Monte Carlo Solutions of Schrodinger's Equation for H^+_2 Ion in Strong Magnetic Fields
スポンサーリンク
概要
- 論文の詳細を見る
Tlae anal)'tical expressions suitable for the Monte Carlo calculatiorm to obtainthe solution of Schr6dinger's equation of hydrogen molecular ton in a strongmagnetic field are derived. The wave functions, tlce energy values and the equilib-riuuaa internucl<5ar distances of lo. state of Hf are obtained numericallly throughthe Monte Cargo siutaulation and con'tpared with other results based orm the varia-tional ttaethod. The agreement between them is fairly good over a wicle range ofnnagnetic field.The calculation of the energy values of l 27. state of Hf for various i?tternuc]eardistances taking a cotastant magnetic field as a parameter, shows thrtt the anti-bonding Un. state in the absence of the external magnetic field changes to a bond-ing state with an increasiuag magnetic field. The lowest energy values and theequilibrium internuclear distances of l'tr. state are also calculated J'or variousmagutetic field.
- 社団法人日本物理学会の論文
- 1980-10-15
著者
-
Ozaki Jiro
Department Of Orthopaedic Surgery Nara Prefectural Rehabilitation Center
-
TOMISHIMA Yasuo
Department of Physics, Okayama University
-
Tomishima Yasuo
Department Of Physics Faculty Of Science Okayama University
-
Tomishima Yasuo
Department Of Physics Faculty Of Science Okayama
関連論文
- Morphologic changes in long head of biceps brachii in rotator cuff dysfunction
- Extensibility of the supraspinatus muscle with a rotator cuff tear evaluated by magnetic resonance imaging
- Monte Carlo Solutions of Schrodinger's Equation for H^+_2 Ion in Strong Magnetic Fields.II
- Energies of the H^+_2 Ion in Strong Magnetic Fields:Variational Adiabatic Method
- Monte Carlo Solutions of Schrodinger's Equation for H^+_2 Ion in Strong Magnetic Fields
- A Remark on the Monte-Carlo Solution of the Schrodinger Equation for Molecular Systems
- Solution of the Temperature-Dependent Thomas-Fermi-Dirac-Weizsacker Equation with a Correlation Correction
- A Remark on the Kinetic Energy Density Functional for Atoms : Condensed Matter and Statistical Physics
- Neurohistology of the subacromial bursa in rotator cuff tear
- Inhomogeneity Correction to the Thomas-Fermi Atom in a Strong Magnetic Field
- Adiabatic Potentials of H^+_2 Ion in Strong Magnetic Fields
- Periodic Orbits of Henon Heiles Hamiltonian : Bifurcation Phenomenon
- Energies of the σ_u State of the H_2^+ Ion in Strong Magnetic Fields : Condensed Matter and Statistical Physics
- On the Weizsacker Correction to the Thomas-Fermi Theory of the Atom
- Solution with of the Thomas-Fermi-Dirac Equation with a Modified Weizsacker Correction
- Thomas Fermi-Theory for Atoms in a Strong Magnetic Field
- Energy Levels in the Thomas-Fermi-Dirac Atom
- Rotational Lattice Vibration in Complex Crystals Part III. Vibrational Frequencies in Cubic NaClO_4 Crystals
- Calculation of Photoabsorption Cross Section of an Extended Thomas-Fermi Atom
- On the Influence of the Packing on the Atomic Scattering Factor Based on the Thomas-Fermi Theory
- The Thomas-Fermi Theory at Finite Temperature Including Weizsacker and Correlation Corrections:Temperature Green's Function Formalism
- Rotational Lattice Vibration in Complex Crystals Part II. Vibrational Modes in Optical Branches and Interaction with a Conduction Electron
- Rotational Lrttice Vibration in Complex Crystals : Part I. Vicrational Modes and Specific Heat
- Calculation of the Cohesive Energy of Zincblende
- The Inverse Solution of the TFD Equation
- Lattice Defects in Zincblende : Part II. Formation Energy of Lattice Defects
- Lattice Defects in Zincblende : Part I. Phenomenological Expressions of Interionic Potentials
- A Relativistic Thomas-Fermi Theory
- TFD Functions for Non-zero Temperatures and Equations of State Based on Them