Download - Carlo Guaraldo
Carlo Guaraldo
NuPECC 51st Meeting
Lisbon, 12-13 November 2004
• Project Coordinator: Carlo Guaraldo (INFN-LNF, Italy)• Managing Institution: INFN-LNF, Italy• 29 Activities:
- 1 Management Activity
- 7 Networking Activities
- 9 Transnational Access Activities
- 12 Joint Research Activities • 48 Contractors• 70 Institutions receiving EC funds + 59 Other Involved Institutions• 2000 European scientists• EC budget: 17.4 M€• Duration of the contract: 4 years
All information is available at: http://www.lnf.infn.it/eu/i3hp/
HadronPhysicsHadronPhysics I3 Project I3 Project
“The HADRON proposal for the first time brings together the European communities of hadron physicists working with the different types of probes. It involves the 8 premier facilities in Europe providing medium- to high-energy beams of electrons, photons, hadrons (mainly protons) and heavy ions, together with 2 supercomputer centres. The proposal deals with access to these facilities, development of hardware for ongoing and future research projects and the related high-speed computing. It represents a coherent effort of a large community, some 2000 researchers from 135 institutions. This community did not apply in FP5. This physics topic and the related facilities are for the first time requesting support in FP6.”
From the Evaluation Summary Report:
ForewordForeword
17 December 2002Publication date call 1 for Integrated Infrastructure Initiatives (I3)
15 April 2003Submission date of the Proposal to EC
31 July 2003Communication of the favorable evaluation
28 September 2003Start of negotiation with EC
End 2003End of negotiation with EC
Significant dates of the I3 project Significant dates of the I3 project
““Study of Strongly Interacting Matter” (I)Study of Strongly Interacting Matter” (I)
1 January 2004Start date of the 4-year contract
11 March 2004Final documents for the contract sent to EC
11 May 2004Enter into force of the contract (signature of the Commission)
9 June 2004Prefinancing (80% first 18 months) sent to the Coordinator to be distributed to the Contractors
Significant dates of the I3 project Significant dates of the I3 project
““Study of Strongly Interacting Matter” (II)Study of Strongly Interacting Matter” (II)
Activity Number Descriptive Title Short description and specific objectives of the activity
N1 “Compressed baryonic matter”Experimental networking, aiming at creating a European research network to finalize the scientific case and the measurements to perform, with the planned Compressed Baryonic Matter experiment at the new heavy ion facility at GSI.
N2“Computational (lattice)
hadron physics”
Theory networking, aiming at representing a first step towards the construction of a coherent European infrastructure for Teraflops–scale computers using lattice gauge theory techniques.
N3“Dimuon physics in heavy-ion
collisions at LHC”
Experimental networking, aiming at improving the quality and the volume of the physics output from the CERN-ALICE dimuon spectrometer facility through a global coordination of the wide community involved, the sharing of resources and the spreading of results .
N4“Production and decay of mesons and resonances”
Experimental networking, aiming at coordinating the activity of various European facilities working on selected projects to study the hadron structure and the hadron dynamics.
N5“Structure and dynamics of
hadrons”
Theory networking, aiming at developing and transferring methods for tackling and solving issues of hadron physics concerning the hadron structure and a chirally consistent description of interacting hadrons in a dense medium.
N6“Strongly interacting matter in
ultrarelativistic heavy-ion collisions”
Theory networking, focusing the activity of various European theory groups working on the physics of quark-gluon plasma.
N7“Exploring the unknown
transverse spin structure of the nucleon”
Experimental networking, aiming at a synergy between the two major European collaborations (HERMES and COMPASS) studying the spin structure of the nucleon.
Networking Activities – List of activitiesNetworking Activities – List of activities
Activity Number
Descriptive Title Acronym Spokesperson
N1 Compressed baryonic matter CBMnetPeter Senger,
GSI
N2Computational (lattice) hadron
physicsComHP
Gerrit Schierholz,DESY-Zeuthen
N3Dimuon physics in heavy-ion
collisions at LHCDIMUONnet
Ermanno Vercellin,INFN-TO
N4Production and decay of mesons
and resonancesEtaMesonNet
Bo Höistad,UU
N5Structure and dynamics of
hadronsHadronTh
Ulf-G. Meissner,U Bonn
N6Strongly interacting matter in
ultrarelativistic heavy-ion collisions
SIMJoerg Aichelin,
CNRS/IN2P3- SUBATECH
N7Exploring the unknown transverse
spin structure of the nucleonTRANSVERSITY
Enzo DeSanctis,INFN-LNF
Networking Activities – List of spokespersonsNetworking Activities – List of spokespersons
Activity Number Short description and specific objectives of the activity
A1Access to Infrastructure
“Laboratori Nazionali di Frascati (LNF)”
The Frascati National Laboratories are the major Italian facility for particle and nuclear physics and one of the most important in Europe. They offer to the European scientific community the high luminosity DANE -factory, and facilities for particle and nuclear physics (rare kaon decays, standard model, hypernuclear physics, exotic atoms), test beams, synchrotron light and accelerator developments.
A2Access to Infrastructure
“DESY-HERMES”
DESY Laboratory presently operates HERA, the only collider machine in the world that can accelerate leptons and protons at the same time. The HERMES facility uses the electron (or positron) beam of HERA and a nucleon target, both operated in spin-polarized modes. The access to the DESY-HERMES facility will allow to study the spin structure of the nucleon.
A3Access to Infrastructure
“FZJ- COSY”
The Forschungszentrum Jülich (FZJ), is one of the national research institutions in Germany. FZJ embeds the Institute für Kernphysik (IKP), which operates the cooler synchrotron and storage ring COSY, a machine for the study of hadronic interactions in the medium energy region. COSY has four internal facilities and three facilities installed at the external target stations.
A4Access to Infrastructure
“FZJ-NIC/ZAM
FZJ owns one of Europe’s newest and most powerful supercomputer facility, operated by the Central Institute for Applied Mathematics (ZAM). The John von Neumann Institute for Computing (NIC), a joint foundation of FZJ and DESY, is responsible for the selection of scientific projects which use the supercomputer resources, in particular for the lattice QCD community.
A5Access to Infrastructure
“GSI”
GSI is one of the most important European laboratories, operating an accelerators complex, the heavy-ion synchrotron SIS for hadron and nuclear matter research. They have been recently approved for a new European accelerator facility, with a world unique cooled antiproton beam, for studies of hadron spectroscopy and hadrons properties in nuclear matter, and with intense ion beams, to explore the high-density/low-temperature regime of nuclear matter.
Transnational Access Activities – List of activities (I)Transnational Access Activities – List of activities (I)
A6Access to Infrastructure
“MAMI”
The University of Mainz operates one of the most important nuclear physics laboratories in Europe to study the structure of hadrons, running the continuous wave electron accelerator MAMI. MAMI is being upgraded in its energy range, and it can be rivaled in the world only by CEBAF at the Jefferson laboratory in USA, which operates in a complementary energy range.
A7Access to Infrastructure
“ZIB”
The Konrad-Zuse-Zentrum für Informationstechnik Berlin (ZIB) offers its state-of-the-art data storage system. This offer of access follows a requirement of the European computational hadron physics community, working in Lattice Gauge Theory and Computational QCD.
A8Access to Infrastructure
“MAXLAB”
MAXLAB is a Swedish National Laboratory for nuclear physics research, applied physics and for research in accelerator physics. An upgrade of the accelerator system to increase its energy is ongoing. The new facility is scheduled to begin operating in Spring 2004 and will deliver a nearly continuous electron beam of high quality. In combination with a new tagging system, MAXLAB will become a unique real photon facility in the low energy range.
A9Access to Infrastructure
“The Svedberg Laboratory (TSL)”
The Svedberg Laboratory (TSL) in Uppsala is a Swedish national facility for accelerator-based fundamental research in nuclear physics and applied physics, operating, for hadron physics researches, the CELSIUS cooler and storage ring. The main activity at the CELSIUS ring is the study of light mesons production and decay.
Transnational Access Activities – List of activities (II)Transnational Access Activities – List of activities (II)
Activity
NumberDescriptive Title Manager
A1Access to RI “Laboratori Nazionali
di Frascati (LNF)”Carlo Guaraldo,
INFN-LNF
A2 Access to RI “DESY-HERMES”Elke-Caroline Aschenauer,
DESY-HERMES
A3 Access to RI “FZJ-COSY”Dieter Grzonka,
FZJ-COSY
A4 Access to RI “FZY-NIC/ZAM”Norbert Attig,
FZY-NIC/ZAM
A5 Access to RI “GSI”Klaus-Dieter Gross,
GSI
A6 Access to RI “MAMI”Thomas Walcher,
U Mainz
A7 Access to RI “ZIB”Hinnerk Stueben,
ZIB
A8 Access to RI “MAXLAB”Bent Schroeder,
MAXLAB
A9Access to RI “The Svedberg
Laboratory (TSL)”Curt Eckstrom,
TSL
Transnational Access Activities – List of managersTransnational Access Activities – List of managers
Activity Number Descriptive Title Short description and specific objectives of the activity
JRA1“Future data acquisition
system”DAQ/Trigger developments for the next generation experiments which are characterized by high interaction rates and key observables based on rare processes.
JRA2“Fast compact EM
calorimeters ”Development of fast electromagnetic calorimeters for hadron spectroscopy studied with hadronic probes and electromagnetic probes.
JRA3“European tagged photon
facilities”
Implementation of all the European tagged photon facilities with high quality polarized photon beams and associated polarimetry: development of a new source of linearly polarized photons and of a prototype polarimeter for double polarization experiments.
JRA4“High speed gas detectors
with integrated electronics”
Project to develop large area, high-granularity, low-mass, high-speed gas detectors with fully integrated low-power electronics. R&D in detector research, material science, low-power, high-speed analog and digital electronics development, massive parallel computing.
JRA5
“Generalised parton distributions”
Development of recoil detectors to be implemented at the DESY-HERMES and CERN-COMPASS facilities, to study the Generalized Parton Distributions (GPD) via hard exclusive reactions. R&D program combining new detector technologies among which prominently sci-fi detectors in a solenoidal magnetic field.
JRA6“High luminosity
hypernuclear gamma-spectroscopy”
Developments of improved operation schemes of Germanium detectors for high resolution hypernuclear -spectroscopy in high luminosity experiments, in presence of high background and high magnetic fields.
JRA7“High luminosity internal targets for storage rings”
Development of internal targets for high-luminosity storage rings experiments, with a 4-detector geometry. R&D on cluster targets, pellet targets, superfluid Helium jet targets.
Joint Research Activities – List of activities (I)Joint Research Activities – List of activities (I)
Activity Number Descriptive Title Short description and specific objectives of the activity
JRA8“Polarized nucleon targets for
Europe”Development of new target materials and pulsed NMR technique for solid polarized targets. Development of hydrogen-deuterium solid targets by distillation of HD gas.
JRA9“Ring imaging Cherenkov
counters for particle indentification”
Development of the RICH concept for Particle IDentification (PID) in high luminosity experiments using gaseous and aerogel radiators.
JRA10“Silicon drift detectors for X-
ray spectroscopy”
Development of a soft X-ray detection apparatus, based on large-area Silicon Drift Detectors (SDD), with high energy resolution and high background rejection. First application of the timing properties of SDDs in X-ray spectroscopy.
JRA11“Novel radiation hard CVD-
diamond detectors”Developments of new technologies based on Single Crystal Diamond detectors for high resolution, high-rate, high-multiplicity nuclear experiments.
JRA12“Advanced TOF detection
systems”
Development of time-of-flight systems under extremely demanding conditions: high charged-particle multiplicities, high local hit densities, physics observables based on rare processes. Development of the readout system: technological challenges to be dealt with are the large solid angle with an affordable number of readout channels and the associated front-end and digitization electronics.
Joint Research Activities – List of activities (II)Joint Research Activities – List of activities (II)
Activity Number
Descriptive Title Acronym Spokesperson
JRA1 Future data acquisition system FutureDAQWalter Müller,
GSI
JRA2 Fast compact EM calorimetersFastEM
CalorimetersRainer Novotny,
JLU-PIG
JRA3 European tagged photon facilities EuroTagKen Livingston,
U Glasgow
JRA4High speed gas detectors with
integrated electronicsGas Detectors
Johannes Wessels,WWU
JRA5 Generalised parton distributions GPDRalf Kaiser,U Glasgow
JRA6High luminosity hypernuclear
gamma-spectroscopyHyperGamma
Alessandro Feliciello,INFN-TO
JRA7High luminosity internal targets for
storage ringsInternal Targets
Herbert Orth,GSI
Joint Research Activities - List of spokespersons (I)Joint Research Activities - List of spokespersons (I)
Activity Number
Descriptive Title Acronym Spokesperson
JRA8Polarized nucleon targets for
EuropePolarized Targets
Werner Meyer,RUB
JRA9Ring imaging Cherenkov
counters for particle indentification
RICH DetectorsSilvia Dalla Torre,
INFN-TS
JRA10Silicon drift detectors for X-
ray spectroscopySIDDHARTA
Vincenzo Lucherini,INFN-LNF
JRA11Novel Radiation Hard CVD -
diamond detectorsNoRHDia
Berdermann Eleni,GSI
JRA12Advanced TOF detection
systemsAdvanced TOF
Norbert Hermann,UHEI-PI
Joint Research Activities - List of spokespersons (II)Joint Research Activities - List of spokespersons (II)
Country
LaboratoriesOthers
involvedTOTALreceiving funds
Germany 23 8 31
Italy 13 7 20
France 7 3 10
Russia 8 8
UK 3 5 8
Poland 4 2 6
Sweden 5 1 6
Czech Republic 1 4 5
Portugal 2 3 5
Spain 3 1 4
Switzerland 4 4
Austria 1 2 3
Institutions involved in the HadronPhysics I3 Project (I)Institutions involved in the HadronPhysics I3 Project (I)
Country
LaboratoriesOthers
involvedTOTAL
receiving funds
USA 3 3
Belgium 1 1 2
Netherlands 2 2
Bulgaria 1 1
Cyprus 1 1
Finland 1 1
Georgia 1 1
Greece 1 1
Hungary 1 1
Israel 1 1
Norway 1 1
Romania 1 1
Slovenia 1 1
South Africa 1 1
Ukraine 1 1
Total 70 59 129
Institutions involved in the HadronPhysics I3 Project (II)Institutions involved in the HadronPhysics I3 Project (II)
Institutions involved in the HadronPhysics I3 Project
0
5
10
15
20
25
30
35
Ger
man
y
Ital
y
Fra
nce
Ru
ssia
UK
Po
lan
d
Sw
eden
Cze
ch
Po
rtu
gal
Sp
ain
Sw
itze
rlan
d
Au
stri
a
US
A
Bel
giu
m
Net
her
lan
ds
Bu
lgar
ia
Cyp
rus
Fin
lan
d
Geo
rgia
Gre
ece
Hu
ng
ary
Isra
el
No
rway
Ro
man
ia
Slo
ven
ia
So
uth
Afr
ica
Ukr
ain
e
Country
Inst
itu
tion
s in
volv
ed
Country Specific Responsibilities
Germany 16
Italy 8
Sweden 3
UK 2
France 1
Austria 0
Belgium 0
Cyprus 0
Czech Republic 0
Finland 0
Hungary 0
Netherlands 0
Norway 0
Poland 0
Portugal 0
Romania 0
Spain 0
TOTAL 30
Specific Responsibilities in the HadronPhysics I3 ProjectSpecific Responsibilities in the HadronPhysics I3 Project
Specific Responsibilities in the HadronPhysics I3 Project
0
2
4
6
8
10
12
14
16
18
Country
Sp
ecif
ic R
esp
on
sib
ilit
ies
Management Activity 1180 k€
Networking Activities 3110 k€
Transnational Access Activities 4110 k€
Joint Research Activities 9000 k€
TOTAL 17400 k€
Budgets for Management, Networking, Budgets for Management, Networking,
Transnational Access and Joint Research ActivitiesTransnational Access and Joint Research Activities
Participant number
Organisation(name, city, country)
ParticipantShort name
EC contribution(euros)
1Istituto Nazionale di Fisica Nucleare
Frascati, ItalyINFN 4038000
14Gesellschaft für Schwerionenforschung
mbHDarmstadt, Germany
GSI 1810500
25University of Mainz
Mainz, GermanyU Mainz 1396500
9Deutsches Elektronen Synchrotron
Hamburg, GermanyDESY 1079200
10Forschungszentrum Juelich GmbH
Jülich, GermanyFZJ 853400
12Ruhr-University Bochum
Bochum, GermanyRUB 894000
45Uppsala Universitet
Uppsala, SwedenUU 539000
47University of Glasgow
Glasgow, United KingdomU Glasgow 336050
43Lund University
Lund, SwedenLU 243000
EC Contribution (I)EC Contribution (I)
Participant number
Organisation(name, city, country)
ParticipantShort name
EC contribution(euros)
22Westfälische Wilhelms-Universität Münster
Münster, GermanyWWU 230000
27Konrad-Zuse-Zentrum für Informationstechnik Berlin
Berlin, GermanyZIB 112000
26Max-Planck-Gesellschaft zur Förderung der
Wissenschaften e.V.München Germany
MPG 305000
7Commissariat à l’Energie Atomique
Paris, FranceCEA 270500
21Technische Universität München
München, GermanyTUM 253000
20Universität Mannheim
Mannheim, GermanyUMA 250000
17Johann Wolfgang Goethe-Universität Frankfurt am Main
Frankfurt, GermanyJWGFRA 245000
5Charles University in Prague
Praha, Czech RepublicCUNI 225000
24Eberhard Karls Universität Tübingen
Tübingen, GermanyTUB 216000
2Austrian Academy of Sciences
Vienna, AustriaÖAW 165000
EC Contribution (II)EC Contribution (II)
Participant number
Organisation(name, city, country)
ParticipantShort name
EC contribution(euros)
40Universitat de
BarcelonaBarcelona, Spain
UB 122000
28MTA KFKI Reszecske es Magfizikai Kutatointezet
Budapest, HungaryKFKI RMKI 117000
42Universitat de València, Estudi General
València, SpainUVEG 115000
32Vrije Universiteit Amsterdam
Amsterdam, NetherlandsVUA 81500
3Limburgs Universitair Centrum
Diepenbeek, BelgiumLUC 80000
34Jagellonian University
Kraków, PolandJU 77000
36The Andrzej Soltan Institute for Nuclear Studies
Otwock, PolandSINS 69500
48The University of LiverpoolLiverpool, United Kingdom
U Liverpool 63050
15Forschungszentrum Rossendorf
Dresden, GermanyFZR 51000
41Universidade de Santiago de Compostela
Santiago de Compostela, SpainUSDC 46000
EC Contribution (III)EC Contribution (III)
Participant number
Organisation(name, city, country)
ParticipantShort name
EC contribution(euros)
23Universität Regensburg
Regensburg, GermanyUREG 43700
44Stockholms Universitet
Stockholm, SwedenSU 43000
6University of Helsinki
Helsinki, FinlandUH 40000
11Universität BielefeldBielefeld, Germany
UBIE.TP 40000
33Universitetet i Bergen
Bergen, NorwayUiB 40000
4University of Cyprus
Nicosia, CyprusUCY 38700
36The University of EdinburghEdinburgh, United Kingdom
UEDIN 38700
16Friedrich-Alexander-Universität Erlangen-
NürnbergErlangen, Germany
FAU 35000
35University of Silesia, Institute of Physics
Katowice, PolandUSL 25000
EC Contribution (IV)EC Contribution (IV)
Participant number
Organisation(name, city, country)
ParticipantShort name
EC contribution(euros)
37Warsaw University
Warsaw, PloandUWNPD 25000
31Rijksuniversiteit Groningen
Groningen, NetherlandsRuG 17500
30Politecnico di Torino
Torino, ItalyPOLITO 15500
EC contribution
17400000
EC Contribution (V)EC Contribution (V)
Country EC Contribution (Euro)
Germany 9387500
Italy 4233500
France 880000
Sweden 825000
UK 437800
Spain 283000
Czech Republic 225000
Poland 196500
Portugal 181000
Romania 171000
Austria 165000
Hungary 117000
Netherlands 99000
Belgium 80000
Finland 40000
Norway 40000
Cyprus 38700
Total 17400000
EC Contribution per countryEC Contribution per country
EC Contribution per country
0
1000000
2000000
3000000
4000000
5000000
6000000
7000000
8000000
9000000
10000000
Country
EC
Con
trib
utio
n (E
uro)
ROAD MAP
to prepare the Annual Report
of the HadronPhysics I3 Project
The spokespersons of the 29 activities will collect the full information - scientific and financial – from the group leaders of the organizations participating to the activities and transfer it into the template.
Each spokesperson will be followed by a member of the Management Board acting as Advisor.
The Coordinator with his Management Team and the Management Board will finalize the Annual Report after collecting the completed templates for each activity.
The Annual Report will be sent to the Contractors.
The last step will consist in a meeting of the Governing Board of the Consortium for the formal approval of the Annual Report before its submission to the EC.
P R O C E D U R E
8 December 2004 sharp.Deadline for the spokespersons to deliver to the Management Board the Annual Report on each activity.
17 December 2004Management Board meeting, in which the whole information received from the spokespersons will be discussed.
18 December 2004 – mid January 2005Within this month, the Coordinator, the Management Board and the Management Team will implement the scientific and financial information for all the contractors.The final output will be the Annual Report, to be given to the representatives of the Contractors.
End January 2005Meeting of the Governing Board to formally approve the Annual Report.
T I M E S C A L E