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Title: Mesonic eightfold way from dynamics and confinement in strongly coupled lattice quantum chromodynamics

Journal Article · · Journal of Mathematical Physics
DOI:https://doi.org/10.1063/1.2903751· OSTI ID:21100337
 [1]; ;  [2]
  1. Campus Alto Paraopeba, UFSJ, CP 131, 36.420-000 Ouro Branco MG (Brazil)
  2. Departamento de Matematica Aplicada e Estatistica, ICMC-USP, CP 668, 13560-970 Sao Carlos SP (Brazil)
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We show the existence of all the 36 eightfold way mesons and determine their masses and dispersion curves exactly, from dynamical first principles such as directly from the quark-fluon dynamics. We also give a proof of confinement below the two-meson energy threshold. For this purpose, we consider an imaginary time functional integral representation of a 3+1 dimensional lattice QCD model with Wilson action, SU(3){sub f} global and SU(3){sub c} local symmetries. We work in the strong coupling regime, such that the hopping parameter {kappa}>0 is small and much larger than the plaquette coupling {beta}>1/g{sub 0}{sup 2}{>=}0 ({beta}<<{kappa}<<1). In the quantum mechanical physical Hilbert space H, a Feynman-Kac type representation for the two-meson correlation and its spectral representation are used to establish an exact rigorous connection between the complex momentum singularities of the two-meson truncated correlation and the energy-momentum spectrum of the model. The total spin operator J and its z-component J{sub z} are defined by using {pi}/2 rotations about the spatial coordinate axes, and agree with the infinitesimal generators of the continuum for improper zero-momentum meson states. The mesons admit a labelling in terms of the quantum numbers of total isospin I, the third component I{sub 3} of total isospin, the z-component J{sub z} of total spin and quadratic Casimir C{sub 2} for SU(3){sub f}. With this labelling, the mesons can be organized into two sets of states, distinguished by the total spin J. These two sets are identified with the SU(3){sub f} nonet of pseudo-scalar mesons (J=0) and the three nonets of vector mesons (J=1,J{sub z}={+-}1,0). Within each nonet a further decomposition can be made using C{sub 2} to obtain the singlet state (C{sub 2}=0) and the eight members of the octet (C{sub 2}=3). By casting the problem of determination of the meson masses and dispersion curves into the framework of the the anaytic implicit function theorem, all the masses m({kappa},{beta}) are found exactly and are given by convergent expansions in the parameters {kappa} and {beta}. The masses are all of the form m({kappa},{beta}=0){identical_to}m({kappa})=-2ln {kappa}-3{kappa}{sup 2}/2+{kappa}{sup 4}r({kappa}) with r(0){ne}0 and r({kappa}) real analytic; for {beta}>0,m({kappa},{beta})+2ln {kappa} is jointly analytic in {kappa} and {beta}. The masses of the vector mesons are independent of J{sub z} and are all equal within each octet. All isospin singlet masses are also equal for the vector mesons. For each nonet and {beta}=0, up to and including O({kappa}{sup 4}), the masses of the octet and the singlet are found to be equal. But there is a pseudoscalar-vector meson mass splitting given by 2{kappa}{sup 4}+O({kappa}{sup 6}) and the splitting persists for {beta}>0. For {beta}=0, the dispersion curves are all of the form w(p-vector)=-2 ln {kappa}-3{kappa}{sup 2}/2+((1/4)){kappa}{sup 2}{sigma}{sub j=1}{sup 3}2(1-cos p{sup j})+{kappa}{sup 4}r({kappa},p-vector), with |r({kappa},p-vector)|{<=}const. For the pseudoscalar mesons, r({kappa},p-vector) is jointly analytic in {kappa} and p{sup j}, for |{kappa}| and |Im p{sup j}| small. We use some machinery from constructive field theory, such as the decoupling of hyperplane method, in order to reveal the gauge-invariant eightfold way meson states and a correlation subtraction method to extend our spectral results to all H{sub e}, the subspace of H generated by vectors with an even number of Grassmann variables, up to near the two-meson energy threshold of {approx_equal}-4 ln {kappa}. Combining this result with a previously similar result for the baryon sector of the eightfold way, we show that the only spectrum in all H{sub {identical_to}}H{sub e}+H{sub o} (H{sub o} being the odd subspace) below {approx_equal}-4 ln {kappa} is given by the eightfold way mesons and baryons. Hence, we prove confinement up to near this energy threshold.

OSTI ID:
21100337
Journal Information:
Journal of Mathematical Physics, Vol. 49, Issue 7; Other Information: DOI: 10.1063/1.2903751; (c) 2008 American Institute of Physics; Country of input: International Atomic Energy Agency (IAEA); ISSN 0022-2488
Country of Publication:
United States
Language:
English

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Related Subjects

72 PHYSICS OF ELEMENTARY PARTICLES AND FIELDS
BARYONS
FLAVOR MODEL
FOUR-DIMENSIONAL CALCULATIONS
GAUGE INVARIANCE
HILBERT SPACE
ISOSPIN
LATTICE FIELD THEORY
MASS
MASS FORMULAE
OCTET MODEL
PSEUDOSCALAR MESONS
QUANTUM CHROMODYNAMICS
QUANTUM MECHANICS
QUANTUM NUMBERS
QUARKS
RESONANCE PARTICLES
SINGULARITY
STRONG-COUPLING MODEL
SU-3 GROUPS
VECTOR MESONS