Anees Ahmed scite author profile

Anees Ahmed

3Publications

94Citation Statements Received

354Citation Statements Given

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Malaviya National Institute of Technology Jaipur, University of Connecticut

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Transmutation of a trans-series: the Gross-Witten-Wadia phase transition

Ahmed¹,

Dunne²

2017

J. High Energ. Phys.

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Abstract:We study the change in the resurgent asymptotic properties of a trans-series in two parameters, a coupling g 2 and a gauge index N , as a system passes through a large N phase transition, using the universal example of the Gross-Witten-Wadia thirdorder phase transition in the unitary matrix model. This transition is well-studied in the immediate vicinity of the transition point, where it is characterized by a double-scaling limit Painlevé II equation, and also away from the transition point using the pre-string difference equation. Here we present a complementary analysis of the transition at all coupling and all finite N , in terms of a differential equation, using the explicit TracyWidom mapping of the Gross-Witten-Wadia partition function to a solution of a Painlevé III equation. This mapping provides a simple method to generate trans-series expansions in all parameter regimes, and to study their transmutation as the parameters are varied. For example, at any finite N the weak coupling expansion is divergent, with a non-perturbative trans-series completion; on the other hand, the strong coupling expansion is convergent, and yet there is still a non-perturbative trans-series completion. We show how the different instanton terms 'condense' at the transition point to match with the double-scaling limit trans-series. We also define a uniform large N strong-coupling expansion (a non-linear analogue of uniform WKB), which is much more precise than the conventional large N expansion through the transition region, and apply it to the evaluation of Wilson loops.

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Non-perturbative large N trans-series for the Gross–Witten–Wadia beta function

Ahmed

Dunne

2018

Physics Letters B

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Nonclassical nature of thermal quantum states in the oscillating FRW Universe

et al. 2021

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Anees Ahmed

Transmutation of a trans-series: the Gross-Witten-Wadia phase transition

Non-perturbative large N trans-series for the Gross–Witten–Wadia beta function

Nonclassical nature of thermal quantum states in the oscillating FRW Universe

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