On the Upper bounds of Hankel Determinant of $q$-Starlike Functions Linked to the Bernoulli Lemniscate

Mallikarjun Shrigan

doi:10.5269/bspm.81781

On the Upper bounds of Hankel Determinant of $q$-Starlike Functions Linked to the Bernoulli Lemniscate

Autores/as

Mallikarjun Shrigan Dept of Mathematics, Dr D Y Patil School of Engineering and Techonology, Pune.

DOI:

https://doi.org/10.5269/bspm.81781

Resumen

Let $\mathcal{SL}_{q}^{*}(\varpi,\varphi)$ denote the subclass of analytic functions defined in the open unit disk $\mathbb{U}=\{t\in\mathbb{C}:|t|<1\}$, normalized by $h(0)=0$ and $h'(0)=1$, which satisfy certain subordination conditions \begin{align*} \frac{t \, D_q \big(\mathcal{R}_{q}^{\varpi}(h(t))\big)}{\mathcal{R}_{q}^{\varpi}(h(t))} \prec {\left( \frac{2(1+t)}{2+(1-q)t}\right)^\frac{1}{2} }, \end{align*} where $\prec$ is the subordination relation. This class serves as a $q$-analogue of starlike functions associated with the parameter $\varpi$. In this paper, we investigate coefficient-related problems for functions in $\mathcal{SL}_{q}^{*}(\varpi,\varphi)$. In particular, we derive sharp bounds for the initial Taylor coefficients, the Fekete--Szeg\"{o} functional, and the second Hankel determinant.