Inverse Logarithmic Coefficients, Differences, Hankel Determinant, and Fekete--Szegö Functionals for the Class Ce

Abstract

In this paper, we investigate the inverse logarithmic coefficients associated with the class Ce of analytic and univalent functions satisfying the subordination condition \[ 1+z f''(z)f'(z) ez, z∈D. \] If Ff-1(w) = \!(f-1(w)w) = 2Σn=1∞Γn wn denotes the logarithmic expansion corresponding to the inverse function f-1, then we establish sharp estimates for the initial inverse logarithmic coefficients and prove that \[ |Γn| 12n(n+1), n=1,2,3. \] We further derive the sharp coefficient-difference inequality \[ -127 |Γ2|-|Γ1| 112, \] and obtain the sharp bound for the second-order Hankel determinant associated with the inverse logarithmic coefficients: \[ | H2,1\!(Ff-1/2) | 8512096. \] Additionally, we evaluate the sharp lower and upper bounds of the generalized Fekete--Szegö functional Fλ, μ(f) = | a3(f) - λa2(f)2 | - μ|a2(f)| within this setting and establish relationships associated with the starlike class Sρ. The extremal functions corresponding to all obtained estimates are explicitly constructed, thereby showing the sharpness of the results.