Saved in:
Bibliographic Details
Main Authors: Teranishi, Yoshiaki, Morita, Satoshi, Miyashita, Seiji
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2509.19062
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866911452805201920
author Teranishi, Yoshiaki
Morita, Satoshi
Miyashita, Seiji
author_facet Teranishi, Yoshiaki
Morita, Satoshi
Miyashita, Seiji
contents In the real-time manipulation of quantum states, it is necessary to dynamically control the parameters of the system's Hamiltonian. We have studied the survival probability during the conveyance of a particle by a trapping potential, where the particle may escape from the potential well due to quantum mechanical processes. We investigate how nonadiabatic disturbances arise and identify two main ingredients. One of them is a shock-type disturbance at switching points. To transfer a particle from one place to another, it is necessary to switch on the acceleration and switch it off at the endpoint; this effect is referred to as switch disturbance. We analyze this effect and derive an analytical formula from the perspective of adiabatic theory and find that the factor due to this effect does not depend on the details of the transfer protocols. The other ingredient is adiabatic tunneling during conveyance. During conveyance, the particle is accelerated and decelerated, which induces nonadiabatic processes leading to so-called adiabatic tunneling. Taking these two types of effects into account, we show that the escape mechanisms can be described by a compact formula composed of factors representing these effects. In this paper, we quantitatively examine the survival probabilities in conveyance processes by analyzing the decay of survival probability originating from these effects. We find that the decay behavior under various acceleration protocols is almost perfectly reproduced by a combination of switch disturbance and an integral form of adiabatic tunneling. The rate of adiabatic tunneling is also obtained from an analysis assuming constant acceleration, independent of specific conveyance protocols. Therefore, once the relevant factors are determined, the survival probability for any acceleration protocol can be estimated without performing dynamical simulations for each individual case.
format Preprint
id arxiv_https___arxiv_org_abs_2509_19062
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Survival Probability in Quantum Conveyance: Effects of Adiabatic Tunneling and Acceleration Discontinuity
Teranishi, Yoshiaki
Morita, Satoshi
Miyashita, Seiji
Quantum Physics
In the real-time manipulation of quantum states, it is necessary to dynamically control the parameters of the system's Hamiltonian. We have studied the survival probability during the conveyance of a particle by a trapping potential, where the particle may escape from the potential well due to quantum mechanical processes. We investigate how nonadiabatic disturbances arise and identify two main ingredients. One of them is a shock-type disturbance at switching points. To transfer a particle from one place to another, it is necessary to switch on the acceleration and switch it off at the endpoint; this effect is referred to as switch disturbance. We analyze this effect and derive an analytical formula from the perspective of adiabatic theory and find that the factor due to this effect does not depend on the details of the transfer protocols. The other ingredient is adiabatic tunneling during conveyance. During conveyance, the particle is accelerated and decelerated, which induces nonadiabatic processes leading to so-called adiabatic tunneling. Taking these two types of effects into account, we show that the escape mechanisms can be described by a compact formula composed of factors representing these effects. In this paper, we quantitatively examine the survival probabilities in conveyance processes by analyzing the decay of survival probability originating from these effects. We find that the decay behavior under various acceleration protocols is almost perfectly reproduced by a combination of switch disturbance and an integral form of adiabatic tunneling. The rate of adiabatic tunneling is also obtained from an analysis assuming constant acceleration, independent of specific conveyance protocols. Therefore, once the relevant factors are determined, the survival probability for any acceleration protocol can be estimated without performing dynamical simulations for each individual case.
title Survival Probability in Quantum Conveyance: Effects of Adiabatic Tunneling and Acceleration Discontinuity
topic Quantum Physics
url https://arxiv.org/abs/2509.19062