Tunneling Probability of Quantum Wavepacket in Time-Dependent Potential Well

Q1 Arts and Humanities Quanta Pub Date : 2024-05-03 DOI:10.12743/quanta.v13i1.246
Aarouj Ahmed
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Abstract

Quantum tunneling of particles plays an important role in many chemical reactions. Studying quantum tunneling in time-dependent potential wells is tricky since most of the available solutions of time-dependent potential wells are coupled to specific properties of the Hamiltonian. Here, we investigate the tunneling probability of a quantum wavepacket in time-dependent potential well by using the split operator method. This numerical method can give us an overview of the tunneling probability of a quantum wavepacket for any temporal change in the shape of the potential well. We study a time-dependent potential well model evolving from symmetric to asymmetric quartic double well since quartic potential wells resemble certain practically available potential well models.Quanta 2024; 13: 11–19.
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量子波包在随时间变化的势阱中的隧道概率
粒子的量子隧道效应在许多化学反应中发挥着重要作用。研究随时间变化的势阱中的量子隧穿非常棘手,因为大多数随时间变化的势阱的可用解都与哈密顿的特定属性相关。在此,我们采用分裂算子法研究量子波包在时变势阱中的隧穿概率。这种数值方法可以为我们提供量子波包在势阱形状发生任何时间变化时的隧穿概率概览。我们研究了一个从对称到非对称四元双阱演化的随时间变化的势阱模型,因为四元势阱类似于某些实际可用的势阱模型。
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来源期刊
Quanta
Quanta Arts and Humanities-History and Philosophy of Science
CiteScore
1.30
自引率
0.00%
发文量
5
审稿时长
12 weeks
期刊介绍: Quanta is an open access academic journal publishing original research and review articles on foundations of quantum mechanics, mathematical physics and philosophy of science.
期刊最新文献
Tunneling Probability of Quantum Wavepacket in Time-Dependent Potential Well The Enigmas of Fluctuations of the Universal Quantum Fields On Weak Values and Feynman's Blind Alley Quantum Mechanics with Real Numbers: Entanglement, Superselection Rules and Gauges Shor's Factoring Algorithm and Modular Exponentiation Operators
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