Abstract
Abstract
In this article, using the principles of Random Matrix Theory (RMT) with Gaussian Unitary Ensemble (GUE), we give a measure of quantum chaos by quantifying Spectral From Factor (SFF) appearing from the computation of two point Out of Time Order Correlation function (OTOC) expressed in terms of square of the commutator bracket of quantum operators which are separated in time scale. We also provide a strict model independent bound on the measure of quantum chaos, −1/N (1 − 1/π) ≤ SFF ≤ 0 and 0 ≤ SFF ≤ 1/πN, valid for thermal systems with large and small number of degrees of freedom respectively. We have studied both the early and late behaviour of SFF to check the validity and applicability of our derived bound. Based on the appropriate physical arguments we give a precise mathematical derivation to establish this alternative strict bound of quantum chaos. Finally, we provide an example of integrability from GUE based RMT from Toda Lattice model to explicitly show the application of our derived bound on SFF to quantify chaos.
Publisher
Springer Science and Business Media LLC
Subject
Nuclear and High Energy Physics
Reference27 articles.
1. T. Guhr, A. Müller-Groeling and H.A. Weidenmuller, Random matrix theories in quantum physics: Common concepts, Phys. Rept.
299 (1998) 189 [cond-mat/9707301] [INSPIRE].
2. J. Maldacena, S.H. Shenker and D. Stanford, A bound on chaos, JHEP
08 (2016) 106 [arXiv:1503.01409] [INSPIRE].
3. E. Brézin and S. Hikami, Spectral form factor in a random matrix theory, Phys. Rev.
E 55 (1997) 4067.
4. S. Kumar and A. Pandey, Universal spectral correlations in orthogonal-unitary and symplectic-unitary crossover ensembles of random matrices, Phys. Rev.
E 79 (2009) 026211.
5. R. Prakash and A. Pandey, Universal spectral correlations in ensembles of random normal matrices, Europhys. Lett.
110 (2015) 30001.
Cited by
9 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献