Random Partitions and the Quantum Benjamin-Ono Hierarchy
Abstract
We derive exact and asymptotic results for random partitions from general results in the semi-classical analysis of coherent states applied to the classical periodic Benjamin-Ono equation at critical regularity . We find classical and quantum conserved densities for this system with dispersion coefficient extending Nazarov-Sklyanin (2013). For quantum stationary states, this conserved density is the Rayleigh measure of the profile of a partition of anisotropy for , invariant under . As Jack polynomials are the quantum stationary states and Stanley's Cauchy kernel (1989) is the reproducing kernel, the random values of the quantum periodic Benjamin-Ono hierarchy in a coherent state are a "Jack measure" on partitions, a dispersive generalization of Okounkov's Schur measures (1999). By our general results for coherent states, we have concentration on a limit shape as , the classical conserved density at , and quantum fluctuations are an explicit Gaussian field. Our results follow from an enumerative asymptotic expansion in and of joint cumulants over new combinatorial objects we call "ribbon paths". Our results reflect the fact that at fixed the weight defining Fock space is already a fractional Brownian motion of variance and Hurst index
Cite
@article{arxiv.1508.03063,
title = {Random Partitions and the Quantum Benjamin-Ono Hierarchy},
author = {Alexander Moll},
journal= {arXiv preprint arXiv:1508.03063},
year = {2017}
}
Comments
version 3: (i) identified meaning of results as semi-classical and dispersionless limits (ii) concentration of measure and Gaussian fluctuations generalized to coherent states in Hermitian affine spaces without assuming integrability (iii) clarified exposition of auxiliary spectral theory of Lax operators version 2: modified introduction, references added, estimates improved