Projection Operator Method for Collective Tunneling Transitions
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概要
- 論文の詳細を見る
Collective tunneling transitions take place in the case that a system has two nearly degenerate ground states with a slight energy splitting, which provides the time scale of the tunneling. The Liouville equation determines the evolution of the density matrix, while the Schrodinger equation determines that of a state. The Liouville equation seems to be more powerful for calculating accurately the energy splitting of two nearly degenerate eigenstates. However, no method to exactly solve the Liouville eigenvalue equation has been established. The usual projection operator method for the Liouville equation is not feasible. We analytically solve the Liouville evolution equation for nuclear collective tunneling from one Hartree minimum to another, proposing a simple and solvable model Hamiltonian for the transition. We derive an analytical expression for the splitting of energy eigenvalues from a spectral function of the Liouville evolution using a half-projected operator method. A full-order analytical expression for the energy splitting is obtained. We define the collective tunneling path of a microscopic Hamiltonian for collective tunneling, projecting the nuclear ground states onto n-particle n-hole state spaces. It is argued that the collective tunneling path sector of a microscopic Hamiltonian can be transformed into the present solvable model Hamiltonian.
- 理論物理学刊行会の論文
- 2002-01-25
著者
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MARUYAMA Masahiro
Department of Geriatrics and Gerontology, Tohoku University Graduate School of Medicine
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HASHIMOTO Yukio
Institute of Physics, University of Tsukuba
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Ohta Hirofumi
Institute Of Physics University Of Tsukuba
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Hashimoto Yukio
Institute Of Physics University Of Tsukuba
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KOHMURA Toshitake
Institute of Physics, University of Tsukuba
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Kohmura Toshitake
Institute Of Physics University Of Tsukuba
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Maruyama Masahiro
Department Of Geriatrics And Gerontology Tohoku University Graduate School Of Medicine
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Maruyama Masahiro
Department Of Physics Tohoku University
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Maruyama Masahiro
Department Of Applied Mathematics Faculty Of Engineering Science Osaka University
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Maruyama Masahiro
Faculty Of Engineering Science Osaka University
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MARUYAMA Masahiro
Department of Physics, Tohoku University
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HASHIMOTO Yukio
Institute for Nuclear Study, University of Tokyo
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HASHIMOTO Yukio
Institute of Physics, University of Tsukaba
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