Remarks on Russian capabilities in industrial accelerators development

Slides:

Advertisements

Similar presentations

WG 4: High Power Proton Accelerators S. Holmes, J. Thomason PASI Collaboration Meeting April 3-5, 2013.

Advertisements

Simulation Study For MEIC Electron Cooling He Zhang, Yuhong Zhang Thomas Jefferson National Accelerator Facility Abstract Electron cooling of the ion beams.

Accelerators Mark Mandelkern. For producing beams of energetic particles Protons, antiprotons and light ions heavy ions electrons and positrons (secondary)

An Advanced Linear Accelerator Facility for Microelectronic Dose Rate Studies P.E. Sokol and S.Y.Lee Indiana University.

Office of Science Perspective Symposium on Accelerators for America’s Future October 26, 2009 Dr. William F. Brinkman Director, Office of Science U.S.

Radiological and Experimental Facilities Based On INR Proton LINAC Institute for nuclear research of RAS, Moscow , Russia Sergey Akulinichev, Leonid.

State supporting science and technology challenge. Measures for modern scientific landscape. By Lyudmila Ogorodova Deputy Minister, Ministry of Education.

FFAG Fixed Field Alternating Gradient synchrotrons, FFAGs, combine some of the main advantages of both cyclotrons and synchrotrons:  Fixed magnetic field.

Particle accelerator and Advanced accelerator technologies Advanced Instrumentation and Detector technologies Advanced Light Source Application of Accelerator.

The JINR engineering infrastructure is a multi component structure of the interacting elements. The following subsystems have the greatest effect on integrative.

Jefferson Lab Strategic Planning Divisional Town Meeting Mission Statement of your Division – What is or should be the mission statement of your division?

U.S. Civilian Research and Development Foundation National Research Nuclear University - Moscow Engineering Physics Institute Ministry of Education and.

Ion Polarization Control in MEIC Rings Using Small Magnetic Fields Integrals. PSTP 13 V.S. Morozov et al., Ion Polarization Control in MEIC Rings Using.

Activities of Superconducting RF Accelerators at Nanjing University Sun An Proton Linear Accelerator Institute Institute of Energy Sciences, Nanjing University.

Southern Federal University Elena D. Ryabenkaya Deputy Director, International Relations Department Rostov-on-Don, Russia.

Institute of Heavy Ion Physics Kexin Liu November 5, 2008.

th session of JINR SC 1 JOINT INSTITUTE FOR NUCLEAR RESEARCH Recommendations of the JINR Directorate for the financing of projects and themes.

A Plan to Construct a Rare Isotope Accelerator Facility KoRIA S. W. Hong Sungkyunkwan University (SKKU) On behalf of Conceptual Design Project Team S.

National Authority for Scientific Research IFIN-HH.

FALC Technology Benefits study P. Grannis Beijing GDE meeting Feb. 7, 2007 FALC = Funding Agencies for Large Colliders is composed of representatives from.

Pavel Karataev John Adams Institute for Accelerator Science At Royal Holloway, University of London oPAC Advanced School on Accelerator Optimisation 7-11.

Test-beam facility at IHEP CAS An Guangpeng, Li Jiacai CEPC-SPPC Study Group Meeting IHEP

Report of Visiting PKU, Tsinghua U. IHEP Dec. 9 and 10, 2009 Kaoru Yokoya, Marc Ross, and Akira Yamamoto Report to ILC-EC, Dec. 11, 2008.

Snowmass 2001 Accelerator Technology Benefits to Other Sciences & to Society Alan Jackson, LBNL.

Large Diagnostic Neutral Beam Injectors of Budker Institute of Nuclear Physics Budker Institute of Nuclear Physics, , Novosibirsk, Russia V.Davydenko.

Status of the Source of Polarized Ions project for the JINR accelerator complex (June 2013) V.V. Fimushkin, A.D. Kovalenko, L.V. Kutuzova, Yu.V. Prokofichev.

Office of Science U.S. Department of Energy 1 International Linear Collider In August 2004 ICFA announced their technology selection for an ILC: 1.The.

ERHIC with Self-Polarizing Electron Ring V.Ptitsyn, J.Kewisch, B.Parker, S.Peggs, D.Trbojevic, BNL, USA D.E.Berkaev, I.A.Koop, A.V.Otboev, Yu.M.Shatunov,

EuCARD-2 is co-funded by the partners and the European Commission under Capacities 7th Framework Programme, Grant Agreement An Introduction to EuCARD-2.

Republic of Serbia. Improve people’s lives through preeminent research, education, and creative endeavor.

Polarization in ELIC Yaroslav Derbenev Center for Advanced Study of Accelerators Jefferson Laboratory EIC Collaboiration Meeting, January 10-12, 2010 Stony.

ENLIGHT,12/2/20021 Health and Science, can CERN contribute? The Mission of CERN (1954): “The Organization shall provide for collaboration among European.

1 Historical overview Moscow Mechanical Institute was founded in The main purpose of foundation – training of researchers and engineers for USSR.

1 NICA Project Report of The Group I S.L.Bogomolov, A.V.Butenko, A.V.Efremov, E.D.Donets, I.N.Meshkov, V.A.Mikhailov, A.O.Sidorin, A.V.Smirnov, Round Table.

EuCARD-2 is co-funded by the partners and the European Commission under Capacities 7th Framework Programme, Grant Agreement EuCARD-2, ADS, linacs,

г. 1 г.Санк-Петербург Research and Practical Conference "Accelerators and Radiation Technologies for the future of Russia". HIGH POWER ELV.

PARTICLE PHYSICS IN RUSSIA R-ECFA Meeting in Moscow, 9-10 October, 2009V.Matveev Participating Institutes and Universities Participating Institutes and.

ARW 2013 Opening Melbourne, Australia, 15 April 2013 Dr Mark Boland Principal Scientist Accelerator Physics Australian Synchrotron ACAS Deputy Director.

Universities meet Laboratories Frankfurt am Main, 30 September – 1 October 2014, Germany 1 Development of Accelerator Laboratories in Slovakia Marius Pavlovic,

Research and Practical Conference “Accelerators and Radiation technologies for the Futures of Russia” September 2012, Saint-Petersburg Proton Radiation.

Overview Turkish Projects TAC / TARLA Avni Aksoy Ankara University Institute of Accelerator Technologies.

B u d k e r I N P VEPP-4M tunnel view BINP accelerator facilities J/  and  physics  - lepton precise mass measurement  - physics 5 GeV collider.

European Small-Scale Accelerator Facilities S. Harissopulos: NuPECC Strategy Meeting, Darmstadt, January 16, 2016.

Dr Mark Boland Principal Scientist Accelerator Physics AXXS Australian X-band XFEL Source at the Australian Synchrotron On behalf of the Accelerator Science.

ISIS – Rutherford Appleton Cockcroft -Walton LINAC Muons Neutrons Synchrotron.

Capabilities and Programmes of STFC’s Accelerator Science & Technology Centre (ASTeC)

The Laboratori Nazionali di Frascati of the Istituto Nazionale di Fisica Nucleare 1.

Introduction to CERN F. Hahn / CERN PH-DT1 10. May 2007.

NA2 in RUSSIA – Plans for 2005 R D I G Tatiana Strizh

MSc-Student Activities at the European XFEL

J. Alexander + Cornell accelerator group Cornell University

Status and prospects of VEPP-5 Injection Complex

Super-c-tau factory in Novosibirsk

S. V. Vasiliev, A. S. Kasaev, D. E. Berkaev, V. V. Balakin

with colliding electron-positron beams (Super Charm-Tau Factory, SCT)

Injection facility for Novosibirsk Super Charm Tau Factory

Status of the VEPP-2000 Collider Project at Novosibirsk

eRHIC with Self-Polarizing Electron Ring

ERL accelerator review. Parameters for a Compton source

INFN and the ILC S. Bertolucci, INFN.

Electron Rings Eduard Pozdeyev.

3rd International Conference Terahertz and Microwave Radiation: Generation, Detection and Applications (TERA-2018). Nizhny Novgorod, Russia, October 22.

Particle Accelerators in China Particle Accelerator Branch, Chinese Physics Society The China Association for Science and Technology P.O. Box 918, Beijing.

with colliding electron-positron beams (Super Charm-Tau Factory, SCT)

Novel Accelerator and Detector Systems

The MTCA/ATCA Workshop for Research and Industry

The Laboratori Nazionali di Frascati of the

MEIC Alternative Design Part V

JLEIC Accelerator R&D Meeting

Plasma : high electic field can accelerate electron and proton laser plasma accelerator can reduced size of future accelerator can produced particle beam.

Presentation transcript:

Remarks on Russian capabilities in industrial accelerators development Eugene Levichev Budker INP, Novosibirsk, Russia

Accelerators in Russia Traditionally accelerator science and technology have strong position in Russia Glorious names: Veksler, Budker, Kolomensky, Skrinsky, Sarantsev, … Achievements: RF acceleration stability, colliding beams, electron cooling, RFQ principle, linear colliders, muon colliders, … Proton and ion accelerators: JINR, IHEP, ITEP,… Electron accelerators: BINP, NIIEFA, … There are technologies and experience in Russian scientific organization to develop and produce of any kind of accelerator

Example: Budker Institute of Nuclear Physics Positron/electron colliders Positron/electron injection facilities for HEP Proton accelerators for electron cooling experiments Powerful accelerators for plasma heating Basic research Synchrotron radiation and FEL Industrial electron accelerators Accelerators for medical application Accelerator mass spectrometer Neutron generators Electron/ion sources Applied research Total staff of BINP is ~2700: Scientists ~ 500 Engineers ~ 400 Laboratory technicians ~ 400 Workshop personnel ~ 1000 Administration ~ 200 Support personnel ~ 200

BINP accelerators for basic science VEPP-4 collider VEPP-2000 collider Plasma heating accelerator Positron damping ring 300 MeV linac Electron cooler

BINP accelerators for industry ILU accelerator BNCT neutron generator ELV accelerator 10 MeV RF accelerator Parallel feeding RF linac 2 kA 2MeV inductive electron accelerator AMS tandem

What do we need to develop radiation technologies in Russia? Integration of specialists in acc and rad technologies. RadTech Association is very positive! This workshop is very positive! (Thanks to organizers) Accelerator science and technology in Russia are more advanced than radiation technology (chemistry, biology, semiconductors, etc.). We need educate radiation technology specialists. Integration of all Russian structures (collaboration, not competition!). RAS Accelerator Council should be definitely incorporated in this activity. We need a network of multipurpose industrial accelerator centers to develop new radiation technologies and to educate relevant specialists.

Summary Russia has a strong potential for development of accelerators and radiation technologies Arrangement on a governmental level is necessary (financial supports, legal issues, coordination, etc.) Collaboration of all Russian organizations active in this field is necessary (Role of Association). Special education program for radiation industry (Sk University?). International collaboration with foreign scientific centers and companies is desirable. 7 7