nuclear physics group
DESCRIPTION
Nuclear Physics group. Coordinator: Pasquale Di Nezza. LNF Scientific Commitee, November 22 nd , 2007. AIACE. Total FTE Res.+Tech 40.2 Technicians 6.3. SIDDHARTA. Lab: JLab, Hadronic PhysicsFTE: res.+tech. 6.7. Lab: CERN, QGP PhysicsFTE: res.+tech. 6.9. - PowerPoint PPT PresentationTRANSCRIPT
![Page 1: Nuclear Physics group](https://reader036.vdocument.in/reader036/viewer/2022062323/5681573e550346895dc4e2e7/html5/thumbnails/1.jpg)
Nuclear Physics groupNuclear Physics group
Coordinator: Pasquale Di Nezza
LNF Scientific Commitee, November 22nd, 2007
![Page 2: Nuclear Physics group](https://reader036.vdocument.in/reader036/viewer/2022062323/5681573e550346895dc4e2e7/html5/thumbnails/2.jpg)
Lab: LNGS Nuclear Physics FTE: res.+tech. 3.0
Lab: LNF, Nuclear Physics FTE: res.+tech. 8.0
AIACE
SIDDHARTA
GRAAL
VIP
Lab: JLab, Hadronic Physics FTE: res.+tech. 6.7
Lab: CERN, QGP Physics FTE: res.+tech. 6.9
Lab: LNF, Nuclear Physics FTE: res.+tech. 6.2
Lab: DESY, Hadronic PhysicsFTE: res.+tech. 5.0
Lab: GSI, Had/Nucl Physics FTE: res.+tech. 2.9
Lab: ESRF, Hadronic Physics FTE: res.+tech. 1.2
Total FTE
Res.+Tech 40.2
Technicians 6.3
![Page 3: Nuclear Physics group](https://reader036.vdocument.in/reader036/viewer/2022062323/5681573e550346895dc4e2e7/html5/thumbnails/3.jpg)
• 5 experiments (over 8) have the national spokesperson @LNF: AIACE, HERMES, PANDA, SIDDHARTA and VIP
• Several important national and international responsibilities:ALICE (Management Board), AIACE (Scientific Committee), FINUDA (Spokesperson), HERMES (Deputy Spokesperson), PANDA (Deputy Spokesperson), SIDDHARTA (Spokesperson), VIP (Spokesperson), I3HP (Chair), ……
• 40.2 res+tech within LNF Nuclear Group:
Researchers
Staff
Temporary
I talians
Foreigners
0123456789
Aiace
Alice
Finuda
Gra
al
Her
mes
Panda
Siddhar
ta Vip
FTE
![Page 4: Nuclear Physics group](https://reader036.vdocument.in/reader036/viewer/2022062323/5681573e550346895dc4e2e7/html5/thumbnails/4.jpg)
AIACE
ALICE
FINUDA
GRAAL
HERMES
PANDA
SIDDHARTA
VIP
Time schedule data taking1995 1997 1999 2001 2003 2005 2007 2009
>2014
>2013
![Page 5: Nuclear Physics group](https://reader036.vdocument.in/reader036/viewer/2022062323/5681573e550346895dc4e2e7/html5/thumbnails/5.jpg)
The VIP ExperimentThe VIP Experiment((VIVIolation of the olation of the PPauli Exclusion Principle)auli Exclusion Principle)
LNF- INFN, Frascati and INFN, Trieste, Italy
SMI, Vienna,Austria; IFIN–HH, Bucharest, Romania
Univ. Neuchâtel, SwitzerlandGoalGoalperform an experimental test of the validity of the Pauli Exclusion Principle for electrons to 10-30
validity of Pauli principle in a >3 +1 dimensional space-time, strings, superstrings, …
Experimental methodExperimental methodsearch for anomalous X-ray transitions in copper (2p->1s with 1s already occupied by 2 electrons; have the energy displaced with respect to the “normal” one)
@ LNGS Laboratory@ LNGS Laboratory (since February 2006)) to reduce the X-ray background induced by cosmic rays
Validity limits before VIP: 2/2 < 1.7 . 10-26 PLB 1990
Resp: Spokesperson
![Page 6: Nuclear Physics group](https://reader036.vdocument.in/reader036/viewer/2022062323/5681573e550346895dc4e2e7/html5/thumbnails/6.jpg)
Energy spectra for the VIP measurements with the VIP setup in laboratoryEnergy spectra for the VIP measurements with the VIP setup in laboratory
The subtracted spectrum: current minus no-current
282
105.42
Best limit on PEP violation
(factor 40 of improvement of the previous
published result)
Published Phys. Lett. B641 (2006) 18-22
292
1062
29
2
1062
+shielding
![Page 7: Nuclear Physics group](https://reader036.vdocument.in/reader036/viewer/2022062323/5681573e550346895dc4e2e7/html5/thumbnails/7.jpg)
GrAAL Polarized photons (6.03 GeV) @ESRF for photonuclear
reaction studies.
0 on quasi free neutron
0.0
0.5
-0.5
0.0
0.5
-0.5
0.0
0.5
-0.5
45 90 135 45 90 135 45 90 135 45 90 135
0 cm
E = 0.693 GeV E = 0.709 GeV E = 0.750 GeV E = 0.786 GeV
E = 0.825 GeV E = 0.865 GeV E = 0.922 GeV E = 0.981 GeV
E = 1.045 GeV E = 1.130 GeV E = 1.248 GeV E = 1.400 GeV
• Polarization observables measurements for γp K+Λ and γp K+Σ0 for energies up to 1.5 GeV
EPJ A31 (2007) 79
![Page 8: Nuclear Physics group](https://reader036.vdocument.in/reader036/viewer/2022062323/5681573e550346895dc4e2e7/html5/thumbnails/8.jpg)
Laboratory TJNAF (Newport News, Va -USA) / Hall B - CLAS CollaborationBeam e-, : Emax = 6 GeV
AIACE
Study of the hadron structure and of the strong interaction in terms of fundamental constituents
Physics goal
LNF resp: Chair Service Work Committee
Italian Coll. LNF & INFN e Universita’ di Genova FTE : 11.7 + 1.4 (tech)
AIACE EXPERIMENT
submitted published/accepted
5
10
15
2000 2001 2002 2003 2004 year2005 2006 2007
10
20
30
27 27
5 24
PRL
PLB
PRC
PRDEJP 1Other
Total publications as AIACE leading authors: 25/82 ~30% (9% members/tot)
+ 22 Technical Papers Start data taking: February 1998
![Page 9: Nuclear Physics group](https://reader036.vdocument.in/reader036/viewer/2022062323/5681573e550346895dc4e2e7/html5/thumbnails/9.jpg)
…Just completed: Pentaquark
n→K-+)< 3nb
p→nb
UPPER LIMIT (95%CL)1.52 < M(+) < 1.56 GeV
(p→ < 1 nb
d→nb
M(nK+)(GeV)
Cou
nts
/4 M
eV
No pentaquark signals from CLAS high statistics measurements
M. Battaglieri, R. De Vita al et al. PRL 96, 042001 (2006)R. De Vita, M. Battaglieri et al. PRD 74, 032001 (2006)
V. Kubarovsky, M. Battaglieri, R. De Vita et al. PRL 97, 102001 (2006)
S. Niccolai, M. Mirazita, P. Rossi et al. PRL 97, 032001 (2006)
B. McKinnon, K. Hicks, N.Baltzell, D. Carman, M. Mestayer, T. Mibe, M. Mirazita, S. Niccolai, P. Rossi, S. Stepanyan, D.J. Tedeschi et al.PRL 96 (2006), 212001
![Page 10: Nuclear Physics group](https://reader036.vdocument.in/reader036/viewer/2022062323/5681573e550346895dc4e2e7/html5/thumbnails/10.jpg)
Strangeness photoproduction: n → K+ Σ-
1) study the baryon resonances not otherwise revealed (non dacay),
2) obtain info about couplings of nucleon resonances to KY final states
Comprehensive study of e.m. strangeness production in Hall B on proton and neutron with polarized and unpolarized beam and targets
cos θKCM
arb
itra
ry u
nit
s
γn → K+ Σ-
World data on neutron
d/d: very few data in a very limited angular range
TOT: no data
Eγ : from threshold to 3.59 GeVθK
lab : from 10 to 140 degrees
![Page 11: Nuclear Physics group](https://reader036.vdocument.in/reader036/viewer/2022062323/5681573e550346895dc4e2e7/html5/thumbnails/11.jpg)
Resp: Deputy Spokesperson
: the new antiproton facility: the new antiproton facilityFacility for AntiprotonFacility for Antiprotonand Ion Researchand Ion Research Primary Beams
Secondary Beams
Storage and Cooler Rings
perform high resolution spectroscopy with - p formation experiments:
ΔE ≈ Δ Ebeam
produce, with high yields, gluonic excitations: glueballs, hybrids, multi-quark states
σ ≈ 100 pb
study partial chiral symmetry restoration by implanting mesons inside the nuclear medium
produce hyperon-antihyperon taggable beams
perform high resolution spectroscopy with - p formation experiments:
ΔE ≈ Δ Ebeam
produce, with high yields, gluonic excitations: glueballs, hybrids, multi-quark states
σ ≈ 100 pb
study partial chiral symmetry restoration by implanting mesons inside the nuclear medium
produce hyperon-antihyperon taggable beams
pp
![Page 12: Nuclear Physics group](https://reader036.vdocument.in/reader036/viewer/2022062323/5681573e550346895dc4e2e7/html5/thumbnails/12.jpg)
![Page 13: Nuclear Physics group](https://reader036.vdocument.in/reader036/viewer/2022062323/5681573e550346895dc4e2e7/html5/thumbnails/13.jpg)
PANDA Straw Tubes Tracker
PANDA central tracking detector has to fill a cylindrical volume with an internal radius of 150 mm, external one of 420 mm, and a length of 1500 mm.Detector requirement are:
• Almost full angular coverage;• High momentum resolution, δp/p~1%;• High spatial resolution, σrφ~150μm, σz~1-
3mm;• Minimal detector material budget, X0~1%;
• High rate capability, 107ev/s;• Resistance against aging effects, 1-2
C/cm/year;
![Page 14: Nuclear Physics group](https://reader036.vdocument.in/reader036/viewer/2022062323/5681573e550346895dc4e2e7/html5/thumbnails/14.jpg)
Activity @LNFFrascati, 05/06/07 – LNF/SPAS
Panda ST_Tracker
•Mechanical support•Electronic integration•Gas line paths and flow•Prototype construction
+cosmic rays test
Detector Layout
![Page 15: Nuclear Physics group](https://reader036.vdocument.in/reader036/viewer/2022062323/5681573e550346895dc4e2e7/html5/thumbnails/15.jpg)
HERHERa a MEMEasurement of asurement of SSpin (DESY)pin (DESY)
180 members coming from 30 Institutes (12 Countries)
(INFN: Bari, LNF, Ferrara, Sanita’)
HERA shutdown: 2/7/2007
![Page 16: Nuclear Physics group](https://reader036.vdocument.in/reader036/viewer/2022062323/5681573e550346895dc4e2e7/html5/thumbnails/16.jpg)
30% of publications have an LNF first author (6% members/tot)
•Hardware: e.m. Calorimeter (resp.), RICH, Recoil (resp: -det)
•Nuclear and exclusive analysis group coordinators
•Deputy Spokesperson, 2 Editorial Board Members, Executive Board Member
![Page 17: Nuclear Physics group](https://reader036.vdocument.in/reader036/viewer/2022062323/5681573e550346895dc4e2e7/html5/thumbnails/17.jpg)
HERMES view at the nucleon HERMES view at the nucleon structurestructure
from unpolarisedDIS
first glimpse
directflavourdecomp.
new constrain on s
transversity isnon-zero!first T-odd DF inDIS
polarised DIS HERMES:
signals of GPDs Ju+Jd
a0
=0.330±0.025(exp)
Top cited+300
Top cited+100
Top cited+300
Top cited+100
Top cited+50
![Page 18: Nuclear Physics group](https://reader036.vdocument.in/reader036/viewer/2022062323/5681573e550346895dc4e2e7/html5/thumbnails/18.jpg)
Space-time evolution of hadronization
HERMES provides information on partonic propagation, energy loss and scattering, and constraints in
pre-hadronic effects
HERMES kinematics is relevant to ion-ion mid-rapidity
Possibility to formulate consistent pictures of nuclear effects in cold
and hot nuclear matter
![Page 19: Nuclear Physics group](https://reader036.vdocument.in/reader036/viewer/2022062323/5681573e550346895dc4e2e7/html5/thumbnails/19.jpg)
RHIC @ BNL (Au+Au 200GeV) ** Top Physics Story del 2005 per l’ American Physical Society
ddpdT
ddpNdpR
TNN
AA
TAA
TAA /
/)(
2
2
• Photons are not suppressed
• Only hadrons at high pT are
suppressed according to the pQCD +
propagation •Studies on the “surface” of the medium•The hot nuclear matter behaves as a
liquid (residual interaction) not as a gas!
ALICE @ LHCMotivations to built an e.m. calorimeter
•Higher pt
•Higher energy remove residual interaction•Full jet reconstruction•Full jet particle identification
?Jet Quenching
![Page 20: Nuclear Physics group](https://reader036.vdocument.in/reader036/viewer/2022062323/5681573e550346895dc4e2e7/html5/thumbnails/20.jpg)
AlPbSteelScint.Fiber.
EmCal Structure
• -0.7< η< 0.7 e 0 < Φ < 2/3 opposite to PHOS• Support structure under installation• 11 SuperModules• 1 SM = 24x12 modules• 1 module = 4 channels • 1.2x104 total channels (granularity)
![Page 21: Nuclear Physics group](https://reader036.vdocument.in/reader036/viewer/2022062323/5681573e550346895dc4e2e7/html5/thumbnails/21.jpg)
EmCal production @LNF
![Page 22: Nuclear Physics group](https://reader036.vdocument.in/reader036/viewer/2022062323/5681573e550346895dc4e2e7/html5/thumbnails/22.jpg)
Fiber cutting and sputtering at Frascati
•WLS readout : continuous operation of 1 cutting-polishing-gluing and 1 sputtering station for WLS fibre bundles needed for 3 SM (124000 fibres, 3500 bundles)•Optical and mechanical coupling of bundle with APD for 3456 channels (3 SM)
![Page 23: Nuclear Physics group](https://reader036.vdocument.in/reader036/viewer/2022062323/5681573e550346895dc4e2e7/html5/thumbnails/23.jpg)
Energy reconstruction, Energy reconstruction, linearity, uniformitylinearity, uniformity 80 GeV e @fixed position
Ereconstructed [GeV]
EMCal test beam sept/oct 2007 @cern SPS/PS
!caveats preliminary calibration,
beam momentum spread not unfolded
![Page 24: Nuclear Physics group](https://reader036.vdocument.in/reader036/viewer/2022062323/5681573e550346895dc4e2e7/html5/thumbnails/24.jpg)
Management Board
Project Leader: T. Cormier10)
Deputy: N. Bianchi6), C. Roy3)
T. Awes9), P. Di Nezza6), P. Jacobs7), S. Kox2), R. Soltz8)
Alice-CERN Representative
Y. Schutz1)
Technical Coordinator
J. Rasson7)
Detector and strip Module
P. Di Nezza6)
V.Petrov10)
Electronics
T.Awes9)
Trigger
P.Jacobs7)
Off-line
G. Conesa6)
J.Klay8)
Mec. Engineering Integration
M. Dialinas3)
Scintill.
A.Pavlinov 10)
Y. Kharlov 20)
Fiber System
F.Ronchetti6)
I.Kotov17)
Module Test &
Characteriz.
A.Fantoni6)
xyz11)
Support
Structure
J.Berkowitz7)
SM Crate
A. Palmeri5)
J.Riso10)
1) CERN, 2) IN2P3-Grenoble,
3) IN2P3 Subatech, 4) IN2P3-Strasburg,
5) INFN-Catania, 6) INFN-Frascati,
7) LBNL, 8) LLNL, 9) ORNL, 10) WSU,
11)IHEP, 12)Creighton, 13)UCLA,
14)Univ. of .Huston, 15) KentState Univ.,
16) Purdue Univ., 17)Ohio State Univ.,
18)Univ. of Tennessee, 19)Univ. of Texas
FEE
Calibrate/Test
K.Read18)
J.Schambach19)
Conv. System
abc18)
A.Palmeri5)
Elect Commis.
xyz9)
J.Schambach19)
High Level
L.Ray19)
SM Mec. Integration
xyz2)
J.Riso10)
On-line
DAQ
D.Silvermyr9)
Slow Control
M.Cherney12)
D.Bonnet4)
SM Insertion tooling
H.Carduner3)
Technical Coordinator: J. Rasson7)
APD Test
A.Badala’5)
Ghazikhanian13
SM electr
Integrat/Test
xyz2)
abc9)
SM cosmic calibration
xyz2)
D.Silvermyr9)
LED system
xyz11)
Trentalange13)
Low Level
O.Bourrion2)
Trigger
Commision
S.Margetis15)
Simulation
B.Mayes14)
F.Wang16)
Infostructure
and tools
Pulvirenti5)
A.Pavlinov10)
Jets
M.Estienne4)
J.Putscke7)
Electrons
C.Pruneau10)
0/photons
Van.Leeuwan7
Delagrange3)
D.Hasch6)
Data QA/QC
C.Markert19)
Intallation
L.Lesitam1)
![Page 25: Nuclear Physics group](https://reader036.vdocument.in/reader036/viewer/2022062323/5681573e550346895dc4e2e7/html5/thumbnails/25.jpg)
The Nuclear Physics group @LNF is
experiencing moments of
particular high activity, playing
major roles at international level
Pasquale Di Nezza LNF SC, Nov ’07