spectroscopy and interactions of heavy...
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![Page 1: Spectroscopy and Interactions of Heavy Hadronsj-parc-th.kek.jp/seminar/2012/J-PARC-seminar-by-Oka.pdfHeavy-Quark Hadrons at J-PARC The 1st week: 9 Seminars + Symposium Olsen, Spectroscopy](https://reader033.vdocuments.us/reader033/viewer/2022041817/5e5b8c9ccb1eb1130e46b7d6/html5/thumbnails/1.jpg)
Makoto OkaTokyo Institute of Technology
Particle and nuclear physics seminar at J-PARC
Workshop on "Heavy-Quark Hadrons at J-PARC 2012"
06/27/12, J-PARC Branch, KEK
Spectroscopy and Interactions of Heavy Hadrons
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Heavy-Quark Hadrons at J-PARC 2012
Workshop 6/18-22 at Tokyo Tech 6/22 One-day Symposium6/25-29 at Tokai Branch, KEK Theory Center
Organized by A. Dote, S. Hashimoto, A. Hosaka, T. Hyodo, D. Jido, M. Oka, K. Ozawa, M. Takizawa, S. YasuiSponsored by KEK, Theory Center, JPARC Branch JPARC Project HPCI Strategic Program Field 5 RCNP, YITP, Tokyo Tech groups
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Heavy-Quark Hadrons at J-PARC
The 1st week: 9 Seminars + SymposiumOlsen, Spectroscopy at BES and BelleOzawa, Heavy quarks at J-PARCTakeuchi, Takizawa, X(3872)Molina, Ohkoda, D-D* D*-D* bound/resonancesHyodo, Yamaguchi, D-N bound stateNamekawa, Takahashi, LQCD for charmed hadronsLee, Heavy quark and QCD correlatorsKim, QCD sum rule and diquarksHarada, Chiral effective theories for heavy hadronsSudo, Kiyo, Charm productionSuzuki, Fujii, Heavy hadrons in mediumSasaki, Koma, Heavy quark interactions
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Contents
1. Heavy Hadron Spectra
2. New Exotic Resonances
3. Charmed Deuteron
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Heavy Hadron Spectra
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Hydrogen atom in QCD
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Quarkonium
charmonium bottomium
S.N. Mukherjee, et al., Phys. Rep. 231 (1993)
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Quarkonium
quenched r0: Sommer scale G.S. Bali / Phys. Rep. 343 (2001) 1
Linear + Coulomb (Cornell) potential (Eichten et al.)
Heavy quark potential from LQCD
quark antiquark
charmonium
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Heavy-Quark Hadrons
Heavy mesons and baryonsThe SU(4) classification for the ground states works. They follow the quark model assignments (as the light sector)
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PDG
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Heavy-Quark Hadrons
Heavy mesons and baryonsThe SU(4) classification for the ground states works. They follow the quark model assignments (as the light sector)
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PDG
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Heavy-Quark Hadrons
New dynamics for heavy quarksΛQCD(~250 MeV) < mc(~1.2 GeV) << mb(~4.5 GeV)– Heavy quark decouples and the system is simpler.– New symmetries are realized. ex. HQ spin symmetry
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D 1867
B 5279Ds 1968
Bs 5366Dav 1974
D* 2009
D*s 2112Dsav 2076
B* 5325
B*s 5415Bsav 5403
Bav 5313
Λc 2286 Λb 5620
Σcav 2496 Σbav 5826Σc 2453
Σ*c 2518
Σb 5812
Σ*b 5833
K 495
K* 892
Kav 793
Λ 1116
Σ 1193
Σav 1321Σ* 1385
200
65 21194
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Heavy-Quark Hadrons
Light Baryons: qqq color singlet (color antisymmetric) SU(6) 56 dim. L=0, (8, S=1/2) + (10, S=3/2)Heavy Baryons: Qqq ⇒ (3bar, J=1/2) + (6, J=1/2) + (6, J=3/2)
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QQq QQQQQq
HQ spin symmetry
Qqq6+3bar
Qqq6
J=1/2 J=3/2
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Heavy-Quark Hadrons
New dynamics for heavy quarksΛQCD(~250 MeV) < mc(~1.2 GeV) ≪ mb(~4.5 GeV)– Heavy quark decouples and the system is simpler.– New symmetries are realized. ex. HQ spin symmetry
New interesting dynamical contents in Heavy Baryons– Di-quark spectroscopy Q-(qq)– Chiral partners diquark Q(qq)+ v.s. Q(qq)-
quark QQq+ v.s. QQq-
– Appearance of the Roper-like states
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Heavy quark spectroscopy ⇔Diquark spectroscopyΛQ (ΣQ) contains only the S (A) diquark.
What are the roles of (other) diquarks in the excited states?– PS diquark for the negative-parity excited states– Novel diquark for the Roper-like states
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D 1867
B 5279Ds 1968
Bs 5366Dav 1974
D* 2009
D*s 2112Dsav 2076
B* 5325
B*s 5415Bsav 5403
Bav 5313
Λc 2286 Λb 5620
Σcav 2496 Σbav 5826Σc 2453
Σ*c 2518
Σb 5812
Σ*b 5833
K 495
K* 892
Kav 793
Λ 1116
Σ 1193
Σav 1321Σ* 1385
200
65 21194
S diquarks
A diquarks
Heavy-Quark Hadrons
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Diquarks in QCD
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Scalar (S)
Axial V. (A)
Color 6only in Exotic Hadrons
Pseudoscalar
Vector
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Light baryon spectrum
N(940)
Λ(1116)Σ(1193)
Ξ(1318)
N*(1440)
Λ*(1660)Σ*(1660)
1/2 + 3/2 +
Δ(1232)
Σ*(1385)
Ξ*(1530)
Δ*(1600)Ω(1672)
1/2 -
Λ*(1405)
N*(1535)Σ*(1620)
N*(1650)Λ*(1670), Ξ*(1690)
Σ*(1750)Λ*(1800)
3/2 -
N*(1520)Λ*(1520)Σ*(1670)
Λ*(1690), N*(1700)
Ξ*(1820)
Positive Parity
Negative parity
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Roper(-like) states
Baryon Spectrum
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Heavy baryon spectrum looks simpler. They may reveal the nature of the light baryon excited states. The higher thresholds make the heavy baryon excited states narrower.
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1/2+
!"
#$
1100
1300
1500
Ener
gy [M
eV]
% "
3/2+
1/2+
!%
3/2&
1/2&
1200
1400
%c "c
1/2+
!"c
DN
3/2+
1/2+
!%c
3/2&
1/2&
2300
2400
2500
2600
2700
2800
Baryon Spectrum
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Diquarks in QCD
QCD predicts attraction in the channels: PS meson q-qbar : color 1, spin-parity 0-, flavor 1+8 S diquark q-q : color 3bar, spin-parity 0+, flavor 3bar
diquark “meson” d dbar (tetra-quark)di-diquark “baryon” d-d-q (pentaquark)tri-diquark “dibaryon” d3 (6 quarks) color 1, flavor 1, 0++ H dibaryon
diquark matter: color superconductivity Ubar+Dbar+Sbar condensates: color-flavor locking (CFL) Sbar: 2SC (Ubar: uSC Dbar: dSC)
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H = [UDS]A = [uuddss](
U = [ds]C=3,J=0,F=3, D = [su]3,0,3, S = [ud]3,0,3
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Diquarks in QCD
Diquarks in quench lattice calculationsHess, Karsch, Laermann, Wetzorke, PR D58, 111502 (1998)from the correlators in the Landau gauge mq~342 MeV, M(S)~694 MeV, M(A) ~ 810 MeVAlexandrou, de Forcrand, Lucini, PRL 97, 222002 (2006)gauge invariant calculation inside a Qqq system M(A)- M(S) ~ 100-150 MeV, R(S) ~ 1 fm M(PS)- M(S) ~ 600 MeVBabich, et al., PR D76, 074021 (2007)diquark correlation and effective mass in the Landau gauge M(S)- 2mq ~ -200 MeV, M(A)-M(S) ~162 MeVDeGrand, Liu, Schaefer, PR D77, 034505 (2008)diquark correlation in the light baryon S: strongly attractive, PS: attractive for small mq
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Diquarks in QCD
There are two independent local operators for the octet baryons, i.e. J1= (qTCγ5q)S q J2= (qTCq)PS γ5qIt is found by both the LQCD and QCDSR calculations that the ground state nucleon couples mainly to J1 while J2 couples to the negative parity nucleon.Is the mysterious Roper resonance (the 1st excited state of the nucleon with Jπ=1/2+) related to the second baryonic current J2?The local operator is unique for the decuplet baryons.
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Diquarks
The Diquark “cluster” may play major roles in the baryon excitations.How can we quantify the Diquark correlation in QCD?How heavy are the Diquarks? How large is the SU(3) breaking mass splitting? m(U) = m(D) > m(S)What are the interaction of color-non-singlet Diquarks?How can we measure the Diquark correlation in hadrons?Colored correlations in hadrons and nuclei. => Exotic Hadrons
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Mesons (SH Lee, Harada)
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Chiral Symmetry in Heavy Hadrons
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BaryonsChiral symmetry of q3 = (8,1)+(1,8) , (3,3bar)+(3bar,3), . . .Qq2 = (3bar,1)+(1,3bar) , (3,3), (6,1)+(1,6)QQq = (3,1)+(1,3)
P-wave Heavy Baryons have two excitation modes.
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Chiral Symmetry in Heavy Hadrons
L=1
L=1
L=1 (chiral)
L=1 (chiral)<
<
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Two excitation modes of the P-wave Heavy Baryons
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Chiral Symmetry in Heavy Hadrons
31!0, 63!0,1,2
31S0, 63S1
33"0,1,2, 61"1
33"0,1,2, 61"1
31!1, 63!0,1,2
31S0, 63S1
33"0,1,2
61"1
63!0,1,2
31!1
31S0
63S1
1/2+
1/2+, 3/2+
1/2-, 3/2-
1/2-, 1/2-, 3/2-, 3/2-, 5/2-
1/2-, 3/2-
1/2-, 1/2-, 3/2-, 3/2-, 5/2-
single quark mode
spin-spin
Q[qq] baryon with diquark correlations
q
Q
q"
!
Qqq baryon quark model
q
Q
q"
!
" mode
diquark motion ! mode
S----Q
A----Q
S----Q
A----Q
V----QP----Q
L=0
L=0
L=1
L=1
L=0
L=0
chiral partners
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New “Exotic” Resonances
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Exotic Hadrons: Candidates
MesonsScalar meson nonets: f0, a0 vs KKbar
Baryonium-like state X(1835)
Charmonium-like resonances: X(3872) X, Y(3940), Z(3930)
Charged (I=1) resonances: Z+(4430), Z1(4050), Z2(4250) Zb(10610), Zb(10650) (bbbar-like)
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Z+(4430) Γ =45 MeV
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BESIII: X(1835) confirmed + 2 new structures
f1(1510)
two new ones!
J/ψ→γη′π+π−
η′→ηπ+π−
η′→γπ+π−
BESIII
X(1835)
Resonance M( MeV/c2) Γ( MeV/c2) Stat.Sig.
X(1835) 1836.5±3.0+5.6-2.1 190.1±9.0+38
-36 >20σX(2120) 2122.4±6.7+4.7
-2.7 83±16+31-11 7.2σ
X(2370) 2376.3±8.7+3.2-4.3 83±17+44
-6 6.4σ
Bkg‐subtracted;Eff.‐corrected
X(1835): same mass and JPC as the pp peak, but larger width_
consistent with 0-+X(1835)
BESIII PRL 106, 072002 (2011)
narrow!!
S. Olsen, Heavy Quark Hadron 2012
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Charmonium & charmonium‐like mesons‐outline‐
1) new statesbelow 4 GeV‐ψ2(3823)
‐X(3872)‐Z(3930)‐Y(3940)‐X(3940)
3) Charged mesonsWith hidden charm‐‐‐ ‐Z (4430)
+
‐‐‐ ‐Z2(4250)+
‐‐‐ ‐Z1(4050)+
2) New JPC=1‐ ‐ states:‐Y(4260), ‐Y(4360), ‐Y(4660)
S. Olsen, Heavy Quark Hadron 2012
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Exotics are “Colorful” ! (Lipkin@YKIS07)
(qq)8 or (qq)6 are allowed only in the multi-quarks.
q
q q
q q
q
q
q
8 6
Exotic Hadrons
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Scalar mesons
The lowest lying scalar nonets, f0(600, 980), a0(980), K0(800), have wrong ordering and do not fit the qqbar spectrum.
0! !(1) 1!+(1)
0++(0) 0+ !(1) 1+ !(1)
!(137)
0+ (1/2)
"(770)
!(600)
f0(980)
f0(1370)
f0(1500)
a0(980)
a0(1450)
a1(1230)
K0*(1430)
JPG(I))
M (M
eV)
a2(1320)
2+ !(1)
f0(1710)
K0*(800)
Two sets of the 0++ meson nonets
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q-qbar 3P0 + glueball
Tetra-quark q2-qbar 2
nonets?
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Tetra-quark conjecture (Jaffe, Shechter)
composed of Di(anti-)quarks in flavor 3
Now the observed mass ordering can be explained by the numbers of the strange quarks.
All the quarks are in S-wave, so that no extra excitation energy is necessary.
€
U = (d s )S=0,C=3
€
D = (s u )S=0,C=3
€
S = (u d )S=0,C=3
f0(600) ! SS = (ud)(ud)
a0(980) ! UU "DD#2
=(ds)(ds)" (su)(su)#
2
f0(980) ! UU + DD#2
=(ds)(ds) + (su)(su)#
2
no strange quark
}two strange quarks
Scalar mesons
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Why is Λ(1405) the lowest negative-parity baryon?
N(940)
Λ(1116)Σ(1193)
Ξ(1318)
N*(1440)
Λ*(1660)Σ*(1660)
1/2 + 3/2 +
Δ(1232)
Σ*(1385)
Ξ*(1530)
Δ*(1600)Ω(1672)
1/2 -
Λ*(1405)
N*(1535)Σ*(1620)
N*(1650)Λ*(1670), Ξ*(1690)
Σ*(1750)Λ*(1800)
3/2 -
N*(1520)Λ*(1520)Σ*(1670)
Λ*(1690), N*(1700)
Ξ*(1820)
Δs ~ 300 MeV
Δm = 150 ~175 MeV
ΔLS ~ -15~+50 MeV
S-wave
P-wave
Λ(1405)
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ΔLS (Λ*)= 115 MeV
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Λ(1405)
Lattice QCD calculation by T. TakahashiTwo Lambda states are observed, whose masses are much higher than Λ(1405).The result indicates that Λ(1405) may not be a 3-quark state.
0 0.1 0.2 0.3 0.4 0.5pionmass squared [lattice unit]
0.6
0.8
1
1.2
1.4
1.6
Mas
ses
for n
egat
ive−
parit
y !
243 x
48
0−th state1−st state
1670
1405
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T.T. Takahashi, M.O.PRD81, 034505 (2010)
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Penta-quark picture of Λ*(1405)
The orbital angular momenta are all zero : Jπ=1/2-
Need no spin 3/2- partner Flavor 1+8, ideal mixingNew Σ* partner? (B.S. Zou, Σ*(1385) (1/2-))
Are many of the “P-wave” hadrons all in S-wave? ΔM (qqbar-pair) v.s. ΔM (L=1)
Λ(1405)
!! =1!2(SDu + SU d) =
1!2uds(uu + dd)
!! =1!2(SDu" SU d) =
1!2uds(uu" dd), SDd, SU u
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However, . . .
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Quark core v.s. Hadron molecule
Most of these multi-quark-like resonances lie close to two-hadron threshold(s) f0(980) and a0(980) v.s. KKbar
Λ(1405) v.s. NKbar
X(3872) v.s. DD*bar
Couplings of the “core” quark state with two hadron bound and/or continuum states are important. Some resonances are dominated by two-hadron components with significant fraction (sometimes 100%).“Hadron Molecules” or color-singlet “Hadron Cluster” states“Clustering” is strongly developed at the hadronic thresholds.Are there Λ(1405)-like baryons with heavy quark(s)?
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Λ(1405) as a molecule
Λ(1405) as a Kbar N “bound” state.
Chiral unitary approaches predict two resonance poles for Λ(1405). (Jido et al., 2003)They are “generated” by a KbarN bound state and a πΣ resonance. (Hyodo, Weise)
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New quarkonium-like resonances v.s. open charm thresholds
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Belle (KEK)
BB* B*B*
Coincidences of the new quarkonium-like resonances and the open charm (bottom) thresholds motivate interpretations of those states as hadronic molecules.
Heavy Exotic Hadrons
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Exotic Hadrons - Mesons
X(3872) Takeuchi, Takizawa
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Exotic Hadrons - Mesons
X(3872) Takeuchi, Takizawa
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Exotic Hadrons - Mesons
X(3872) Takeuchi, Takizawa
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A few questions on Heavy exotics
Many mesonic “exotic” resonances have been found at Belle and the other heavy-quark factories.What can J-PARC do? Different production processes are important to reveal exotic natures of resonances.Are there Λ(1405)-like baryons with heavy quark(s)?How can we distinguish “exotic” hadrons from the “ordinary” hadrons?
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Charmed Deuteron
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Charm in Medium
Di-baryon and Nuclei with Heavy Quark(s) ΛcN, ΣcN, . . , (charmed deuteron) ΞcN, ΛcΛc, ΛcΣc, . . (doubly charmed deuteron) Charmed hypernucleus (super-nucleus??)D(*), B(*), J/ψ bound states in nucleus HQ version of the Kbar-nucleus
Not a new idea
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Σc
Ξ’c Λc
PRL 39, 1506 (1977)
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H. Bando, S. Nagata, PTP 69, 557 (1983), H. Bando, PTP S81, 197 (1984)
SU(4) extension of the Nijmegen D (HC) model potential is employed.No K, K* exchanges are allowed for the ΛcN, which results in a weaker YcN potential compared with ΛN.No 2-body bound state is found.
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Charmed deuteron
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We reexamine the possibility of the YcN and YcYc bound states from the modern view points of the heavy quark symmetry and chiral symmetry.Advantages of the heavy baryon systems:- The large mass of Yc suppresses the kinetic energy.- Strong Yc - Y*c channel couplings give extra attractions. We emphasize the importance of the Σc - Σc* degeneracy under the heavy quark spin symmetry and the couplings of the ΣcN, Σc*N virtual states to the ΛcN states through the central and tensor forces.
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NN (1S0, I=1) × NN (3S1-3D1, I=0) deuteron
ΛN-ΣN (1S0) × ΛN-ΣN (3S1-3D1) ×
ΛΛ-NΞ-ΣΣ (1S0) H dibaryon
ΛcN-ΣcN-Σ*cN (1S0-5D0) ? ΛcN-ΣcN-Σ*cN (3S1-3,5D1) ?ΛcΛc-ΣcΣc-Σ*cΣ*c (0+) ?
Charmed deuteron
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Our framework: The Yc-N and Yc-Yc interactions are composed of one-pion or one-
boson (π, σ, ρ, ω) exchange potentials. Heavy-quark spin symmetry, chiral symmetry, and hidden local
symmetry are used to determine the meson-baryon couplings. The OPE tensor force induces strong mixings of the D-wave ΣcN (S=1)
and Σ*cN (S=1, 2) states, whose thresholds are degenerate in the large mQ limit.
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Tensor coupling
Charmed deuteron
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The heavy quark (c, b) is “inactive” in the heavy-light hadron systems.
Heavy quark symmetry
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(3/2 6)
!Q =!Q! [ud ]S=0
f=3
"J=1/2
Λc 2286 Λb 5620
Σc 2453
Σ*c 2518
Σb 5812
Σ*b 5833
Λ 1116
Σ 1193
Σ* 1385
"Q =!Q! {ud}S=1
f=6
"J=1/2
"!Q =
!Q! {ud}S=1
f=6
"J=3/2
(S, f ) = (1/2 3bar) (1/2 6)
S=1/2S=3/2
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Heavy quark symmetry
Physics of heavy quark systems is simplified for mQ ≫ ΛQCD
Light quarks do not feel the mass and spin of the heavy quark in the mQ → ∞ limit.- asymptotic freedom- suppressed magnetic-gluon couplingEffective field theory based on the 1/mQ expansion, which leads to a super-selection rule of the heavy quark velocity.
This is a symmetry of QCD in the large mQ regime.The heavy quark spin is conserved at each velocity. (HQ spin symmetry)
45
For small , the velocity of the heavy quark is preserved. Then, we can remove the large momentum component by defining a new effective heavy quark field .
kµ = O(!QCD)! mQvµ
pµ = mQvµ + kµ
Qv(x) = eimQv·xQ(x)
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Heavy quark symmetry
Effective Lagrangian with the heavy-baryon and light mesonsHeavy baryon Q(qq): qq (di-quark) (S, f )= (0+, 3bar) or (1+, 6)→ (S, f ) = (1/2, 3bar) ⊕ [(1/2, 6) ⊕ (3/2, 6)]
Pseudoscalar and vector nonet mesons
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(S, f ) = (1/2 3bar)
(3/2 6)
(1/2 6)
Pseudoscalar nonet mesons Vector nonet mesons
degenerate in the HQ limit
!2
figV!
2
Georgi
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Chiral and Hidden-Gauge symmetries for light quarks/hadrons
Chiral transform SU(3)L×SU(3)R for NG bosons
Hidden Local Gauge Symmetry: h(x) ∈ SU(3)
Light Vector mesons
Heavy quark symmetry
47
! = ei!(x) = !2(x)
g2V
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Heavy-Quark-Chiral Effective Lagrangian
A flavor singlet (I=0) scalar σ meson (mσ = 600 MeV) is introduced. It “simulates” exchanges of two pions correlated in the I=0, J=0 channel. We assume that the σ meson couples to u and d quarks, but not to charm.
Heavy quark symmetry
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Pseudoscalar (π)
Vector (ρ, ω)
σ
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The mesons couple to the light quarks only.
Σc → Λc + πlinear sigma model
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OBEP
The Λc-N, Σc-N and Σ*c-N diagonal and transition potentials are composed of one-pion and/or one-boson (π, σ, ρ, ω) exchange model.Note that the Λc (in general the 3bar baryon) does not couple to the pion (pseudoscalar meson) directly. The other possible mesons, η and φ, are neglected because they give little contribution.Short range part of the potential is implemented by the cutoff parameters in the form factors.
The monopole form factor for each vertex is taken into account.
The cutoff parameters are chosen in two ways:(1) The universal cutoff for all the mesons(2) The scaled cutoff Λ = m + α ΛQCD (ΛQCD=220 MeV)
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F (q) =!2 !m2
!2 ! q2
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Standard meson exchange potential with monopole form factors
Neglect O(1/MQ) corrections and the contact terms.
OBEP
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and so on
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!cN : 0+
Diagonal potentials with !! = !" = !vec = 1 GeV
(11): !cN(1S0) ! !cN(1S0) (22): "cN(1S0) ! "cN(1S0)
" (33): "!cN(5D0) ! "!
cN(5D0)
18 / 38
!
!!
!
!
!totaltotal
!cN(1S0)! "cN(1S0)! "!cN(5D0)
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!
!
!
total total!
!
total !
!
Strong tensor mixings due to the pion exchange potential
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One Pion Exchange Only
Λc N (1S0)
Σc N (1S0)
Σ*c N (5D0)
!cN(1S0)! "cN(1S0)! "!cN(5D0)
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!cN(1S0)! "cN(1S0)! "!cN(5D0)
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Λ = m(meson) + α ΛQCD!cN(1S0)! "cN(1S0)! "!
cN(5D0)!cN(3S1 ! 3D1)! "cN(3S1 ! 3D1)! "!
cN(3S1 ! 3D1 ! 5D1)
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For the ΛcΛc systems, we take only the one-pion exchange interaction. Note that there is no πΛcΛc coupling, and thus the binding comes only from the channel coupling effect.
Again the tensor coupling strength is very strong so that the Σ*cΣ*c channel contribution is large.
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ΛcΛc 1S0
Σ*cΣ*c 5D0
Σ*cΣc 5D0
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Summary for Charmed Deuteron
Possibility of bound Charmed deuteron (ΛcN, or ΛcΛc bound states) has been studied in the one-boson exchange potential approach. The effective Lagrangian is derived from the heavy-quark spin symmetry for charm quarks as well as chiral symmetry and hidden local symmetry for the light quark sector in order to determine the couplings of pseudo-scalar and vector mesons to the heavy baryons. The short-range part of the potential is parameterized by the cut-off parameters. The results are sensitive to the choice of the cutoff. It is an important and interesting future problem to evaluate the short range part of the BB interaction.The couplings of the ΣcN and Σc*N (ΣcΣc, Σc*Σc and Σc*Σc*) channels are taken into account and we have found that the tensor couplings to the D wave Σc*N (5D0 etc) states are very important. 60
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Short-range repulsion
Microscopic view of the short-range B-B interactions can be provided by the quark substructure of the baryons.The quark Pauli effects for Λc-N, Σc-N, Λc-Λc, do not produce strong repulsion at short distances.On the other hand, the color-magnetic interaction (CMI) will give some repulsion to these channels. A simple evaluation of the CMI assuming the heavy-quark limit (charm spin decoupled) gives V(Λc-N) ~ 300 MeV at R=0 V(Σc-N) ~ 100 MeV V(Λc-Λc) ~ 220 MeVcompared with V(N-N; 1S0) ~ 450 MeV V(Λ-N; 1S0) ~ 400 MeV
Work in progress61
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Further interests
Other predictions of heavy-quark bound statesDN bound state → Λ*c (1/2-) by Mizutani, Ramos.DNN may also be bound (Dote, Hyodo, MO).Dbar N: exotic (pentaquark) bound state by Yamaguchi, Yasui et al.J/ψ, ηc bound nuclei:Weak attraction to N with a (J/ψ, ηc - N) ~ 0.2-0.4 fm in lattice QCD calculation by Kawanai, Sasaki.Such an attraction may produce a bound (J/ψ, ηc ) - 4He nuclei. (Yokota, Hiyama, MO)
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Goals of the Workshop
Questions to be answeredWhat are the most valuable observables in HQ physics? @ J-PARC?What new information does HQ physics give to QCD? How are HQs different from q?
Personal answer Heavy baryon spectroscopy → excited statesExotic heavy meson/baryon states → molecules
Heavy quark in medium → heavy quark/hadron bound nuclei
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