 Ar 12+ cw mode, krypton beams CERN : 1 emA Pb 27+ pulsed mode Cyclotrons (INFN-LNS, KVI, JYFL,TSL): heavy ion beams up to U 60+ between 0.1 and 5 eµA (cw mode) ECOS : emA with charge state as high as possible Requirements The comprehension of ion formation mechanism will be beneficial for all the existing sources within TNA, in particular for the sources that will produce intense beams of highly charged ions.

Giovanni Ciavola I3 EURONS-2 COMPLECS Town Meeting, Sept. 19th, 2007, Helsinki 4 Methods  The sources already existing (MS-ECRIS, A-PHOENIX, SERSE, and other sources available in the laboratories involved in this project) will be used for these tests.  For some ECRIS a possible extension of operating frequency and the use of broadband amplifiers is under consideration, with the contribution of the associated Inst. Appl. Phys., Nizhny Novgorod.  Special attention has to be paid to the beam formation, in order to ensure that a high quality ion beam is produced, even for high intensities, that will have beneficial effects on the transport.  The theory demonstrated that higher beam intensity can be achieved with lower microwave power, that results also in a higher source reliability and beam availability.

Giovanni Ciavola I3 EURONS-2 COMPLECS Town Meeting, Sept. 19th, 2007, Helsinki 5  Compact inductive oven may be the ideal tool for any facility.  Innovative methods and new material combinations are strongly required for all accelerator facilities. Metal ion beams Resistively heated oven developed during FP6 Metal ion beams production is not new, but indeed new methods are needed because the state of the art does not permit to satisfy all the requirements of Nuclear Physics experiments Problems occur for expensive/reactive/high melting point materials large dimensions and low reliability at the highest temperature up to 2000˚C

Giovanni Ciavola I3 EURONS-2 COMPLECS Town Meeting, Sept. 19th, 2007, Helsinki 6 Additional resources  In particular, different ECR ion sources may be used for the experiments, including MS-ECRIS and A-PHOENIX, built with a contribution of EU under FP6/EURONS.  A relevant number of diagnostics tools are already available at some laboratories and some other may be built in the coming years with own resources of the participating Institutions (beam diagnostics, microwave interferometry, optical diagnostics, etc.).  ‘Fresh money’ will be available from INFN, to build an innovative microwave generator, fulfilling the requirements needed, provided that a contribution of the same order would be available from EU.  Additional resources will be made available by the different Institutions.