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Data acquisition system for experiments at GSI HHT experimental area. A. Kantsyrev 1 , D. Varentsov 2 , A. Hug 2 , S. Udrea 2 , L. Shestov 1 , V. Turtikov 1 FAIR Russia Research Centre ( FRRC ) 1 SSC RF Institute for Theoretical and Experimental Physics (ITEP)
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Data acquisition system for experiments at GSI HHT experimental area. A. Kantsyrev1, D. Varentsov2, A. Hug2, S. Udrea2, L. Shestov1, V. Turtikov1 FAIR Russia Research Centre (FRRC) 1SSC RFInstitute for Theoretical and Experimental Physics (ITEP) 2Gesellschaft für Schwerionenforschung (GSI), Darmstadt, Germany Moscow
HEDgeHOB collaboration will construct and run at FAIRtwo HEDP experiments: HIHEX,LAPLAS and proton radiography setup (proton microscope for FAIR - PRIOR) LAPLASLaboratory Planetary Sciences HIHEXHeavy Ion Heating and Expansion • hollow (ring-shaped) beam heats a heavy tamper shell • cylindrical implosion and low-entropy compression • uniform quasi-isochoric heating of a large-volume dense target • quasi-isentropic expansion in 1D (plane or cylindrical) geometry • Numerous high-entropy HED states:EOS and transport properties of e.g., non-ideal plasmas, WDM and the critical point regions for various materials • Mbar pressures @ moderate temperatures:ultra-high density HED states, e.g. hydrogen metallization problem, interior of Jupiter, Saturn and Earth WOBLER prototype in ITEP will start in 2011 GSI (SIS-18) HHT experiments already present
Prototype of proton microscope will be constructed at HHT experimental area of GSI
PRIOR – proton microscope for FAIR Proton radiography with magnetic lenses system – diagnostic tool
PRIOR – proton microscope for FAIR Proton radiography with magnetic lenses system – diagnostic tool
HHT is unique experimental area at GSI designed for HED physics experiments with intense heavy ion beams HHT: High energy High Temperature: • strong Final Focus System • ions up to U, 50 – 450 AMeV (18 Tm) • pulse duration 100 – 1400 ns • focal spot size 150 μm – 1.5 mm • diagnostics for intense, short ion pulses in the beam line Beams for WDM experiments: • 238U73+, 80 GeV, e-cooled • up to 5·109 ions, 100 – 300 ns bunch • ≤ 300 μm spot at the target Solid metallic targets: • specific energy: 1 – 5 kJ/g • temperature: up to 2 eV • pressure: in multi-kbar range
Data acquisition system for HEDP experiments at HHT was developed and tested Data acquisition and control system, for HEDP experiments on FAIR and GSI, consists of a set of hardware–software modules (HSMs), each of which includes one measuring, diagnostic, or actuating device and the relevant program for acquisition or processing of experimental data. The HSM programs reside in several personal computers integrated into a local Ethernet network. Data communication between the HSM programs has been organized via the TCP/IP socket interface.
Data acquisition system for HEDPand PRIOR experiment at HHT Basic HSM module +Synchronizing of devices. Beam request control unit was finished in 2011
Data acquisition system for HEDP and PRIOR experimetns Principal schematic of data saving, processing and presenting
Data acquisition system for HEDP and PRIOR experimetns Experimental data visualization - PHP dynamic web pages Beam shots page Active parameters + Images Notes pages Active parameters + beam line elements
Data acquisition system for HEDP experiments at HHT Hardware-Software Modules (HSM) for prototype of system for GSI HHT experiments
Data acquisition system for HEDP and PRIOR experiments at HHT Advanced data acquisition system based on PYRO (Python based) RPC (Remote Procedure Call) techniques
Data acquisition system for HEDP and PRIOR experiments Proton microscope for FAIR - PRIOR
Data acquisition and control system for PRIOR Proton microscope at ITEP – prototype of PRIOR setup High-speed multiframe CCD system PROTOM - program for PMQ (permanent magnet quadruple) lenses moving SDU-ITEP- image analysis program
Data acquisition and control system for PRIOR System for automatic focusing of the proton microscope images