Download - Die vielen Facetten seltsamer Hadronen
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…
1997
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Pillars of QCD
mass
Martin J. Savage:
“The first lattice QCD calculation of the deuteron will be a milestone for nuclear physics.“
hep-lat/0509048
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Hyper-nuclei
in PANDA
• Shopping list of hypernuclei
• DOUBLE HYPERNUCLEi IN PANDA
• SOME MORE things
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Birth, life and death of a hypernucleus
γ
γ
γelectromagnetic
decays
p,n →Λ
nonmesonicweak decay
nnY
np
NnpΛ →
Λ →ΛΛ →
0n
p
ππ −Λ →
Λ →
mesonicdecays
hadronicdecay in emulsion
strangeness deposition
FINUDAstopp
Ad
Ae
KK
Z ZK
e e
π
+ − −
−Λ
+
−
+ → Φ → +
+ → +
strangeness production(π+, K+), (π-, K0)
BNL,KEKstrangenessexchange
(K_, π-) ,(K
_, π0)
BNL,KEK,JPARC
electroproduction(e,e´K+) , (γ,K+)
Jlab, MAMI-C
target nucleus
energy resolutionK,π: 1-2 MeVKstopped: 1 MeVe: 0.5 MeVγ-transitions: 5 keV
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Physics of Hypernucleithe Y-N and Y-Y strong interactions in the JP = 1/2+ baryon octetthe nuclear structure, e.g. the origin of the spin-orbit interactionspecific aspects baryon-baryon weak interactionspossible existence of dibaryon particleshyperons (Λ, Σ, Ξ) and meson properties in the nuclear mediumthe role played by quark degrees of freedom, flavour symmetry and chiral models in nuclear and hypernuclear phenomena
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Exp. Approaches to Y-N interactionslow energy baryon-baryon scattering
N-N: ~104 data points available for hyperons only very few elastic data d(t)300MeV/c
Λ-p→Λ-p: 12 (10) Σ+-p→ Σ+-p: 4 Σ−-p→ Σ--p: 9 (3)spin averaged → can not access LS or SS couplingusually low statistics
Σ−p: KEK-PS E289 (π−,K+) ⇒ 30 eventsΣ+p: KEK-PS 251 & KEK-PS E289 (π+,K+) ⇒ 31 events eachΞ− p: (K-,K+) ⇒ 1 candidate
JPARC: ~1000 events/dayPolinder, Haidenbauer, Meißner 2006
not practical forY-Y interaction!
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2mΛ
Λ-Λ Final state interactionhyperon-hyperon final state interaction via ΛΛ invariant mass
KEK-PS E224, Physics Letters B 444, 267 (1998)KEK-PS E522: K.Nakazawa PS-Review (2004)
feasible but difficult to interpret (rescattering, size,…)
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Understanding Nuclear StructureSteven Stephen C. Pieper et al., 2002potentials with increasing complexity
spin-isospin and tensor forces present in long-range one-pion-exchange are essentialmulti-nucleon forces are vitalsub-MeV precission (~3 parameters only)
no spin-orbit
NNN force
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Nuclear spectra in χEFTgreat progress in recent years
e.g. Petr Navratil et al. (2005)consistent (same cutoff parameter Λ) treatment of NN (N3LO) and NNN force (N2LO; from fit to 3H and 4He binding energies)
no hypernuclei yet, but work in progress (N. Kaiser, Paolo Finelli…)
2-pion exchange
term
one-pion+contact
term
contactterm
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Physics of Hypernucleithe Y-N and Y-Y strong interactions in the JP = 1/2+ baryon octetthe nuclear structure, e.g. the origin of the spin-orbit interactionspecific aspects baryon-baryon weak interactionspossible existence of dibaryon particleshyperons (Λ, Σ, Ξ) and meson properties in the nuclear mediumthe role played by quark degrees of freedom, flavour symmetry and chiral models in nuclear and hypernuclear phenomena
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Λ Potential in Nucleiin normal nuclei: strong spin-orbit interaction (~5MeV for light nuclei) needed to explain shell structure
Haxel, Jensen, Suess and Goeppert-Mayer (1949)
origin still unclearsee e.g. N. Kaiser, Nucl. Phys. A709 (2002) 251
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Eγ(keV)2000 2500 3000 3500
Spin-Orbit Force in HypernucleiBNL AGS E930; H. Akikawa et al., PRL88(2002)082501
γ ray from created by 9Be(K-,π-) reactionΔE(5/2+,3/2+) ⇒ ΛN spin-orbit force, LS (core structure: 2α rotating with L=2)
3/2+
5/2+
1/2+9ΛBeΛ
E2
0+
2+
8Be0(MeV)
3.04 L=2
9ΛBe
|ΔE| = 31±3 keVsurprisingly small spin-orbit force (~few percent of NN case)
ΔE
Also for multi-hypernuclei
precission will be the key issue
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Mass difference between Σ and Λ in single hypernuclei and ΛΛ, ΞΝ, ΛΣ in double hypernuclei are small
m(Ξ0n)-m(ΛΛ)=23MeV m(Σ0Λ)-m(ΛΛ)=77MeV
⇒ mixing important⇒ strong medium dependence
impact on spin-orbit forceN. Kaiser, W.Weise, PRC 71, 015203 (2005)
magnitude of mixing depends strongly on nucleiD. E. Lanskoy, Y. Yamamoto, Phys. Rev. C 69, 014303 (2004) Nemura et al. (2005)
Y-N or Y-Y Interaction in Hypernuclei
E. Hiyama et al., Phys. Rev. C65, 011301R (2001)
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Physics of Hypernucleithe Y-N and Y-Y strong interactions in the JP = 1/2+ baryon octetthe nuclear structure, e.g. the origin of the spin-orbit interactionspecific aspects baryon-baryon weak interactionspossible existence of dibaryon particleshyperons (Λ, Σ, Ξ) and meson properties in the nuclear mediumthe role played by quark degrees of freedom, flavour symmetry and chiral models in nuclear and hypernuclear phenomena
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Weak Decay of Λ Hypernuclei
w
Λ
N
πpN≈100MeV/c
free Λ decayfree Λ decay mesonic decayof hypernuclei
mesonic decayof hypernuclei
w
Λ
N
π
suppresed byPauli blocking
pF≈270MeV/c
0n
+38MeV ( )
+41MeV ( )2
6
6
4
36
%
%3ps
p
ππ
τ
−
Λ
Λ →
Λ →=
non-mesonicdecay
of hypernuclei
non-mesonicdecay
of hypernuclei
w
Λ
N
s
N
N
+176MeV+176MeVnn
pnp nΛ →
Λ →
dominant in all but the lightest
hypernucleiΔI=1/2 rule
π, ρ,ω,ηK, K∗
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Weak baryon-baryon interactionΛN→N NΛN→N N ΛΛ→Y NΛΛ→Y N
two-pion exchangetwo-nucleon induced decays ΛNN→NNNmeson vs. direct quark process
→ access to weak ΛΛK vertexA. Parreno, A. Ramos and C. Bennhold, Phys. Rev C 65, 015205: 3.6%K. Sasaki, T. Inoue, and M. Oka, Nucl.Phys. A726 (2003) 349-355: 0.2%K. Itonaga, T. Ueda, and T. Motoba, Nucl. Phys. A691 (2001) 197c: 2.5%
two-pion exchangetwo-nucleon induced decays ΛNN→NNNmeson vs. direct quark process
→ access to weak ΛΛK vertexA. Parreno, A. Ramos and C. Bennhold, Phys. Rev C 65, 015205: 3.6%K. Sasaki, T. Inoue, and M. Oka, Nucl.Phys. A726 (2003) 349-355: 0.2%K. Itonaga, T. Ueda, and T. Motoba, Nucl. Phys. A691 (2001) 197c: 2.5%
w
Λ
N
2πs
ΔS=1
N
N
⊗
6 :He nΛΛ ΛΛ → Λ
s
Λ
N
K, K∗w
Λ
Λ
w
Λ
Nπ, ρ,ω,η
NN
NN
s
High statistics is another key issue
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Example: Weak decay of 5ΛHe KEK–E462, B. H. Kang et al. Phys. Rev. Lett. 96, 062301 (2006)
open issuesFSI role of two nucleon induced decyas: ΛNN→NNN (→tripple coincidences ?)
For ΛΛ→Λn: back-to back Λ-n coincidences
0.45 0.11 0.03n nnstat sys
p pn
NN
Γ≈ = ± ±
Γ
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Physics of Hypernucleithe Y-N and Y-Y strong interactions in the JP = 1/2+ baryon octetthe nuclear structure, e.g. the origin of the spin-orbit interactionspecific aspects baryon-baryon weak interactionspossible existence of dibaryon particleshyperons (Λ, Σ, Ξ) and meson properties in the nuclear mediumthe role played by quark degrees of freedom, flavour symmetry and chiral models in nuclear and hypernuclear phenomena
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Physics of Hypernucleithe Y-N and Y-Y strong interactions in the JP = 1/2+ baryon octetthe nuclear structure, e.g. the origin of the spin-orbit interactionspecific aspects baryon-baryon weak interactionspossible existence of dibaryon particleshyperons (Λ, Σ, Ξ) and meson properties in the nuclear mediumthe role played by quark degrees of freedom, flavour symmetry and chiral models in nuclear and hypernuclear phenomena
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Physics of Hypernucleithe Y-N and Y-Y strong interactions in the JP = 1/2+ baryon octetthe nuclear structure, e.g. the origin of the spin-orbit interactionspecific aspects baryon-baryon weak interactionspossible existence of dibaryon particleshyperons (Λ, Σ, Ξ) and meson properties in the nuclear mediumthe role played by quark degrees of freedom, flavour symmetry and chiral models in nuclear and hypernuclear phenomena
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double hypernuclei
in PANDA
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Task
High resolutionγ-spectroscopy
andweak decay studies
of double hypernuclei
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The first event (1)
carefully reanalyzed≈1963 by P.H. Fowler, V.M. Mayes and E.R.FletcherDalitz et al., Proc. R. Soc. Lond. A426, 1 (1989)
1.3-1.5 GeV/c K-+Emulsion; 31000 K-
12 10
10 9
9
2C Be p n
Be Be p
Be p
π
α α π
−ΛΛ
−ΛΛ Λ
−Λ
Ξ + → + +
→ + +
→ + + +
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Hypernuclei Chart
BY X
element =total charge(not numberof protons)
number of baryonsN+Z+Y
(number of) hyperons Y
1963 Danysz event: 10ΛΛBe
1966 Prowse event: 6ΛΛHe
1991 Aoki event: 13ΛΛB
2001 Nagara event: 6ΛΛHe
1963 Danysz event: 10ΛΛBe
1966 Prowse event: 6ΛΛHe
1991 Aoki event: 13ΛΛB
2001 Nagara event: 6ΛΛHe
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Production of ΛΛ−Hypernucleisimultaneous implantation of two Λ is not feasiblereaction with lowest Q-value: Ξ-p→ΛΛ: 28MeVdirect implantation of a Ξ− via a two-body reaction difficult because of large momentum transfer
in most cases two-step processproduction of Ξ- in primary nucleusslowing down and capture in a secondary target nucleus
spectroscopic studies only possible via the decay products
X− χαπτυρε: X− π � LL + 28 Μες
Ξ−
LΛ
+28MeV
γ
γΛ
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The Discovery of the anti-Xidiscovered simultaneously at CERN and SLAC
p p − ++ → Ξ + Ξ
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Ξ- productionp(K-,K+)Ξ-
needs K- beam (c·τ=3.7cm)recoil momentum >460 MeV/c
KEK-E176: 102 stopped ΞKEK- E373: 103 stopped Ξ per week(s)AGS-E885: 104 stopped Ξ
antiproton storage ring HESR
few times 105 stopped Ξ per day⇒ γ-spectroscopy feasible
− +
− +
+ → Ξ + Ξ
+ → Ω + Ω
p pp p
X− χαπτυρε: X− π � LL +28 Μες
Ξ−3 GeV/c
Kaons_Ξ
LΛ
triggerp_
+23MeV
γ
γΛ
Production of Ξ−
Ξ- conversion in 2 Λ: −Ξ + → Λ + Λ + 28.5MeVp
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PANDA setupθlab< 45°: Ξ-bar,
K trigger (PANDA)θlab= 45°-90°: Ξ−-capture,
hypernucleus formationθlab>90°: γ-detection (Euroball)
neutron background (4000n cm-2s-1)
0
p p
pn
−
−
+→ Ξ
→ Ξ
Ξ
Ξ
X− χαπτυρε: X− π � LL +28 Μες
Ξ−3 GeV/c
Kaons_Ξ
LΛ
triggerp_
+28MeV
γ
γΛ
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Whatelse ?
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triple hypernuclei via ?lower cross sectionlarge momenta ⇒ lower stopping probabilitylarge Q-value ⇒ low probability for triple Λ nucleiγ-spectroscopy most likely not practical at the beginning
Λc hypernucleiproduction via primary + secondary target not possible because of short lifetime of τΛc =0.2ps which exceeds stopping timedirekt production via pp → ΛcΛcbar or π-p→ΛcD- difficult because of high momenta involved (very low sticking probability)does a two-step process within one nucleus work?
determination of the Λc hypernucleus mass via missing massneeds good knowledge of beam momentum (10-4)excellent momentum resolution for π+ and D- (resp. decay products)
expected rate ~0.01 day-1 (??? rescattering → 1day-1 ???)
What we (probably) can‘t do203pp pn MeV→ ΩΩ Ω → ΛΛΛ +
c
p p D D
D p π
+ −
+ + +
+ → +
+ → Λ +
captured in thenucleus A-2
detected
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X- capture: X- p � LL + 28 MeVΩ-
5.5 GeV/c
Kaons_Ω
L3Λ
trigger
p_
2. Slow down and capture
of Ω- insecondary
targetnucleus
2. Slow down and capture
of Ω- insecondary
targetnucleus
1.Hyperon-
antihyperonproduction
at threshold
1.Hyperon-
antihyperonproduction
at threshold
+203MeV
γ 3. γ-spectroskopy
with Ge-detectors
3. γ-spectroskopy
with Ge-detectors
Production of Ω-Atoms
( ) 1( ) 20
σσ
Ξ + ΞΩ + Ω
∼
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J=1/2 baryons have no spectroscopic quadrupole moment
The Ω- Baryon is the only „elementary“ particle whose quadrupolemoment can be measured
J=3/2long mean lifetime 0.82·10-10 s
Contributions to intrinsic quadrupole moment of baryonsGeneral: One-gluon exchange and meson exchangeΩ: only one-gluon contributions to quadrupole moment
A.J. Buchmann Z. Naturforsch. 52 (1997) 877-940
e.g. within SU(3) limit mu/ms=1
3 2 2( )(3 )iQ d r r z rρ= −∫
ss
s
1/ 221/ 2(3 ( 1)) 0
z
Js z JQ J J J =
=∝ − + ⎯⎯⎯⎯→
Deformation of a Baryon
( )Q Q gluonΩ Δ=
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hyperfine splitting in Ω-atom ⇒ electric quadrupole moment of Ω
prediction QΩ = (0 - 3.1) 10-2 fm2
E(n=11, l=10 → n=10, l=9) ~ 520 keVcalibration with 511keV line!
ΔEΘ ~ few tenth of keV for Pb
spin-orbit ΔEls ~ (aZ)4 l·mΩ
quadrupole ΔEΘ ~ (aZ)4Qm3Ω
spin-orbit ΔEls ~ (aZ)4 l·mΩ
quadrupole ΔEΘ ~ (aZ)4Qm3Ω
R.M. Sternheimer, M. Goldhaber, Phys. Rev. A 8, 2207 (1973)
M.M. Giannini, M.I. Krivoruchenko, Phys. Lett. B 291, 329 (1992)
QΩ=0.02fm2
A very strange Atom
QΩ=0.02fm2
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10 Ω Ω pairs/sfew 100 stopped Ω per dayYield(Σ-Pb)≈Yield(Ξ-Pb)C.J.Batty, E. Friedman, A. Gal, PRC 59, 295 (1999)
capture probability ~10%X-ray detection efficiency ~5%trigger efficiency…
~10 observed X-rays/month
antiprotonic atoms at FLAIRcould be an ideal testground!
Experimental details
( ) (2 1)initiallp l l eα= + ⋅
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conclusion
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ConclusionAntiproton collisions with nuclei offer many opportunities to study strange baryons in cold nuclei
baryon-baryon interactionweak decayspectroscopy of baryonic atoms…
These studies are made possible by a unique combination of experimental facilities at FAIR
γ-spectroscopy with Ge detectors ⊕ PANDA ⊕ antiproton beams
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