alexander kalweit, cern for the alice collaboration
TRANSCRIPT
![Page 1: Alexander Kalweit, CERN for the ALICE collaboration](https://reader035.vdocuments.us/reader035/viewer/2022070919/62c7d9e55acc110cd24f6ed0/html5/thumbnails/1.jpg)
Measurement of light flavor hadrons and anti-nuclei with ALICE
2012-OCT-09 | Quark Confinement and the Hadron Spectrum Conference -- Munich
Alexander Kalweit, CERN
for the ALICE collaboration
![Page 2: Alexander Kalweit, CERN for the ALICE collaboration](https://reader035.vdocuments.us/reader035/viewer/2022070919/62c7d9e55acc110cd24f6ed0/html5/thumbnails/2.jpg)
2012-OCT-09 | [email protected]
Overview
• The ALICE experiment and its excellent particle identification capabilities.
• Hadron chemistry in pp and Pb-Pb collisions at the LHC.
• Anti-matter production at the LHC.
• Hyper-matter production at the LHC: searches for exotica.
• Outlook
• Even more details: next talk by Francesca..
2
ALICEpp @ 7 TeV
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Particle identification
2012-OCT-09 | Quark Confinement and the Hadron Spectrum Conference -- Munich
![Page 5: Alexander Kalweit, CERN for the ALICE collaboration](https://reader035.vdocuments.us/reader035/viewer/2022070919/62c7d9e55acc110cd24f6ed0/html5/thumbnails/5.jpg)
2012-OCT-09 | [email protected]
Particle identification (1)
5
• The ALICE experiment employs all known techniques for hadron identification:
• dE/dx in ITS, for very low-momenta tracks (pT ≈ 100 MeV/c), σ ≈ 10-15%
• dE/dx in TPC, at low and very high momenta (rel. rise), σ ≈ 5.2% (pp) -> 6.5% (Pb-Pb central)
• Time-Of-Flight, intermediate pT,σ ≈ 85 ps (Pb-Pb) -> 120 ps (pp)
• HMPID, Cerenkov radiation
![Page 6: Alexander Kalweit, CERN for the ALICE collaboration](https://reader035.vdocuments.us/reader035/viewer/2022070919/62c7d9e55acc110cd24f6ed0/html5/thumbnails/6.jpg)
2012-OCT-09 | [email protected]
Particle identification (1)
5
• The ALICE experiment employs all known techniques for hadron identification:
• dE/dx in ITS, for very low-momenta tracks (pT ≈ 100 MeV/c), σ ≈ 10-15%
• dE/dx in TPC, at low and very high momenta (rel. rise), σ ≈ 5.2% (pp) -> 6.5% (Pb-Pb central)
• Time-Of-Flight, intermediate pT,σ ≈ 85 ps (Pb-Pb) -> 120 ps (pp)
• HMPID, Cerenkov radiation
![Page 7: Alexander Kalweit, CERN for the ALICE collaboration](https://reader035.vdocuments.us/reader035/viewer/2022070919/62c7d9e55acc110cd24f6ed0/html5/thumbnails/7.jpg)
2012-OCT-09 | [email protected]
Particle identification (1)
5
• The ALICE experiment employs all known techniques for hadron identification:
• dE/dx in ITS, for very low-momenta tracks (pT ≈ 100 MeV/c), σ ≈ 10-15%
• dE/dx in TPC, at low and very high momenta (rel. rise), σ ≈ 5.2% (pp) -> 6.5% (Pb-Pb central)
• Time-Of-Flight, intermediate pT,σ ≈ 85 ps (Pb-Pb) -> 120 ps (pp)
• HMPID, Cerenkov radiation
![Page 8: Alexander Kalweit, CERN for the ALICE collaboration](https://reader035.vdocuments.us/reader035/viewer/2022070919/62c7d9e55acc110cd24f6ed0/html5/thumbnails/8.jpg)
2012-OCT-09 | [email protected]
Particle identification (1)
5
• The ALICE experiment employs all known techniques for hadron identification:
• dE/dx in ITS, for very low-momenta tracks (pT ≈ 100 MeV/c), σ ≈ 10-15%
• dE/dx in TPC, at low and very high momenta (rel. rise), σ ≈ 5.2% (pp) -> 6.5% (Pb-Pb central)
• Time-Of-Flight, intermediate pT,σ ≈ 85 ps (Pb-Pb) -> 120 ps (pp)
• HMPID, Cerenkov radiation
![Page 9: Alexander Kalweit, CERN for the ALICE collaboration](https://reader035.vdocuments.us/reader035/viewer/2022070919/62c7d9e55acc110cd24f6ed0/html5/thumbnails/9.jpg)
2012-OCT-09 | [email protected]
Particle identification (1)
5
• The ALICE experiment employs all known techniques for hadron identification:
• dE/dx in ITS, for very low-momenta tracks (pT ≈ 100 MeV/c), σ ≈ 10-15%
• dE/dx in TPC, at low and very high momenta (rel. rise), σ ≈ 5.2% (pp) -> 6.5% (Pb-Pb central)
• Time-Of-Flight, intermediate pT,σ ≈ 85 ps (Pb-Pb) -> 120 ps (pp)
• HMPID, Cerenkov radiation
![Page 10: Alexander Kalweit, CERN for the ALICE collaboration](https://reader035.vdocuments.us/reader035/viewer/2022070919/62c7d9e55acc110cd24f6ed0/html5/thumbnails/10.jpg)
2012-OCT-09 | [email protected]
Particle identification (1)
5
• The ALICE experiment employs all known techniques for hadron identification:
• dE/dx in ITS, for very low-momenta tracks (pT ≈ 100 MeV/c), σ ≈ 10-15%
• dE/dx in TPC, at low and very high momenta (rel. rise), σ ≈ 5.2% (pp) -> 6.5% (Pb-Pb central)
• Time-Of-Flight, intermediate pT,σ ≈ 85 ps (Pb-Pb) -> 120 ps (pp)
• HMPID, Cerenkov radiation
![Page 11: Alexander Kalweit, CERN for the ALICE collaboration](https://reader035.vdocuments.us/reader035/viewer/2022070919/62c7d9e55acc110cd24f6ed0/html5/thumbnails/11.jpg)
2012-OCT-09 | [email protected]
Particle identification (1)
5
• The ALICE experiment employs all known techniques for hadron identification:
• dE/dx in ITS, for very low-momenta tracks (pT ≈ 100 MeV/c), σ ≈ 10-15%
• dE/dx in TPC, at low and very high momenta (rel. rise), σ ≈ 5.2% (pp) -> 6.5% (Pb-Pb central)
• Time-Of-Flight, intermediate pT,σ ≈ 85 ps (Pb-Pb) -> 120 ps (pp)
• HMPID, Cerenkov radiation
![Page 12: Alexander Kalweit, CERN for the ALICE collaboration](https://reader035.vdocuments.us/reader035/viewer/2022070919/62c7d9e55acc110cd24f6ed0/html5/thumbnails/12.jpg)
2012-OCT-09 | [email protected]
Particle identification (1)
5
• The ALICE experiment employs all known techniques for hadron identification:
• dE/dx in ITS, for very low-momenta tracks (pT ≈ 100 MeV/c), σ ≈ 10-15%
• dE/dx in TPC, at low and very high momenta (rel. rise), σ ≈ 5.2% (pp) -> 6.5% (Pb-Pb central)
• Time-Of-Flight, intermediate pT,σ ≈ 85 ps (Pb-Pb) -> 120 ps (pp)
• HMPID, Cerenkov radiation
![Page 13: Alexander Kalweit, CERN for the ALICE collaboration](https://reader035.vdocuments.us/reader035/viewer/2022070919/62c7d9e55acc110cd24f6ed0/html5/thumbnails/13.jpg)
2012-OCT-09 | [email protected]
Particle identification (1)
5
• The ALICE experiment employs all known techniques for hadron identification:
• dE/dx in ITS, for very low-momenta tracks (pT ≈ 100 MeV/c), σ ≈ 10-15%
• dE/dx in TPC, at low and very high momenta (rel. rise), σ ≈ 5.2% (pp) -> 6.5% (Pb-Pb central)
• Time-Of-Flight, intermediate pT,σ ≈ 85 ps (Pb-Pb) -> 120 ps (pp)
• HMPID, Cerenkov radiation
![Page 14: Alexander Kalweit, CERN for the ALICE collaboration](https://reader035.vdocuments.us/reader035/viewer/2022070919/62c7d9e55acc110cd24f6ed0/html5/thumbnails/14.jpg)
2012-OCT-09 | [email protected]
Particle identification (2)• Unique speciality of the ALICE experiment:
continuous and precise particle identification and tracking from very low (100 MeV/c) to very hight pT (20 GeV/c).
• Identification from the lightest (electron) to the heaviest (anti-nuclei) particles:
6
(GeV/c)zp0.1 0.2 1 2 3 4 5
TP
C io
niz
atio
n s
ign
al (
a.u
.)
0
100
200
300
400
500
600
700
800
900
1000He4
td
p
-K
-
-e
offlinetrigger
0.3
He3
= 2.76 TeVNNsPb-Pb, 2011 run,
negative particles,
, 2012July 4th
ALI-PERF-27141
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Hadron chemistry
2012-OCT-09 | Quark Confinement and the Hadron Spectrum Conference -- Munich
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2012-OCT-09 | [email protected]
Low-pT particle production: π/K/p (1)
• Excellent PID allows direct measurement of pion, kaon, and proton spectra at low momenta.
• Spectral shape: hydrodynamics.• large radial flow: <βT> = 0.65 ± 0.02
~10% higher w.r.t. RHIC• Hydro (with refined late fireball
description works) at the LHC.
• Production yields: thermal models.
8
arXiv:1208.1974 [hep-ex]
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2012-OCT-09 | [email protected]
Low-pT particle production: π/K/p (2)
• Comparison to thermal model prediction: good agreement, but proton yield is lower in data. A similar behavior is seen in the analysis of pp data.
9
Predicted temperature T=164 MeVA.Andronic, P.Braun-Munzinger, J.Stachel NP A772 167
...more details in the next talk.
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2012-OCT-09 | [email protected]
Low-pT particle production: π/K/p (2)
• Comparison to thermal model prediction: good agreement, but proton yield is lower in data. A similar behavior is seen in the analysis of pp data.
9
Predicted temperature T=164 MeVA.Andronic, P.Braun-Munzinger, J.Stachel NP A772 167
...more details in the next talk.
(GeV/c)t
p0 0.5 1 1.5 2 2.5
-1 |
y|<
0.5
(G
eV
/c)
t d
N/d
pIN
EL
1/N
-310
-210
-110
1
10ALICE preliminary
= 7 TeVspp at
2+stat2syserror =
Levy fit
+π
+K
p
Normaliztion Error 8.3%
pp@7TeV
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2012-OCT-09 | [email protected]
Low-pT particle production: π/K/p (2)
• Comparison to thermal model prediction: good agreement, but proton yield is lower in data. A similar behavior is seen in the analysis of pp data.
9
Predicted temperature T=164 MeVA.Andronic, P.Braun-Munzinger, J.Stachel NP A772 167
...more details in the next talk.
(GeV/c)t
p0 0.5 1 1.5 2 2.5
-1 |
y|<
0.5
(G
eV
/c)
t d
N/d
pIN
EL
1/N
-310
-210
-110
1
10ALICE preliminary
= 7 TeVspp at
2+stat2syserror =
Levy fit
+π
+K
p
Normaliztion Error 8.3%
pp@7TeV
pp K p
par
ticle
ratio
-510
-410
-310
-210
-110
1
ALICE data pp 7TeV (prel.)
T = 154 MeV
= 1.66 fmC MeV / R-3 = 3 10B
= 1 fm / T = 170 MeVCR
= 2 fm / T = 170 MeVCR
THERMUS
Preliminary
Thermus: S. Wheaton, J. Cleymans and M. Hauer, Comput. Phys. Commun. 180 (2009) 84-106
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Anti-matter
2012-OCT-09 | Quark Confinement and the Hadron Spectrum Conference -- Munich
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2012-OCT-09 | [email protected]
Table of nuclides
• Decades of research in nuclear physics have explored the table of nuclides from the valley of stability to its boundaries and the heaviest elements.
• In high energy nuclear physics experiments like ALICE, we have the unique possibility to study also the production of the corresponding anti-nuclei in ppand - in particular - PbPbcollisions.
• Compared to e.g. π, K, p these particles are only rarely produced and the production probabilitydecreases quickly with increasing mass...
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2012-OCT-09 | [email protected]
Light anti-nuclei
• Unique experimental possibilities at the LHC: matter and anti-matter are produced in equal amount:
12
arXiv:1208.1974 [hep-ex]
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2012-OCT-09 | [email protected]
Light anti-nuclei
• Unique experimental possibilities at the LHC: matter and anti-matter are produced in equal amount:
12
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2012-OCT-09 | [email protected]
Observation of anti-alpha
• Powerful combination of dE/dx and time-of-flight measurements: clean identification of deuterons, tritons, 3He, and 4He.
• First observation by STAR:Nature 473 (2011) 353-356
• Significant increase instatistics w.r.t. to the 2010Pb-Pb run: 10 clearly identified candidates compared to 4.
• Extraction of yield isongoing, but correction forabsorption of anti-matter in detector material remains challenging.
13
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Search for exotic hyper-matter states
2012-OCT-09 | Quark Confinement and the Hadron Spectrum Conference -- Munich
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2012-OCT-09 | [email protected]
(Anti-)Hyper-Matter
• By replacing a baryon with a hyperon, the table of nuclides can be extended in another dimension:
• N.B: basic properties of these particles, e.g. lifetime and decay topology are very similar to the one of Λs etc. (classical V0s and cascades).
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2012-OCT-09 | [email protected]
The hyper-triton
• The lightest known hyper-nucleus. Signal from 2011 Pb-Pb run.• Currently working on pT-spectra extraction.
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2012-OCT-09 | [email protected]
H-Dibaryon and Lambda-neutron bound state• Are there even lighter hyper-nuclei systems?
• Λ-Λ bound state might exist: H-Dibaryon.• Experimental signature of a Λn bound state in the HypHI-experiment at GSI.
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2012-OCT-09 | [email protected]
Search for a Lambda-neutron bound state (1)
• If it existed, what would be the expected yield in ALICE at the LHC?
18
BRefficiencyfrom fullsimulation
yield from thermal model
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2012-OCT-09 | [email protected]
Search for a Lambda-neutron bound state (2)
• But no visible signal in real data...
• From the non observation we can set an upper limit:
dN/dy < 1.5x10-3 (99% CL)
• For illustration: this is a factor 10 lower than the expectation from the thermal model.
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2012-OCT-09 | [email protected]
H-Dibaryon
• First predicted by Jaffe with a bag model calculation (Jaffe, PRL 38, 617 (1977)) and revisited by recent lattice calculations (Inoue et al., PRL 106, 162001 (2011) and Beane et al., PRL 106, 162002 (2011)).
• Similar study as for the Lambda-neutron bound state. Also here no visible signal. Upper limit:
20
For a strongly bound H: dN/dy < 8.4x10-4 (99% CL)
For a lightly bound H: dN/dy < 2x10-4 (99% CL)
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2012-OCT-09 | [email protected]
Summary
• ALICE’s unique particle identification capabilities allow for a very precise and detailed study of low momentum (bulk) particle production at the LHC.
• The particle production is found to be in agreement with hydrodynamical and thermal model calculations. However, late fireball descriptions have to be included in the hydro-codes and the observed proton yield is lower than the expectation.
• The LHC offers unique experimental possibilities for the measurement of known and the search for unknown anti- and hyper-matter states.
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2012-OCT-09 | [email protected]
Outlook: p-A pilot run in September
• Early next year: p-A run for the measurement of cold nuclear matter effects.
• 13th of September: very successful pilot run (one night) at much lower luminosity
22
ALICE pA collision 5.02 TeV
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BACKUP SLIDES
2012-OCT-09 | Quark Confinement and the Hadron Spectrum Conference -- Munich