English

Repeated quantum backflow and overflow

Quantum Physics 2025-11-13 v2 Mathematical Physics math.MP

Abstract

Quantum backflow is a surprising phenomenon in which a quantum particle, moving in one dimension and with a state of rightwards momentum, can exhibit a net probability transfer to the left-hand half-line over a finite time interval. We generalise the setting of quantum backflow to allow for MM disjoint time intervals, considering the sum of probability differences for each interval. In classical statistical particle mechanics, the total backflow lies in the interval [1,0][-1,0] for all MM, indicating rightwards probability transfer. By contrast, we show that, in quantum mechanics, the maximum MM-fold backflow is positive and unbounded from above as MM increases, demonstrating that there are states that exhibit repeated periods of backflow. Moreover, for M2M\ge 2, we discover a new phenomenon; namely, that there are states whose total backflow is below 1-1, giving a probability transfer to the right-hand half-line beyond that possible in classical statistical particle mechanics. We call this effect "quantum overflow". The maximum extent of the backflow and overflow effects is described by a hierarchy of backflow and overflow functions and constants, where the MM'th backflow (overflow) constant is the supremum (infimum) of the MM'th backflow (overflow) function. The M=1M=1 backflow constant was first identified by Bracken and Melloy. Our results are obtained by formulating the MM-fold backflow problem in terms of the spectra of suitable bounded operators. Using this formulation, we also study limiting cases of the backflow and overflow functions, including cases in which two disjoint intervals merge. Our analytical results are supported by detailed numerical investigations. Among other things, by applying numerical acceleration methods, we obtain a new estimate of the Bracken-Melloy constant of 0.03845060.0384506 which is slightly lower than the previously accepted value of 0.0384520.038452.

Keywords

Cite

@article{arxiv.2505.13184,
  title  = {Repeated quantum backflow and overflow},
  author = {Christopher J. Fewster and Harkan J. Kirk-Karakaya},
  journal= {arXiv preprint arXiv:2505.13184},
  year   = {2025}
}

Comments

Version 2 to appear in Proceedings of the Royal Society A. Substantially reorganised with added physical discussion and figures. 29pp+20pp of supplementary material. 49pp, 27 figures

R2 v1 2026-07-01T02:22:02.753Z