Subbarrier Fusion Reactions and Many-Particle Quantum Tunneling

Progress of Theoretical Physics Pub Date : 2012-09-28 DOI:10.1143/PTP.128.1061

K. Hagino, N. Takigawa

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引用次数: 190

Abstract

Low-energy heavy-ion fusion reactions are governed by quantum tunneling through the Coulomb barrier formed by the strong cancellation of the repulsive Coulomb force with the attractive nuclear interaction between the colliding nuclei. Extensive experimental as well as theoretical studies have revealed that fusion reactions are strongly influenced by couplings of the relative motion of the colliding nuclei to several nuclear intrinsic motions. Heavy-ion subbarrier fusion reactions thus provide a good opportunity to address the general problem of quantum tunneling in the presence of couplings, which has been a popular subject in recent decades in many branches of physics and chemistry. Here, we review theoretical aspects of heavy-ion subbarrier fusion reactions from the viewpoint of quantum tunneling in systems with many degrees of freedom. Particular emphases are put on the coupled-channels approach to fusion reactions and the barrier distribution representation for multichannel penetrability. We also discuss an application of the barrier distribution method to elucidate the mechanism of the dissociative adsorption of H2 molecules in surface science. Subject Index: 062, 211, 223, 226, 330

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亚势垒聚变反应和多粒子量子隧穿

低能重离子聚变反应是由量子隧穿库仑势垒控制的，库仑势垒是由碰撞核之间的吸引核相互作用与排斥性库仑力的强抵消形成的。大量的实验和理论研究表明，核聚变反应受到碰撞核的相对运动与若干核本征运动耦合的强烈影响。因此，重离子亚势垒聚变反应提供了一个很好的机会来解决在耦合存在下量子隧穿的一般问题，这是近几十年来在物理和化学的许多分支中流行的主题。本文从量子隧穿的角度，综述了多自由度系统中重离子亚势垒聚变反应的理论研究。特别强调了融合反应的耦合通道方法和多通道穿透性的势垒分布表示。本文还讨论了表面科学中屏障分布方法在解释H2分子解离吸附机理中的应用。学科索引:062、211、223、226、330

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来源期刊

Progress of Theoretical Physics 物理-物理：综合

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4-8 weeks