The Laplace Transform and Quantum Curves
Abstract
A Laplace transform that maps the topological recursion (TR) wavefunction to its x-y swap dual is defined. This transform is then applied to the construction of quantum curves. General results are obtained, including a formula for the quantisation of many spectral curves of the form exP2(ey) - P1(ey) = 0 where P1 and P2 are coprime polynomials; an important class that contains interesting spectral curves related to mirror symmetry and knot theory that have, heretofore, evaded the general TR-based methods previously used to derive quantum curves. Quantum curves known in the literature are reproduced, and new quantum curves are derived. In particular, the quantum curve for the T-equivariant Gromov-Witten theory of P(a,b) is obtained.
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