Observational constraints on Gong-Zhang parametrizations in $f(Q)$ gravity

The expansion dynamics of the universe in $f(Q)$ gravity is examined with the Gong-Zhang kind of dark energy equation of state parameter. By considering the $f(Q)$ gravity form $f(Q)=Q+ \alpha Q^{n}$, we obtain the Hubble parameters in terms of redshift $z$. Using Bayesian statistical methods based on the $\chi^{2}$ minimization methodology, we constrain the model parameters by using the supernovae Pantheon sample with cosmic chronometer sample. The evolution of equation of state parameter, energy density, pressure with the statefinder diagnostic are thoroughly investigated to examine the universe evolution in model. We have also obtained the universe's current age for these models. The considered models may exhibit either the quintom evolution or the future decelerating universe evolution.