会议名称(英文): Fifth International Particle Accelerator Conference 所属学科: 基础物理学,原子和分子物理,粒子物理与核物理 开始日期: 2014-06-15 结束日期: 2014-06-20 所在国家: 德国 所在城市: 德国 具体地点: International Congress Center Dresden, Germany 主办单位: Helmholtz-Zentrum Dresden-Rossendorf (HZDR) 摘要截稿日期: 2013-12-04 联系人: Sylvia Neumann 联系电话: +49 351 32017320 传真: +49 351 32017333 E-MAIL: sneumann@intercom.de 会议网站: http://www.ipac14.org/
会议背景介绍: We are pleased to announce that the 5th International Particle Accelerator Conference IPAC’14 will take place at the International Congress Center Dresden, Germany, from June 15 - 20, 2014. The conference has been held consecutively in Asia, Europe and North America since 2010, and combines the previous continental conferences. This is the second IPAC to be held in Europe.
Dresden - also known as the 'Florence of the North' - has a history of more than 800 years. The city is famous for its splendid art collections, baroque architecture and exciting cultural life. More than 9.5 million visitors come to Dresden each year.
Dresden has developed a unique atmosphere, characterized formerly by its role as a royal residence and now by that of a federal-state capital. The flair of the city is based above all on its blend of architectural sights, world famous collections and living traditions in music and fine arts. Even today the buildings from the Renaissance, Baroque and 19th century decorate the banks of the Elbe and make up the face of the city.
The International Congress Center is located on the River Elbe with a spectacular view of Dresden, next to the historical city centre and near to most of the hotels. It operates in close cooperation with its direct neighbor – the newly-reconstructed Maritim Hotel on the premises of the old Erlwein storehouse. The modern congress venue offers very modern facilities and stages for artists and cultural performances including an outside terrace of more than 3000 square metres in size from where visitors have a magnificent view of the illuminated historical city centre. The International Congress Center Dresden can host events with up to 3000 participants.
IPAC’14 is hosted by the Helmholtz-Zentrum Dresden-Rossendorf (HZDR) and supported by the GSI Helmholtzzentrum für Schwerionenforschung, Helmholtz-Zentrum Berlin (HZB) and Deutsches Elektronensynchrotron (DESY).
We look forward to welcoming you to Dresden and meeting you at the conference.
征文范围及要求: 01 Circular and Linear Colliders
SPC Coordinators, Rüdiger Schmidt, CERN, Katsunobu Oide, KEK
Classification 1 is devoted to synchrotrons and storage rings providing colliding beams for particle physics experiments, essentially lepton and hadron colliders in operation, under construction or under development. It includes facilities colliding beams from circular accelerators with beams from other types of accelerators, such as linac-ring colliders. Among the subjects for this session are operating experience and performance limitations, upgrade plans, accelerator physics and technology issues specific to a certain collider and the design and R&D for future projects.
Sub-classifications associated with MC 01 are:
A01 Hadron Colliders 

A02 Lepton Colliders 

A03 Linear Colliders

A08 Linear Accelerators

A09 Muon Accelerators and Neutrino Factories

A10 Damping Rings

A12 FFAG 

A16 Advanced Concepts 

A17 High Intensity Accelerators 

A18 Energy Recovery Linacs (ERLs) 

A19 Electron-Hadron Colliders 

A23 Accelerators and Storage Rings, Other 

T12 Beam Injection/Extraction and Transport 

T19 Collimation
02 Synchrotron Light Sources and FELs
SPC Coordinators: Anke-Susanne Müller, KIT, In Soo Ko, POSTECH
Classification 2 covers Light Sources based on synchrotron storage rings and linacs including Energy Recovery Linacs (ERLs) and FELs. These light sources incorporate advanced insertion devices, including high quality planar and helical field undulators based on permanent magnet or electromagnet technologies. Associated accelerator systems, such as injectors, booster synchrotrons, photon beam line and photon beam line components can also be proposed for this Session, as can laser systems and their use. Papers presented can be project descriptions or cover individual aspects of light sources. Both theoretical and experimental results are solicited.
Sub-classifications associated with MC 02 are:
A05 Synchrotron Radiation Facilities 

A06 Free Electron Lasers 

A16 Advanced Concepts 

A18 Energy Recovery Linacs (ERLs) 

T02 Electron Sources 

T12 Beam Injection/Extraction and Transport 

T15 Undulators and Wigglers 

T25 Lasers

T26 Photon Beam Lines and Components
03 Particle Sources and Alternative Acceleration Techniques
SPC Coordinators: Deepa Angal-Kalinin, STFC, Georg Hoffstaetter, CLASSE
Classification 3 is devoted to (i) all aspects of the design and development of particle sources, including sources of electrons and protons, neutrons, ions, and secondary particles and antiparticles; and (ii) to new concepts of accelerating techniques which may overcome the present limitations due to size and cost of future large accelerators or give access to very new beam characteristics.
Sub-classifications associated with MC 03 are:
A09 Muon Accelerators and Neutrino Factories 

A12 FFAG 

A15 New Acceleration Techniques 
A16 Advanced Concepts 

A17 High Intensity Accelerators 

A20 Radioactive Ions 

A21 Secondary Beams 

A22 Plasma Wakefield Acceleration 

D04 High Intensity in Linear Accelerators - Incoherent Instabilities, Space Charge, Halos, Cooling

T01 Proton and Ion Sources 
T02 Electron Sources

T28 Neutron Sources
04 Hadron Accelerators
SPC Coordinators: Mats Lindroos, ESS, Stuart Henderson, FNAL
Classification 4 is devoted to designing, developing, upgrading, constructing and commissioning low-, medium- and high-energy hadron accelerators, excluding hadron colliders. The session includes ion sources, electrostatic accelerators, proton and ion linear accelerators, proton and ion synchrotrons, radioactive beam facilities, antiproton accumulators and collectors, ion accumulator and storage rings, cyclotrons, synchrocyclotrons, FFAGs and any other similar machines. Both low- and high-intensity machines are covered, as are all relevant aspects of high-intensity fixed-target machines such as proton drivers for spallation neutron sources, neutrino factories, etc.
Sub-classifications associated with MC 04 are:
A04 Circular Accelerators 

A07 Electrostatic Accelerators 

A08 Linear Accelerators 

A11 Beam Cooling 

A12 FFAG 

A13 Cyclotrons 

A14 Neutron Spallation Facilities 

A16 Advanced Concepts 

A17 High Intensity Accelerators 

A21 Secondary Beams 

T01 Proton and Ion Sources 

T12 Beam Injection/Extraction and Transport 

T19 Collimation

T28 Neutron Sources
05 Beam Dynamics and Electromagnetic Fields
SPC Coordinators: Olivier Napoly, CEA Alex Chao, SLAC
Classification 5 includes reviews and progress reports on general aspects of electro-magnetic interaction of charged particle beams in accelerators and storage rings. It covers linear and non-linear beam optics, modeling of externally applied or beam-generated electro-magnetic fields, as well as theory, observations and simulations of single-particle dynamics and collective effects, both coherent and incoherent. The emphasis is on deepening the understanding of fundamental processes or limitations governing beam dynamics and uncovering possible new mechanisms relevant to accelerator design and performance, independent of technological or project-specific aspects.
Sub-classifications associated with MC 05 are:
D01 Beam Optics – Lattices, Correction Schemes, Transport 

D02 Non-linear Dynamics – Resonances, Tracking, Higher Order
D03 High Intensity in Circular Machines – Incoherent Instabilities, Space Charge, Halos, Cooling
D04 High Intensity in Linear Accelerators – Incoherent Instabilities, Space Charge, Halos, Cooling
D05 Instabilities – Processes, Impedances, Countermeasures
D06 Code Developments and Simulation Techniques
06 Instrumentation, Controls, Feedback & Operational Aspects
SPC Coordinators: Kay Wittenburg, DESY, Qing Qin, IHEP
Classification 6 is devoted to measurement and control of the beam parameters in particle accelerators including beam diagnostics and instrumentation, beam feedback systems, timing and synchronization schemes and laser-based instrumentation. Included also are contributions on accelerator/storage ring control systems and operational aspects of modern accelerators such as alignment and surveying methods, machine protection systems, and issues pertaining to reliability and operability and to radiation monitoring and safety.
Sub-classifications associated with MC 06 are:
T03 Beam Diagnostics and Instrumentation
T04 Accelerator/Storage Ring Control Systems
T05 Beam Feedback Systems 
T17 Alignment and Survey
T18 Radiation Monitoring and Safety
T22 Reliability, Operability
T23 Machine Protection
T24 Timing and Synchronization
T25 Lasers
T26 Photon Beam Lines and Components
07 Accelerator Technology Main Systems
SPC Coordinators: Paolo Pierini, INFN LASA, Gwo-huei Luo, NSRRC
Classification 7 is devoted to contributions on the design, construction, testing and performance of accelerator components or subsystems, with emphasis on technological aspects and methods. Special attention is due to technological developments that allow to improve accelerators from the point of view of performance, size or cost effectiveness.
Sub-classifications associated with MC 07 are:
T06 Room Temperature RF
T07 Superconducting RF
T08 RF Power Sources
T09 Room Temperature Magnets
T10 Superconducting Magnets
T11 Power Supplies
T13 Cryogenics
T14 Vacuum Technology
T16 Pulsed Power Technology
T19 Collimation
T20 Targetry
T21 Infrastructures
T23 Machine Protection
T24 Timing and Synchronization
T25 Lasers
T27 Low Level RF
T31 Subsystems, Technology and Components, Other
08 Applications of Accelerators
SPC Coordinators: Mike Seidel, PSI, Kevin Jones, ORNL
Classification 8 includes contributions with emphasis on applications of accelerators rather than on accelerator aspects proper.
Sub-classifications associated with MC 08 are:
A20 Radioactive Ions

U01 Medical Applications
U02 Materials Analysis and Modification
U03 Transmutation and Power Generation
U04 Security
U05 Applications, Other
09 Session for Industry, Technology Transfer and Industrial Relations
SPC Coordinator: Dewi Lewis, CERN
Scope of Technology Transfer: The Technology Transfer (TT) session is mainly addressed to Accelerator Laboratories to improve the methods and strategies for TT, and to Industry to create business out of TT. It covers relevant issues for successful TT, structures needed to promote TT, technology incubator for start-up companies, and intellectual property and patenting.
Scope of Session on Relations with Industry: The session on Relations between Laboratories and Industry is addressed to both sides in order to improve performance and the achievement of contract goals through the creation of mutual understanding, contractual matters, joint research and development, and measures to improve contract goals.
Sub-classifications associated with MC09 are:
T29 Technology Transfer
T30 Industrial Collaboration
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