IPM - Institute for Research in Fundamental Sciences

“School of Particles”

Back to Papers Home
Back to Papers of School of Particles

Paper IPM / Particles / 15994

School of Particles and Accelerator

Title:

$\Omega_{ccc}$ baryon production from gluon in vector diquark fragmentation

Author(s):

1.	Mahdi Delpasand
2.	Seyed Mohammad Moosavi Nejad

Status:

Published

Journal:

Eur. Phys. J. A

Vol.:

Year:

2020

Supported by:

IPM

Abstract:

Hadronization is known as the nonperturbative part of hadron production process which is described by the process-independent fragmentation functions. These functions refer to the probability densities for the initial partons to fragment into observed hadrons carrying away the momentum fractions of parent partons. In this work, using the quark-diquark approximative model we compute the fragmentation density of gluon into polarized triply heavy baryon $\Omega_{ccc}$ in a vector cc-diquark fragmentation. To impose the polarization effect of baryon into the corresponding fragmentation function we shall apply three different scenarios and compare all results.

Download TeX format

“School of Particles”

People

Schools

Centers

Groups

E-Services

Publications