Kuriyama Atsushi | Faculty Of Engineering Kansai University

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概要

• 同名の論文著者
• Faculty Of Engineering Kansai Universityの論文著者

関連著者

• Kuriyama Atsushi

  Faculty Of Engineering Kansai University

• Yamamura Masatoshi

  Faculty Of Engineering Kansai University

• Yamamura Masatoshi

  Department Of Pure And Applied Physics Faculty Of Engineering Science Kansai University

• YAMAMURA Masatoshi

  Faculty of Engineering ,Kansai University

• Kuriyama A

  Faculty Of Engineering Kansai University

• Providencia Joao

  Departamento De Fisica Universidade De Coimbra

• KURIYAMA Atsushi

  Faculty of Engineering, Kansai University

• YAMAMURA Masatoshi

  Faculty of Engineering, Kansai University

• Tsue Yasuhiko

  Department Of Physics Kyoto University

• PROVIDENCIA Joao

  Deparatmento de Fisica, Universidate de Coimbra

• PROVIDENCIA Joao

  Departmento de Fisica, Universidade de Coimbra

• Constanca Providencia

  Departamento De Fisica Universidade De Coimbra

• KURIYAMA Atushi

  Faculty of Engineering, Kansai University

• Providencia Constanca

  Departamento De Fisica Universidade De Coimbra

• KURIYAMA Atsushi

  Faculty of Engineering, Kansai Universidade

• KURIYAMA Atsushi

  Department of Physics, Kyusyu University

• KURIYAMA Atsushi

  Department of Physics, Kyushu University /Department of Physics, Kyoto University

• KURIYAMA Atushi

  Department of Physics, Kyushu University

• Tsue Yasuhiko

  Physics Division Faculty Of Science Kochi University

• TSUE Yasuhiko

  Departamento de Fisica,Universidade de Coimbra

• PROVIDENCIA Joao

  Departamento de Fisica,Universidade de Coimbra

• PROVIDENCIA Joao

  Departamento de Fisica, Unversidade de Coimbra

• PROVIDENCIA Constanca

  Departament de Fisica, Universidade de Coimbra

• Providencia C

  Departmento De Fisica Universidade De Coimbra

• TSUE Yasuhiko

  Physics Division, Faculty of Science, Kochi University

• YAMAMURA Masatoshi

  Depertment of Physics, Kyoto University

• Da Providencia

  Departamento De Fisica Centro De Fisica Computacional Faculdade De Ciencias E Tecnologia Universidade De Coimbra

• PROVIDENCIA Constanca

  Departmento de Fisica, Universidade de Coimbra

• Providencia C

  Univ. Coimbra Coimbra Prt

• TSUE Yasuhiko

  Department of Physics, Kyoto University

• Iida S

  Kyoto Univ.

• IIDA Shinji

  Department of Physics, Kyoto University

• Iida Shinji

  Department Of Physics Kyoto University

• Iida S

  Institute For Nuclear Study University Of Tokyo

• Kunihiro T

  Yukawa Institute For Theoretical Physics Kyoto University:(present Office)department Of Physics Kyot

• Kunihiro Teiji

  Faculty Of Natural Science Ryukoku University

• Providencia Joao

  Departmento De Fisica Universidade De Coimbra

• Joao Da

  Departamento De Fisica Universidade De Coimbra

• PROVIDENCIA Constanga

  Departamento de Fisica, Universidade de Coimbra

• YAMAMURA Masatoshi

  Department of Pure and Applied Physics, Faculty of Engineering Science, Kansai University

• KUNIHIRO Teiji

  Faculty of Natural Science, Ryukoku University

• FIOLHAIS Calos

  Department de Fisica,Universidade de Coimbra

• TSUE Masahiko

  Physics Division, Faculty of Science, Kochi University

• Tamiya Kyuichiro

  Department Of Physics Kyoto University

• Tsue Masahiko

  Physics Division Faculty Of Science Kochi University

• PROVIDENCIA Joaoda

  Departamento de Fisica, Universidade de Coimbra

• Providencia Joaoda

  Departamento De Fisica Universidade De Coimbra

• da Providencia

  Faculty of Engineering, Kansai University

• PROVIDENCIA Joao

  Departamento de Fisica, Universidade de Coimbra

• PROVIDENCIA Constanca

  Departamento de Fisica, Universidade de Coimbra

• TSUE Yasuhiko

  Department of Material Science, Kochi University

• Azuma Nobuyuki

  Department Of Cardiology St. Marianna University School Of Medicine

• Da Providencia

  Universidade De Coimbra Coimbra Prt

• da PROVIDENCIA

  Departamento de Fisica, Universidade de Coimbra

• Azuma Nobuyuki

  Department Of Aerospace Engineering Nagoya University

• Azuma Nobuyuki

  Department Of Physics Kochi University

• FIOLHAIS Carlos

  Departamento de Fisica, Universidade de Coimbra

• Fiolhais Carlos

  Departamento De Fisica Universidade De Coimbra

• Fiolhais C

  Univ. Coimbra Coimbra

• Tsue Y

  Physics Division Faculty Of Science Kochi University

• AKAIKE Hideaki

  Department of Applied Science, Kochi University

• Akaike Hideaki

  Physics Division Faculty Of Science Kochi University

• PROVIDENCIA Jao

  Department de Fisica,Universidade de Coimbra

• Providencia da

  Departamento de Fisica,Unzversidade de Coimbra

• PROVIDENCIA DA

  Faculty of Engineering, Kansas University

• Yamamura Masatoshi

  Department Of Physics Kyoto University

• PROVIDENCIA Constanca

  Dpartamento de Fisica, Universidade de Coimbra

• PROVIDENCIA Joao

  Dpartamento de Fisica, Universidade de Coimbra

• Fujiwara Yoshikazu

  Department Of Clinical Gene Therapy Osaka University Graduate School Of Medicine

• Da Providencia

  Departamento De Fisica Universidade De Coimbra

• Providencia Jao

  Department De Fisica Universidade De Coimbra

• FUJIWARA Yoshikazu

  School of Physics, University of Minnesota

• FUJIWARA Yoshikazu

  Research Institute for Fandamental Physics, Kyoto University

• Kuriyama Atushi

  Faculty Of Engineering Kansai University

• TSUE Yasuhiro

  Department of Physics, Kochi University

• PROVIDENCIA Constancia

  Departmento de Fisica, Universidade de Coimbra

• PROVIDENCIA joao

  Faculty of Engineering, Kansai University

• YAMAMURA Masatoshi

  Faculty of Engineering,Kansai University

• YAMAMURA Masatoshi

  Department of Physics, Kyoto University : Faculty of Engineering, Kansai University

• Joao da

  Departamento de Fisica, Universidade de Coimbra

• Kuriyuama Atsushi

  Faculty of Engineering, Kansai University

• PROVIDENCIA Joao

  Departament de Fisica, Universidade de Coimbra

• AKAIKE Hideaki

  Physics Division, Faculty of Science, Kochi University

• TSUE Yasuhiko

  Department of Physics, Kochi University

• TSUE Yasuhiko

  Department of Physics,Kochi University

• TSUE Yasuhiko

  Physics Division, Faculty of Science, Koch University

• AZUMA Nobuyuki

  Department of Physics, Kochi University

• FUJIWARA Yoshikazu

  Institute of Theoretical Physics, University of Regensburg : Department of Physics, Kyoto University

• Constanca PROVIDENCIA

  Departamento de Fisica, Universidade de Coimbra

• FIOLHAIS Calos

  Departamento de Fisica, Universidade de Coimbra

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著作論文

• An Orthogonal Set Constituted by Eight Kinds of Boson Operators
• A Note on a Boson Realization in Many-Boson System
• On the Coupling of Two su(1, 1)Spins in the Holstein-Primakoff Type Boson Representation
• On Parametric Resonance in Quantum Many-Body System : Collective Motion and Quantum Fluctuation around It in Coupled Lipkin Model(Nuclear Physics)
• Deformed Boson Scheme Stressing Even-Odd Boson Number Difference. III : Parameter-Dependent Deformation
• Deformed Boson Scheme Stressing Even-Odd Boson Number Difference. II : Unified Forms of Boson-Pair Coherent States in Even- and Odd-Boson Systems(Nuclear Physics)
• On the Random Phase Approximation Based on the Thermo Field Dynamics Formalism : Nuclear Physics
• A Note on Classical Orbits, Collective Submanifold and Quantal Collective Subspace : Progress Letters
• Specification of Collective Submanifold by Adiabatic Time-Dependent Hartree-Fock Method : Coupled Lipkin Model
• Generalized Center of Mass and Relative Motions in Classical Many-Body System : An Example of Solutions of Equations of Collective Submanifold : Nuclear Physics
• Unique Specification of Collective Submanifold : Nuclear Physics
• Quasi-Spin Squeezed State for Lipkin Model : Nuclear Physics
• Time-Dependent Hartree-Fock Method and Its Extension
• Equation of Collective Submanifold for Mixed States : Condensed Matter and Statistical Physics
• A Boson System Interacting with an External Harmonic Oscillator : The su(1,1)-Spin Like Behavior in the su(2)-Spin System : Nuclear Physics
• Three Forms of Coherent States in the su(2)-Spin System and Related Classical Counterparts : Nuclear Physics
• Coherent State Combined with Mixed State for an Imperfect Boson System I : Thermalization of Pure Squeezed Coherent State(Nuclear Physics)
• Imperfect Bose System and Its Mixed State Representation. II : Numerical Analysis with a Short-Range Replusive Force(Nuclear Physics)
• Imperfect Bose System and Its Mixed State Representation. II : Numerical Analysis with a Short-Range Replusive Force
• Deformed Boson Scheme Stressing Even-Odd Boson Number Difference. I : Various Forms of Boson-Pair Coherent State(Nuclear Physics)
• Deformed Boson Scheme Stressing Even-Odd Boson Number Difference. I : Various Forms of Boson-Pair Coherent State
• Note on the Orthogonal Set in Six Kinds of Boson Operators : In Relation to the su(1,1)- and Its Relevant Algebras
• A Possible Form of the Orthogonal Set in Six Kinds of Boson Operators : In Relation to the su(2)- and Its Relevant Algebras
• On the Boson Number Operator in the Deformed Boson Scheme
• The su(1,1)-Algebraic Boson Model in the Deformed Boson Scheme : The Second Holstein-Primakoff Representation as q-Deformed Boson Operator(Nuclear Physics)
• The su (1, 1)-Algebraic Boson Model in the Deformed Boson Scheme : The Second Holstein-Primakoff Representation as q-Deformed Boson Operator
• Note on the Deformed Boson Scheme in Four Kinds of Boson Operators
• Even-Odd Effect on the Thermal Equilibrium State of the Pairing Model. II : Mean Field Approximation and Renormalized Distribution
• Even-Odd Effect on the Thermal Equilibrium State of the Pairing Model. I : Comparison between Canonical and Grand Canonical Ensembles
• Deformed Boson Scheme including Conventional q-Deformation in Time-Dependent Variational Method. IV : The su(2)_q-and the su(1, 1)_q-Algebras in Four Kinds of Boson Operators
• Two Contrastive Boson-Pair Coherent States in Deformed Boson Scheme
• On the Multiboson Coherent State in Deformed Boson Scheme
• Note on the Deformed Boson Scheme in Time-Dependent Variational Method
• Deformed Boson Scheme including Conventional q-Deformation in Time-Dependent Variational Method. III : Deformation of the su(2,1)-Algebra in Terms of Three Kinds of Boson Operators
• Schwinger-Type Boson Realization for the su(4) Algebra : In Relation to the Description of Many-Fermion Systems in Pairing Correlation
• Schwinger-Type Boson Realization for Three Sub-Algebras of the su(4) Algebra : The so(5), the so(4) and the su(2)⊗su(2) Algebra
• Utility of su(1,1)-Algebra in a Schematic Nuclear su(2)-Model
• Deformed Boson Scheme including Conventional q-Deformation in Time-Dependent Variational Method.II : Deformation of the su(2)- and the su(1, 1)-Algebras in the Schwinger Boson Representation
• Deformed Boson Scheme including Conventional q-Deformation in Time-Dependent Variational Method.I : The Case of Many-Body Systems Consisting of One Kind of Boson Operator
• A Possible Boson Realization of Generalized Lipkin Model for Many-Fermion System : The su(M+1)-Algebraic Model in Non-Symmetric Boson Representation
• A Note on Collective Variables Determined by Equations of Collective Submanifold : In Relation to Tomonaga Theory of Collective Motion : Nuclear Physics
• Canonical Formulation of Time-Dependent Hartree-Fock Method : Nuclear Physics
• Generalization of Equation of Collective Submanifold : A Theory of Large Amplitude Collective Motion and Its Coupling with Intrinsic Degrees of Freedom : Nuclear Physics
• Canonical Coordinate System Suitable for Adiabatic Treatment of Collective Motion : General Case : Nuclear Physics
• Minimal Uncertainty in Quantal System Obeying the su(2)-Algebra : Nuclear Physics
• Pairing Model and Mixed State Representation. II : Grand Partition Function and Its Mean Field Approximation
• Pairing Model and Mixed State Representation. I : Thermal Equilibrium State
• Canonical Formulation of Mixed State and Irreducible Representation of u(M) Algebra
• Time-Evolution of the Cohererut and the Squeezed States of Many-Body Systems Based on the Basic Idea of the Boson Mapping and the TDHF Method
• Imperfect Bose System and Its Mixed State Representation. I : Thermal Equilibrium State of Imperfect Bose System
• The Lipkin Model in a New Boson Realization : Basic Idea
• A Possible Description of Many-Body System Composed of Four Kinds of Boson Operators : In Relation to the su(2)- and the su(1,1)-Algebraic Model
• On the Schwinger Boson Representation of an Extended (M+1)(N+1)-Dimensional Algebra Containing the su(M+1)- and the su(N,1)-Algebra
• Canonicity Condition and Its Favourite Form of Collective Hamiltonian
• A Possible Description of Classical Motion in Quantal Systems
• Description of Mixed States Based on the Time-Dependent Hartree-Fock Theory. II : Classical Boson Expansion : Nuclear Physics
• Description of Mixed States Based on the Time-Dependent Hartree-Fock Theory. I : Formalism of Thermo Field Dynamics in Canonical Theory with Constraints : Nuclear Physics
• Equations of Collective Submanifold for Large Amplitude Collective Motion and Its Coupling with Intrinsic Degrees of Freedom. III : Nuclear Physics
• Instability of Thermal Equilibrium State of the Lipkin Model : Nuclear Physics
• On the q-Boson Realization of the su_q(2) and su_q(1,1) Algebras : The Marumori-Yamamura-Tokunaga Method : Nuclear Physics
• A Boson System Interacting with an External Harmonic Oscillator : A Possible Description of Statistically Mixed State
• A Possible Description of Many-Body System Composed of Three Kinds of Boson Operators : The su(2,1)-Boson Model : Neuclear Physics
• Modification of the Conventional Holstein-Primakoff Boson Representation for the su(1,1)-Algebra and Its Classical Counterpart
• Three Forms of Boson Expansions for the su(2)-Spin System and Their c-Number Counterparts : Nuclear Physics
• Thermal Effect in the Lipkin Model. III : Dynamical Fluctuation of Thermal Equilibrium State
• Thermal Effect in Lipkin Model. II : Grand Partition Function and Mean Field Approximation
• Note on Boson Expansion and Boson Coherent State for the su(2)-Spin System
• Thermal Effect in Lipkin Model. I : Thermal Equilibrium State and Phase Transition : Nuclear Physics
• Description of Thermal Effects in su(1, 1)-Algebraic Model Derived from Nuclear su(2) -Model
• On the Hamiltonians Expressed in Terms of su (1, 1)-Generators for Describing Thermal Effects in Nuclear su(2) -Models
• Investigation of the Minimal Uncertainty Appearing in the Quasi-Spin Coherent and the Quasi-Spin Squeezed State of Many-Fermion System : The Case of Many-Nucleon System in Pairing Correlation : Nuclear Physics
• Thermal Effects and Dissipation in su(1, 1)-Algebraic Model by Means of Time-Dependent Variational Approach : Nuclear Physics
• A Possible Classical Description for su(1, 1)-Spin Systems : Nuclear Physics
• On the Coherent and the Squeezed State in the su(2)-Boson Model : Nuclear Physics
• On the Canonical Equivalence of Classical Boson Expansions for Mixed States : Nuclear Physics
• Application of the Canonical Theory of Mixed State to the Description of Bound State of the Nucleus. II : Schematic Model and Physical Ingredients of Constraints : Nuclear Physics
• Description of Mixed States Based on the Time-Dependent Hartree-Fock Theory. III : Random Phase Approximation and Its First Order Corrections : Nuclear Physics
• Application of the Canonical Theory of Mixed State to the Description of Bound States of the Nucleus. I : Reformulation of the Theory of Mixed State : Nuclear Physics
• Two Types of Schrodinger Time Evolution in the Formalism of Thermo Field Dynamics and Their Equivalence to the Liouville-von Neumann Equation
• Schwinger-Type Boson Realization for the su(4) Algebra : In Relation to the Description of Many-Fermion Systems in Pairing Correlation
• Schwinger-Type Boson Realization for Three Sub-Algebras of the su(4) Algebra : The so(5), the so(4) and the su(2) 【cross product】 su(2) Algebra
• A Boson System Interacting with an External Harmonic Oscillator : A Possible Description of Statistically Mixed State
• A Possible Description of Many-Body System Composed of Three Kinds of Boson Operators : The su(2,1)-Boson Model : Neuclear Physics

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