Presentation is loading. Please wait.

Presentation is loading. Please wait.

Charm 2006, page 1 Pentaquark Baryons and Tetraquark Mesoniums from Lattice QCD Hadron Calculation with overlap fermion Pentaquark Baryons and Tetraquark.

Published byMorgan Maury Modified over 10 years ago

Similar presentations

Presentation on theme: "Charm 2006, page 1 Pentaquark Baryons and Tetraquark Mesoniums from Lattice QCD Hadron Calculation with overlap fermion Pentaquark Baryons and Tetraquark."— Presentation transcript:

1 Charm 2006, page 1 Pentaquark Baryons and Tetraquark Mesoniums from Lattice QCD Hadron Calculation with overlap fermion Pentaquark Baryons and Tetraquark Mesoniums on the Lattice χ QCD Collaboration: A. Alexandru, Y. Chen, S.J. Dong, T. Draper, I. Horvath, B. Joo, F.X. Lee, K.F. Liu, N. Mathur, S. Tamhankar, H.Thacker, J.B. Zhang Charm 2006, June 6, 2006

2 ITP, 2005, page 2 Hadron Mass and Decay Constant The two-point Green’s function decays exponentially at large separation of time Mass M= E p (p=0), decay constant ~ Φ

3 Charm 2006, page 3 QCD Vacuum QCD Vacuum

4 π ρ σ N Δ φ Σ Λ Ξ ω K S 11 N * CreationOperator QCD Vacuum

5 CreationOperator Θ+Θ+Θ+Θ+ ?? Pentaquark Tetraquark ??

6 Charm 2006, page 6 Le Taureau of Pablo Picasso (1945) Dynamical chiral fermion Quenched approximation with chiral symmetry, and light quark masses 5 th stage11 th stage

7 Charm 2006, page 7 Masses of N, ρ, and π 16 3 x 28 quenched lattice, Iwasaki action with a = 0.200(3) fm 16 3 x 28 quenched lattice, Iwasaki action with a = 0.200(3) fm Overlap fermion Overlap fermion Critical slowing down is gentle Critical slowing down is gentle Smallest m π ~ 180 MeV Smallest m π ~ 180 MeV m π L > 3 m π L > 3

8 Charm 2006, page 8 Evidence of η’N GHOST State in S 11 (1535) Channel Evidence of η’N GHOST State in S 11 (1535) Channel - - - - ηη W > 0 W<0

9 Charm 2006, page 9 Possible Pentaquark candidate Possible Pentaquark candidate Possible candidate Signal reported to be “observed” recently θ + (1540) u d u d

10 u d u d u d u d NK NK u u d d u u d d ٭ Not sufficient to study the masses/energies of the states, particularly in the 1/2 - channel. ٭ Not sufficient to study the masses/energies of the states, particularly in the 1/2 - channel. ٭ Volume study of spectral weight W is much more sensitive. ٭ Volume study of spectral weight W is much more sensitive. m K + m N m K + m N ~ 1432 MeV ~ 1432 MeV m(Θ + ) ~1540MeV 1) Need to discern the nature of the states

11 Lattice Pentaquark Volume Variational Light enough Ghost Group signal claim Test Calculation Quark Mass State Lattice Pentaquark Volume Variational Light enough Ghost Group signal claim Test Calculation Quark Mass State Csikor Yes No Yes (2) No No Csikor Yes No Yes (2) No No et.al No No Yes (9/6) No No et.al No No Yes (9/6) No No Sasaki Yes No No No No Sasaki Yes No No No No Chiu et.al Yes No Yes No No Chiu et.al Yes No Yes No No Mathur et.al No Yes No Yes Yes Mathur et.al No Yes No Yes Yes Ishii et.al No Yes No No No Ishii et.al No Yes No No No Alexandrou Yes Yes No No No Alexandrou Yes Yes No No No Takahashi Yes Yes Yes(2) No No Takahashi Yes Yes Yes(2) No No Negele et.al ? Yes Yes(19) Negele et.al ? Yes Yes(19) Lasscock et. al No No No No No Lasscock et. al No No No No No Holland et. al No No Yes No No Holland et. al No No Yes No No Lattice Results on Θ + Pentaquark

12 Charm 2006, page 12 Status of Lattice Pentaquark Calculation KFL and N. Mathur (hep-lat/0510036) No convincing evidence for the claims of observing pentaquarks on the lattice. No convincing evidence for the claims of observing pentaquarks on the lattice. Absence of evidence is not evidence of absence. Absence of evidence is not evidence of absence. Definite calculation should involve dynamic chiral fermion with light quarks, variational approach, volume test, and removal of ghosts. Definite calculation should involve dynamic chiral fermion with light quarks, variational approach, volume test, and removal of ghosts.

13 Charm 2006, page 13 Tetraquark Mesoniums QCD allows a state with more than three quarks Four quarks : Two quarks + two anti-quarks Like molecular state? Like di-quark anti-diquark state? q1q1 q2q2

14 0 ¯ ¯ (1) 1 ¯ + (1) 0 ++ (0)0 + ¯ (1) 1 + ¯ (1) π (137) 0 + (1/2) ρ (770) σ (600) f 0 (980) f 0 (1370) f 0 (1500) a 0 (980) a 0 (1450) a 1 (1230) K 0 * (1430) J PG (I)) M (MeV) a 2 (1320) 2 + ¯ (1) f 0 (1710) K 0 * (800)

15 Charm 2006, page 15 Is a 0 (1450) (0 ++ ) a two quark state? Is a 0 (1450) (0 ++ ) a two quark state? Ground state : π η ghost state. Ground state : π η ghost state. First excited state : a 0 First excited state : a 0 CorrelationfunctionforScalarchannel

16 Our results shows scalar mass around 1400-1500 MeV, suggesting Our results shows scalar mass around 1400-1500 MeV, suggesting a 0 (1450) is a two quark state. a 0 (1450) is a two quark state. msmsmsms

17 Charm 2006, page 17 What is the nature of σ (600)? σ (500): Johnson and Teller Two-pion exchange potential: Chembto, Durso, Riska; Stony Brook, Paris, … σ enhancement of Δ I = ½ rule

18 The σ in D + → π ¯ π + π + The σ in D + → π ¯ π + π + σ Without a σ pole With a σ pole M σ = 478 ± 24 23 ± 17MeV Γ σ = 324 ± 42 40 ± 21 MeV E.M. Aitala et. al. Phys. Rev. Lett. 86, 770, (2001)

19 M. Ablikim et al. (BES), Phys. Lett. B598, 149 (2004) M σ = 541 ± 39 MeV, Γ σ = 504 ± 84 MeV J/ψ —> ωπ + π -

20 ππ four quark operator (I=0) ππ four quark operator (I=0)

21 Charm 2006, page 21 Scattering Length and energy shift Scattering Length and energy shift ππ energies : ππ energies : Threshold energy shift on the finite lattice :

22 Charm 2006, page 22 Further study is needed to check the volume dependence of the observed states. Scattering states Scattering states (Negative scattering length) length) Scattering states Scattering states Possible BOUND state σ(600)? σ(600)?

23 Charm 2006, page 23 Scattering state and its volume dependence Scattering state and its volume dependence Normalization condition requires : Two point function : Lattice Continuum For one particle bound state spectral weight (W) will NOT be explicitly dependent on lattice volume

24 Charm 2006, page 24 Scattering state and its volume dependence Scattering state and its volume dependence Normalization condition requires : Two point function : Lattice Continuum For two particle scattering state spectral weight (W) WILL be explicitly dependent on lattice volume

25 Volume dependence of spectral weights Volume independence suggests the observed state is an one particle state Volume independence suggests the observed state is an one particle state W0W0W0W0 W1W1W1W1

26 0 ¯ ¯ (1) 1 ¯ + (1) 0 ++ (0)0 + ¯ (1) 1 + ¯ (1) π (137) 0 + (1/2) ρ (770) σ (600) f 0 (980) f 0 (1370) f 0 (1500) a 0 (980) a 0 (1450) a 1 (1230) K 0 * (1430) J PG (I)) M (MeV) a 2 (1320) 2 + ¯ (1) f 0 (1710) K 0 * (800) Kπ Mesonium ππ Mesonium

27 Charm 2006, page 27 Mixing of First order approximation: exact SU(3) x is annihilation diagram

28 Charm 2006, page 28 Mixing of with Glueball First order approximation: exact SU(3)

29 Charm 2006, page 29 Scalar Mesons and Glueball glueball

30 Charm 2006, page 30 Summary No credible evidence of pentaquarks in lattice calculations No credible evidence of pentaquarks in lattice calculations Plenty of tetraquark mesonium candidates Plenty of tetraquark mesonium candidates σ(600) is very likely to be a tetraquark mesonium. σ(600) is very likely to be a tetraquark mesonium. Pattern of light scalar mesons may be repeated in the heavy-light sectors (?) Pattern of light scalar mesons may be repeated in the heavy-light sectors (?)

31 Charm 2006, page 31 Azimuthal anisotropy in Au + Au collisions with = 200 GeV (STAR collaboration)

Download ppt "Charm 2006, page 1 Pentaquark Baryons and Tetraquark Mesoniums from Lattice QCD Hadron Calculation with overlap fermion Pentaquark Baryons and Tetraquark."

Similar presentations

1 Eta production Resonances, meson couplings Humberto Garcilazo, IPN Mexico Dan-Olof Riska, Helsinki … exotic hadronic matter?

1 Eta production Resonances, meson couplings Humberto Garcilazo, IPN Mexico Dan-Olof Riska, Helsinki … exotic hadronic matter?
Lattice study for penta-quark states

Lattice study for penta-quark states
Excited State Spectroscopy from Lattice QCD

Excited State Spectroscopy from Lattice QCD
Diquarks in heavy baryons Atsushi Hosaka (RCNP, Osaka U. ) 9/10-13, 2013Charmed baryons1 Practical questions of hadron physics How ground and excited states.

Diquarks in heavy baryons Atsushi Hosaka (RCNP, Osaka U. ) 9/10-13, 2013Charmed baryons1 Practical questions of hadron physics How ground and excited states.
Sasa PrelovsekScadron70, February 20081 Simulations of light scalar mesons on the lattice and related difficulties Scadron 70, IST Lisbon, Portugal (February.

Sasa PrelovsekScadron70, February Simulations of light scalar mesons on the lattice and related difficulties Scadron 70, IST Lisbon, Portugal (February.
Sasa PrelovsekScadron70, February 20081 Simulations of light scalar mesons on the lattice and related difficulties Scadron 70, IST Lisbon, Portugal (February.

Sasa PrelovsekScadron70, February Simulations of light scalar mesons on the lattice and related difficulties Scadron 70, IST Lisbon, Portugal (February.
Dynamical Anisotropic-Clover Lattice Production for Hadronic Physics C. Morningstar, CMU K. Orginos, College W&M J. Dudek, R. Edwards, B. Joo, D. Richards,

Dynamical Anisotropic-Clover Lattice Production for Hadronic Physics C. Morningstar, CMU K. Orginos, College W&M J. Dudek, R. Edwards, B. Joo, D. Richards,
Denis Parganlija (Frankfurt U.) Meson 2010 Workshop, Kraków - Poland Structure of Scalar Mesons f 0 (600), a 0 (980), f 0 (1370) and a 0 (1450) Denis Parganlija.

Denis Parganlija (Frankfurt U.) Meson 2010 Workshop, Kraków - Poland Structure of Scalar Mesons f 0 (600), a 0 (980), f 0 (1370) and a 0 (1450) Denis Parganlija.
XQCD 2007T.Umeda (Tsukuba)1 Study of constant mode in charmonium correlators in hot QCD Takashi Umeda This talk is based on the Phys. Rev. D75 094502 (2007)

XQCD 2007T.Umeda (Tsukuba)1 Study of constant mode in charmonium correlators in hot QCD Takashi Umeda This talk is based on the Phys. Rev. D (2007)
Lattice 2007T.Umeda (Tsukuba)1 Study of constant mode in charmonium correlators at finite temperature Takashi Umeda Lattice 2007, Regensburg, Germany,

Lattice 2007T.Umeda (Tsukuba)1 Study of constant mode in charmonium correlators at finite temperature Takashi Umeda Lattice 2007, Regensburg, Germany,
Resent BES Results on Scalar Mesons Zhipeng Zheng (Representing BES Collaboration) Institute of High Energy Physics, CAS GHP-2004, Oct. 25.

Resent BES Results on Scalar Mesons Zhipeng Zheng (Representing BES Collaboration) Institute of High Energy Physics, CAS GHP-2004, Oct. 25.
CERN-07 SHLee 1 Heavy Exotic Particle Production from HIC at LHC Su Houng Lee Yonsei Univ., Korea with Shigehiro Yasui, Wei Liu, Che-Ming Ko.

CERN-07 SHLee 1 Heavy Exotic Particle Production from HIC at LHC Su Houng Lee Yonsei Univ., Korea with Shigehiro Yasui, Wei Liu, Che-Ming Ko.
Exotic hadrons with heavy quarks 17-30 May. Shigehiro Yasui KEK.

Exotic hadrons with heavy quarks May. Shigehiro Yasui KEK.
Su Houng Lee 1. Hadrons with one heavy quark 2. Multiquarks with one heavy quark 3. Quarkonium Arguments based on two point function  can be generalized.

Su Houng Lee 1. Hadrons with one heavy quark 2. Multiquarks with one heavy quark 3. Quarkonium Arguments based on two point function  can be generalized.
Sasa PrelovsekLattice 091 Lattice QCD searches for tetraquarks / mesonic molecules (light scalar mesons & XYZ) Excited QCD 2010, Slovakia Sasa Prelovsek.

Sasa PrelovsekLattice 091 Lattice QCD searches for tetraquarks / mesonic molecules (light scalar mesons & XYZ) Excited QCD 2010, Slovakia Sasa Prelovsek.
The role of the tetraquark at nonzero temperature Francesco Giacosa in collaboration with A. Heinz, S. Strüber, D. H. Rischke ITP, Goethe University, Frankfurt.

The role of the tetraquark at nonzero temperature Francesco Giacosa in collaboration with A. Heinz, S. Strüber, D. H. Rischke ITP, Goethe University, Frankfurt.
Scadron70 page 1 Pattern of Light Scalar Mesons a 0 (1450) and K 0 *(1430) on the Lattice Tetraquark Mesonium – Sigma (600) on the Lattice Pattern of Scalar.

Scadron70 page 1 Pattern of Light Scalar Mesons a 0 (1450) and K 0 *(1430) on the Lattice Tetraquark Mesonium – Sigma (600) on the Lattice Pattern of Scalar.
Η c and χ c at finite temperature from QCD Sum Rules C. A. Dominguez and Yingwen Zhang University of Cape Town, South Africa M. Loewe Pontificia Universidad.

Η c and χ c at finite temperature from QCD Sum Rules C. A. Dominguez and Yingwen Zhang University of Cape Town, South Africa M. Loewe Pontificia Universidad.
07/30/2007Lattice 2007 Sigma meson contribution in the  I=1/2 rule Takumi Doi (Univ. of Kentucky) In collaboration with T.Draper (Univ. of Kentucky) K.-F.Liu.

07/30/2007Lattice 2007 Sigma meson contribution in the  I=1/2 rule Takumi Doi (Univ. of Kentucky) In collaboration with T.Draper (Univ. of Kentucky) K.-F.Liu.
Scadron70 page 1 Lattice Calculation: Caveats and Challenges What lattice can and cannot do What lattice can and cannot do Caveats of calculating meson.

Scadron70 page 1 Lattice Calculation: Caveats and Challenges What lattice can and cannot do What lattice can and cannot do Caveats of calculating meson.

Similar presentations

Ads by Google