A. Sagari scite author profile

The properties of the proton has been investigated considering a proton as diquark-quark system. A model for diquark has been suggested in an analogy with the quasiparticle in a crystal lattice. The mass of the diquark obtained in the present model has been found to be in good agreement with other theoretical predictions. The binding energy of proton, compressibility and the excitation energy for the Roper Resonance have been estimated in the context of the proposed model. The results are found to be in agreement with the existing theoretical and experimental findings.The diquark is strongly correlated quark pair. It is now growing idea that the deeply bound diquarks are the building blocks of the mesons, baryon states and the exotics. The prediction of diquark is as old as the quark model and Gellmann has mentioned the possibility of diquark correlation in his original paper [1]. The regularities in the hadron spetroscopy, parton distribution functions, spin dependent structure function of hadrons etc. hints at the existence of diquark correlation [2][3][4][5][6]. At the experimental level it has been observed that the data for deep inelestic structure function for proton can be fitted in the frame work of the quark-diquark model of proton and it is predicted to be mostly in u [ud] state [7]. A number of works have been done towards the understanding of the structure of diquark. The possibility of forming quark-quark and quark-antiquark system by Instanton Induced Interaction (III) have been developed by Shuryak and Schafer et al. [8,9]. Betman et al. [10] have investigated formation of bound state of quark-quark or quark-antiquark systems due to instanton induced interaction and predicted that such bound state is formed inside the hadron as a bubble of the size of the instanton radius. In the context of discussing the exotic states of baryon Oka [11,12] has made a detailed study on the diquark correlation in the context of different models. It has been observed that the diquark picture in the framework of III model

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The heavy-light baryon masses in the quasi-particle approach

Bhattacharya

Chandra

Chakrabarti

et al. 2011

Eur. Phys. J. Plus

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Magnetic Moments of Baryons and Exotics in Quasi Particle Diquark Model

Bhattacharya¹,

Sagari²,

Chakrabarti³

et al. 2009

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The properties of the Θ + and Ξ −− 3/2 exotic baryons have been investigated in the framework of diquark-diquark-antiquark system. A model for diquark suggested in an analogy with the quasi-particle in a crystal lattice has been used. The mass of the exotics have been computed. The Decay width of the Θ + has been estimated to be ≃ 11 MeV using effective diquark theory. The radius of the Ξ −− 3/2 has been extracted as 0.94fm using the experimental value of the. The results obtained are found to be in good agreement with the present experimental and theoretical suggestions. Pacs: 12.39 Ki; 13.30Eg;12.38Lg

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Baryon and Dibaryon Masses in Quasi-Particle Approach

Bhattacharya¹,

Chakrabarti²,

Mani³

et al. 2011

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A. Sagari

Magnetic moments of the proton and of octet baryons in a quasiparticle diquark model

Properties of Proton in Diquark-Quark Model

The heavy-light baryon masses in the quasi-particle approach

Magnetic Moments of Baryons and Exotics in Quasi Particle Diquark Model

Baryon and Dibaryon Masses in Quasi-Particle Approach

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