Related papers: Reality from maximizing overlap in the periodic complex action theory

Reality from maximizing overlap in the periodic complex action theory

URL: http://arxiv.org/abs/2203.07795v2
Date: Sun, 14 Aug 2022 19:10:17 GMT
Title: Reality from maximizing overlap in the periodic complex action theory
Authors: Keiichi Nagao, Holger Bech Nielsen
Abstract summary: We present two theorems stating that $langle hatmathcal O rangle_mathrmperiodicmathrmtime$ becomes real for $hatmathcal O$ being Hermitian. The latter proven via a number-theoretical argument suggests that, if our universe is periodic, then even the period could be determined in such an operator.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: We study the periodic complex action theory (CAT) by imposing a periodic condition in the future-included CAT where the time integration is performed from the past to the future, and extend a normalized matrix element of an operator $\hat{\mathcal O}$, which is called the weak value in the real action theory, to another expression $\langle \hat{\mathcal O} \rangle_{\mathrm{periodic}~\mathrm{time}}$. We present two theorems stating that $\langle \hat{\mathcal O} \rangle_{\mathrm{periodic}~\mathrm{time}}$ becomes real for $\hat{\mathcal O}$ being Hermitian with regard to a modified inner product that makes a given non-normal Hamiltonian $\hat{H}$ normal. The first theorem holds for a given period $t_p$ in a case where the number of eigenstates having the maximal imaginary part $B$ of the eigenvalues of $\hat{H}$ is just one, while the second one stands for $t_p$ selected such that the absolute value of the transition amplitude is maximized in a case where $B \leq 0$ and $|B|$ is much smaller than the distances between any two real parts of the eigenvalues of $\hat{H}$. The latter proven via a number-theoretical argument suggests that, if our universe is periodic, then even the period could be an adjustment parameter to be determined in the Feynman path integral. This is a variant type of the maximization principle that we previously proposed.

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