Abstract
In the paper, we consider the extended Gross–Witten–Wadia unitary matrix model by introducing a logarithmic term in the potential. The partition function of the model can be expressed equivalently in terms of the Toeplitz determinant with the [Formula: see text]-entry being the modified Bessel functions of order [Formula: see text], [Formula: see text]. When the degree [Formula: see text] is finite, we show that the Toeplitz determinant is described by the isomonodromy [Formula: see text]-function of the Painlevé III equation. As a double scaling limit, we establish an asymptotic approximation of the logarithmic derivative of the Toeplitz determinant, expressed in terms of the Hastings–McLeod solution of the inhomogeneous Painlevé II equation with parameter [Formula: see text]. The asymptotics of the leading coefficient and recurrence coefficient of the associated orthogonal polynomials are also derived. We obtain the results by applying the Deift–Zhou nonlinear steepest descent method to the Riemann–Hilbert problem for orthogonal polynomials on the Hankel loop. The main concern here is the construction of a local parametrix at the critical point [Formula: see text], where the [Formula: see text]-function of the Jimbo–Miwa Lax pair for the inhomogeneous Painlevé II equation is involved.
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