Hadron spectra from a non-relativistic model with confining harmonic potential

Cuervo‐Reyes, Eduardo; Rigol, Marcos; Rubayo-Soneira, Jesus

doi:10.1590/s1806-11172003000100002

Cited by 10 publications

(13 citation statements)

References 33 publications

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“…These exhibit flavor dependence. Parameters of set A correspond to energy independent potential and are compared with the parameters obtained by Ryes et al [16] for harmonic oscillator plus inverse square potential. Parameters of set B are for energy dependent potential used in present work.…”

Section: Resultsmentioning

confidence: 99%

“…The combination of harmonic oscillator and inverse square potential was first of all adopted by Joshi and Mitra [14] in a theory based on the Schrodinger equation for studying the heavy meson spectroscopy. Later it has been used by Iyer et al [15] and Ryes et al [16] in the study of hadron spectroscopy. In all these studies a better fit was obtained for the potential with a term proportional to 1/r 2 because it has singularity for r  0 that improves the behavior in this region.…”

Section: Introductionmentioning

confidence: 99%

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Study of Heavy Quarkonium with Energy Dependent Potential

Gupta¹,

Mehrotra²

2012

JMP

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Heavy quark systems ( cc and bb ) have been studied in the nonrelativistic framework using energy dependent interquark potential of the form harmonic oscillator with a small linear term as energy dependent as perturbation plus a inverse square potential. This potential admits exact analytical solution of the Schrodinger equation. Mass spectra, leptonic decay width, root mean square radii   2 r , the expectation value of the radius   r and 1 r have been estimated for different quantum mechanical states for cc and bb systems. It is observed that energy dependent term in the potential leads to saturation of the mass spectra and degree of saturation is governed by the magnitude of perturbation. The calculated values of leptonic decay widths for 1s state are in very good agreement with the experimental data both for cc and bb systems.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Study of Heavy Quarkonium with Energy Dependent Potential

Gupta¹,

Mehrotra²

2012

JMP

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“…The mathematical description of a threebody system is more complicated than that of a two-body system. Several methods have been used by different authors to solve three-body problems [11,15]. In order to describe the baryon as a bound state of three constituent quarks, we define the configuration of three particles by the center of mass, , and two Jacobi coordinates and as…”

Section: The Used Modelmentioning

confidence: 99%

“…Some authors have used the Cornell potential (Coulomb-type plus linear term) to study the resonance states of and Δ baryons [8][9][10][11][12][13][14]. The harmonic oscillator potential has been used to study the interaction between three identical particles [15]. In the present work, the digamma-function is used as the interaction potential between constituent quarks of baryon systems.…”

Section: Introductionmentioning

confidence: 99%

Study of Baryon Spectroscopy Using a New Potential Form

Abou-Salem

2014

Advances in High Energy Physics

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In the present work, the nonrelativistic quark model is applied to study baryon systems, where the constituent quarks are bound by a suitable hyper central potential. We proposed a new phenomenological form of the interaction potential, digamma-type potential. Using the Jacobi coordinates, the three-body wave equation is solved numerically to calculate the resonance states of theN, Δ, Λ, andΣbaryon systems. The present model contains only two adjustable parameters in addition to the quark masses. Our theoretical calculations are compared to the available experimental data and Cornell potential results. The description of the spectrum shows that the ground states of the considered light and strange baryon spectra are in general well reproduced.

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“…We report a comparison of incorporating the QCD-motivated improved overlap factor f with the more popular sum of two-body approach, along with those of almost a full use of the realistic Cornell potential and of replacing this by a computationally convenient quadratic potential. A quadratic potential is frequently used [29][30][31][32] in the hadronic physics including the nucleon-nucleon interaction. In the old Isgur-Karl model, still used in ref.…”

Section: Introductionmentioning

confidence: 99%

$$\rho J/\Psi $$ scattering in an improved many-body potential

et al. 2020

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We calculate the cross-sections for the processes ρJ/ψ → D 0D0 , ρJ/ψ → D 0D0 * (D 0 * D0 ) and ρJ/ψ → D 0 * D0 * using a QCD-motivated many-body overlap factor to modify the usual sum of two-body interaction model. The realistic Cornell potential has been used for pairwise interaction in the four quark Hamiltonian and noted to give lesser cross-sections as compared to the quadratic potential. The Resonating group method is employed along with the Born approximation which decouples its integral equations. It is pointed out that the additional QCD effect (a gluonic field ovelap factor) result in a significant suppression in the cross sections as compared to the more popular sum of two-body interaction.PACS numbers:

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Hadron spectra from a non-relativistic model with confining harmonic potential

Cited by 10 publications

References 33 publications

Study of Heavy Quarkonium with Energy Dependent Potential

Study of Heavy Quarkonium with Energy Dependent Potential

Study of Baryon Spectroscopy Using a New Potential Form

$$\rho J/\Psi $$ scattering in an improved many-body potential

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