Charmonium spectrum with a Dirac potential model in the momentum space

Molina, David; Sanctis, M. De; Fernández-Ramírez, C.

doi:10.1103/physrevd.95.094021

Cited by 19 publications

(33 citation statements)

References 284 publications

(454 reference statements)

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“…The ψ(4040) and ψ(4160) are widely accepted as the ψ(3S) state [67][68][69][70] and ψ(2D) state [67][68][69], respectively. In Ref.…”

Section: Numerical Resultsmentioning

confidence: 99%

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Effects of heavy meson loops on higher charmonia radiative transitions

Qin

et al. 2019

Eur. Phys. J. C

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Radiative transitions between charmonium states offer an insight into the internal structure of heavy quark bound states within QCD. In this work, we performed a systematically investigation of the radiative transitions of $$\psi (nS) \rightarrow \gamma \chi _{cJ}(mP)$$ψ(nS)→γχcJ(mP) and $$\psi (nD) \rightarrow \gamma \chi _{cJ}(mP)$$ψ(nD)→γχcJ(mP) via intermediate charmed meson loop with a non-relativistic effective field theory. We only focus on the line-shape behavior of the distributions via different intermediate meson loops. Our results show that the coupled-channel effects of these decays are relatively weak, while the coupled channel effects has obvious enhancement when the inial (final) states are closed to the thresholds of charmed-mesons pair.

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“…The ψ(4040) and ψ(4160) are widely accepted as the ψ(3S) state [67][68][69][70] and ψ(2D) state [67][68][69], respectively. In Ref.…”

Section: Numerical Resultsmentioning

confidence: 99%

“…[69], the author argue that the ψ(4260) state can be assigned as 4S charmonium state under the Dirac potential model. The ψ(4360) state was explained as a 3D state from a quark potential model calculation [71], while the ψ(4360) was explained to be the 4S state [69]. In Refs.…”

Section: Numerical Resultsmentioning

confidence: 99%

Effects of heavy meson loops on higher charmonia radiative transitions

Qin

et al. 2019

Eur. Phys. J. C

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“…It is necessary to recall that the spectroscopy of hadronic systems (baryons and mesons) has been also successfully studied by means of various forms of Quark Models (QMs), partially related to QCD, that can be grouped in the following categories: Bag Models (BMs), see for example references [7][8][9][10][11]; Constituent Quark Models (CQMs), see for example, for charmonium and so-called higher quarkonia, referenes [12][13][14][15][16][17][18][19][20][21][22][23][24][25][26][27][28][29][30][31]; for baryons, see for example references [32][33][34][35][36][37][38][39][40][41][42][43][44][45][46]; Quark Diquark Models (QDMs), see for example references [47][48][49][50][51][52][53]…”

Section: The Chromo-electric Field Energy In the Context Of Hadronic mentioning

confidence: 99%

“…Also in this case, a variety of different theoretical interpretations has been proposed, including (as in the pentaquark case discussed above) kinematical effects related to rescattering. A careful discussion of this phenomenology is given in Molina et al [31], where the mass of these resonances is compared to the results of a fully relativistic Dirac quark model in which the theoretical uncertainties of the predicted masses are also taken into account.…”

Section: The Chromo-electric Field Energy In the Context Of Hadronic mentioning

confidence: 99%

“…Recalling that the interaction potential, W(r) = W qq (r) of Equation 26, only depends on the parameters α s and d, the condition E 0 = M cc allows to determine, for a given α s , the corresponding value of d. In the present CQM approch, α s represents a purely phenomenological parameter. For a rough orientation about some possible numerical values, see, for example, references [19,24,31]. Here we explore tentatively the interval 0.2 ≤ α s ≤ 1.0 and find the value of the parameter d (of the selected color charge distribution) that gives the fixed value of M cc .…”

Section: Charmonium Ground Statementioning

confidence: 99%

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Chromo-Electric Field Energy in Quark Models

Sanctis

2019

Front. Phys.

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We study the contribution of the chromo-electric field to the total energy of the hadrons. We analyze the case of quarks considered as extended sources of the field. Specific forms of the interaction potential of the quarks are obtained. Moreover, the color charge distribution of these sources allows to determine the zero-point energy that is commonly introduced, as a free (independent) parameter, in the total quark model Hamiltonian of the hadronic systems. The ground states of charmonium (qq) and nucleon (qqq) are studied in more detail: their mass is calculated within a relativized dynamical model and the expectation value of the chromo-electric field energy is consistently obtained.

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