We consider the determinantal point processes associated with the spectral projectors of a Schrödinger operator on (Formula presented.), with a smooth confining potential. In the semiclassical limit, where the number of particles tends to infinity, we obtain a Szegő-type central limit theorem for the fluctuations of smooth linear statistics. More precisely, the Laplace transform of any statistic converges without renormalisation to a Gaussian limit with a (Formula presented.) -type variance, which depends on the potential. In the one-well (one-cut) case, using the quantum action-angle theorem and additional micro-local tools, we reduce the problem to the asymptotics of Fredholm determinants of certain approximately Toeplitz operators. In the multi-cut case, we show that for generic potentials, a similar result holds and the contributions of the different wells are independent in the limit.
Central limit theorem for smooth statistics of one-dimensional free fermions / Deleporte, A., Lambert, G.. - In: JOURNAL OF THE LONDON MATHEMATICAL SOCIETY. - ISSN 0024-6107. - 111:1(2025). [10.1112/jlms.70045]
Central limit theorem for smooth statistics of one-dimensional free fermions
Lambert G.
2025-01-01
Abstract
We consider the determinantal point processes associated with the spectral projectors of a Schrödinger operator on (Formula presented.), with a smooth confining potential. In the semiclassical limit, where the number of particles tends to infinity, we obtain a Szegő-type central limit theorem for the fluctuations of smooth linear statistics. More precisely, the Laplace transform of any statistic converges without renormalisation to a Gaussian limit with a (Formula presented.) -type variance, which depends on the potential. In the one-well (one-cut) case, using the quantum action-angle theorem and additional micro-local tools, we reduce the problem to the asymptotics of Fredholm determinants of certain approximately Toeplitz operators. In the multi-cut case, we show that for generic potentials, a similar result holds and the contributions of the different wells are independent in the limit.| File | Dimensione | Formato | |
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