EXOTIC MESONS WITH HIDDEN BOTTOM NEAR THRESHOLDS D2 S. OHKODA (RCNP) IN COLLABORATION WITH Y....
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Transcript of EXOTIC MESONS WITH HIDDEN BOTTOM NEAR THRESHOLDS D2 S. OHKODA (RCNP) IN COLLABORATION WITH Y....
![Page 1: EXOTIC MESONS WITH HIDDEN BOTTOM NEAR THRESHOLDS D2 S. OHKODA (RCNP) IN COLLABORATION WITH Y. YAMAGUCHI (RCNP) S. YASUI (KEK) K. SUDOH (NISHOGAKUSHA) A.](https://reader031.fdocuments.us/reader031/viewer/2022033108/56649e715503460f94b70082/html5/thumbnails/1.jpg)
Heavy quark hadrons 1
EXOTIC MESONS WITH HIDDEN BOTTOM NEAR THRESHOLDS
D2 S. OHKODA (RCNP)
IN COLLABORATION WITH
Y. YAMAGUCHI (RCNP)
S. YASUI (KEK)
K. SUDOH (NISHOGAKUSHA)
A. HOSAKA (RCNP)12/06/21
arXiv:1111.2921 [hep-ph]accepted in PRD
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Heavy quark hadrons 2
CONTENTS Introduction
What is exotic hadrons? Zb(10610) and Zb(10650)
Potential model
Formalism Numerical results Channel coupling effects
Summary
12/06/21
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MOTIVATION
Everything are not forbidden“… while mesons are made out of (qq), (qqqq), etc.”
Gell-Mann, Phys. Lett. 8, 214 (1964)12/06/21
Heavy quark hadrons 3
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Eichten in QWG 2008 Nara
quarkonium cc
quarkonium cc+ exotic states
C C
s1
s2L
CHARMONIUM• Cornell potential well
explains the charmonium spectrum
Z(4250)
X(3940)
X(4160)
Y(4260)
Y(4008)
Y(4350)
Y(4630)
X(3872)
Y(3940) Z(4050)
Z(4430)
Y(4140)
?
12/06/21
Heavy quark hadrons 4
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12/05/16
Charm2012 5
BB threshold
5s Zb(10650)Zb(10610)
BOTTOMONIUM SPECTRUM
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EXOTIC HADRON PROPERTIES
1. Exotic quantum numbers
I(JPC) = 0(0+-), 0(0--), 0(1-+), 0(2+-)… and I=1 states.
Ex) Z(4430)+, Zb(10610)+, Zb(10650)+
2. Decay width is quite narrow
Some exotic hadrons have the “narrow” decay width. Open charm decays seem to be suppressed. Ex) Γ(Y(4140)) = 11.6 MeV
3. Unexpected decay channel and ratio
Isospin breaking?
Exotic spin structure?
4. Mass position do not fit into usual quark model prediction
Exotic hadrons do not fit into the conventional qq quark model
12/06/21
Heavy quark hadrons 6
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Heavy quark hadrons 7
OBSERVATION OF Zb(10610) AND Zb(10650)
12/06/21
PRL 108, 122001 (2012)
BY BELLE COLLABOALTION
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Υ(5S) HAS ANOMALOUSLY HIGH RATES TO Υ(1S), Υ(2S) AND Υ(3S)
What is the origin ?12/06/21
Heavy quark hadrons 8
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Intermediate states appear in Υ(5S) → Υ(nP) π+ π−
PRL 108, 122001 (2012)
Heavy quark hadrons 9
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LOOK FOR hb AND hb(2P) IN Υ(5S) → π+ π− + ANYTHING
12/06/21
Heavy quark hadrons 10
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EXOTIC DECAY RATIOS
12/06/21
Heavy quark hadrons 11
= for hb(1P)
for hb(2P)
The process with spin-flip is not suppressed !Υ(5S) → hb(mP) π+π- decay is exotic
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RESONANT STRUCTURE OF Υ(5S) → hb(mP) π+ π−
〜 BB* threshold
〜 B*B* threshold
Resonance parameters are consistent for hb(1P)ππ and hb(1P)ππ Almost all hb(mP) are produced through Υ(5S) → Zb π → hb ππ12/06/21
Heavy quark hadrons 12
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12/06/21
Heavy quark hadrons 13
MASS AND WIDTH IN EACH MEASUREMENT
M = 10607.2 ± 2.0 MeVΓ = 18.4 ± 2.4 MeV
M = 10652.2 ± 1.7 MeVΓ = 11.5 ± 2.2 MeV
Zb(10610) Zb(10650)
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Heavy quark hadrons 14
EXOTIC MESONS WITH HIDDEN BOTTOM NEAR THRESHOLDS
12/06/21
ARXIV:1111.2921 [HEP-PH]
SUBMITTED IN PRD
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12/06/21
Heavy quark hadrons 15
Zb(10610) AND Zb(10650)
• Exotic quantum numbers IG (JP) = 1+(1+)• Exotic decay ratios Γ(Zb → Υ(nS)π) ≈ Γ(Zb → hb(mP)π) • “Exotic twin” resonances Δm = m(Zb(10650))-m(Zb(10610)) ≈ 45MeV
Υ(5S)
Υ(nS), n=1,2,3hb(mP), m=1,2
Zb’s are good candidates of molecule states
Properties
n = 1,2,3 m= 1,2
Υ(5S) Zb π hb(mP) π πΥ(5S) Zb π Υ(nS) π π
Decay processes
± ±x
± ±
10610,10650
By Belle CollaborationarXiv:1110.2251
M(Zb(10610))= 10607.2 ±2.4 MeV
M(Zb(10650))= 10652.2 ±1.5 MeV
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The puzzle of Zb Decay width
ϒ(5S) Zb+
π- ϒ(nS) π+ π-
A.E. Bondar et al. PRD(2011)
Spin flip !No spin flip
process with spin flip should be suppressed because of large mass of b quark
In practice, these process have almost the same probability
Sl : spin of light degree of freedom
If Zb is meson molecular states, spin flip problem is solved.
hb π Υ π
ϒ(5S) Zb+
π- hb(kP) π+ π-
12/06/21Heavy quark hadrons 1
6
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17
B(*) (D)
π, ρ, ω ,…
B(*) (D)
• Can the OBEP bind mesons in heavy quark sector? • Could such states explain the exotic states which do not fit
into the conventional qq quark model?
DO MOLECULE STATES EXIST?
12/06/21
Heavy quark hadrons
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WHY ARE MOLECULAR STATES STUDIED IN HEAVY QUARK SECTORS?
18
• The kinetic term of Hamiltonian is suppressed
Because the reduced mass is larger in heavy mesons
Ex) two body systems
B and B* are degenerate thanks to HQS
-> The effects of channel-couplings becomes larger
The interaction of heavy quark spinis suppressed in heavy quark sector mK ∗ − mK ~ 400 MeV
mD ∗ − mD ~ 140 MeV
mB ∗ − mB ~ 45 MeV
12/06/21
Heavy quark hadrons
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EFFECT OF MASS DEGENERACY
12/06/21
Heavy quark hadrons 19
N N
N N3S1
3S1
3D1
P P
P P1S0
1S0
5D0P* P*
π
π π
π
P=D,B
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gDD*π coupling is very strong in heavy quark sector !12/03/14
Seminor in Nagoya Univ. 20
COUPLING STRENGTH HQS VS SU(4)
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Heavy quark hadrons 21
BB Components
12/06/21
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22
LAGRANGIANS FOR HEAVY MESONS
P = D or B P* = D* or B*
Heavy meson field
R. Casalbuoni et al, Phys. Rep. 281, 145 (1997)
12/06/21
Heavy quark hadrons
(D* → Dπ, radiative decay, loptonic decay of B)
Model setup
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Heavy quark hadrons 23
CUTOFF
• We employ monopole-type Form factor for each vertex
• The cutoff ΛN is determined from deuteron• ΛP is determined by the ratio of the size
12/06/21
Model setup
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THE COUPLED CHANNEL POTENTIAL
24
We solve numerically the Schrödinger equation
Ex) IG (JPC) = 1+(1+-) : Zb ,Zb’
12/06/21
Heavy quark hadrons
Model setup
HAMILTONIAN
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Heavy quark hadrons 25
• We solve numerically the coupled-channel Schrödinger equation
• We found no DD bound and resonance states with exotic quantum numbers
• But several BB bound and resonance states are obtained
• There is novel correspondence of BB states and Zb
12/06/21
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NUMERICAL RESULTS
12/06/21
Heavy quark hadrons 26
B*B*
BB*
45MeV
(10650)
(10604)
Z’b experiment
Zb experiment
BB* bound stateEB = -8.5 MeV
Ere =50.4MeVResonance state
• We find the twin states in 1+(1+-)
near the BB* and B*B* threshold. These states would be interpreted as Zb’s.
• OPEP is dominant in this system.• Molecular states in IG (JP) = 1+(1+)
are unique property in bottom quark sector.
Remarks
3 results
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THE BB BOUND AND RESONANCE STATES
IG(JPC) 1+(0--) 1+(1+-) 1-(1++) 1+(1--) 1-(2++) 1+(2--) 0+(1-+)
1059410596
10602
10655
10566
1061710621
10606
10649
10622
Zb(10607)
Zb(10652)(10650)B*B*
(10604)BB*
(10559)BB
results
27
12/06/21
Heavy quark hadrons
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Heavy quark hadronsIG(JPC) 1+(0--) 1+(1+-) 1-(1++) 1+(1--) 1-(2++) 1+(2--)
ϒ(5S) 0-(1--)(10860) π S-wave
π P-wave
γ
Υπ, hbπ
Υπ, hbπ Υπ, ηbρ
hbπ, ηbρ, Υπ
hbπ, ηbρ, Υπ
Υπ, ηbπΥρ, Χbπ
Υρ, Χbπ
(10650)B*B*
(10604)BB*
(10559)BB
Decay channel
12/06/21
28
How to produce?
How to decay?
Υπ, ηbπ
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NUMERICAL RESULTS
12/06/21
Heavy quark hadrons 29
B*B*
BB*
45MeV
(10650)
(10604)
Z’b experiment
Zb experiment
BB* bound stateEB = -8.5 MeV
Ere =50.4MeVResonance state
• Observed Zb’s are resonance states.
• But our model predict BB* bound state.
• What will happen if our prediction includes channel coupling effect ?
Remarks
3 results
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EFFECTS OF THE COUPLING TO DECAY CHANNELS
12/06/21
Heavy quark hadrons 30
Total mass shift is 2.4 MeV. Effects of channel coupling are repulsive.
Table: Various coupling constants g = gΥ , ghb and the mass shifts δM of Zb .
Zb
Υ, hb
π
Loop function
Imaginary part of loop function
Mass shiftΛ=600 MeV
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NUMERICAL RESULTS
12/06/21
Heavy quark hadrons 31
B*B*
BB*
45MeV
(10650)
(10604)
Z’b experiment
Zb experiment
BB* bound stateEB = -6.1 MeV
Ere =50.4MeVResonance state
• Channel coupling effects push up BB* bound state to 6.1MeV.
• If we use Λ=520 MeV, BB* bound state corresponds the mass position of Zb.
Remarks
results
Push upδM
Γ
Mth
Mth
ϒ(1S) π
5
10
15
2
6
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• We have systematically studied the possibility of the BB bound and resonant states having exotic quantum numbers.
• IG(JPC)=1+(1+-) states have a bound state with binding energy 8.5 MeV, and a resonant state with the resonance energy 50.4 MeV and the decay width 15.1 MeV. The twin resonances of Zb’s can be interpreted as the BB molecular type states.
• The other possible BB states are predicted.• The channel mixing plays an important role.• One pion exchange potential is dominant.• Various exotic states would be observed around the
thresholds from Υ(5S) decays in accelerator facilities such as Belle.
SUMMARY
12/06/21
Heavy quark hadrons 32