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1.

図書

図書
edited by Yue Zhao, Tomiki Ikeda
出版情報: Hoboken, N.J. : Wiley, c2009  xviii, 514 p. ; [8] p. of plates ; 25 cm
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Preface
Contributors
Azobenzene Polymers for Photonic Applications / Kevin G. Yager ; Christopher J. Barrett1:
Introduction to Azobenzene / 1.1:
Azobenzene Chromophores / 1.1.1:
Azobenzene Photochemistry / 1.1.2:
Classes of Azobenzene Systems / 1.1.3:
PhotoiDduced Motions and Modulations / 1.2:
Molecular Motion / 1.2.1:
Phot obi ological Experiments / 1.2.2:
Photoorientation / 1.2.3:
Domain Motion / 1.2.4:
Macroscopic Motion / 1.2.5:
Other Applications of Azobenzenes / 1.2.6:
Acknowledgment
References
Photo-Induced Phenomena In Supramolecular Azobenzene Materials / Joachim Stumpe ; Olga Kulikovska ; Leonid M. Goldenberg ; Yuriy Zakrevskyy2:
Introduction / 2.1:
Surface Relief Gratings / 2.2:
Conclusion and Outlook / 2.4:
Photodeformable Materials And Photomechanical Effects Based On Azobenzene-Containing Polymers and Liquid Crystals / Yanlei Yu ; Tomiki Ikeda3:
Photodeformable Materials Based on Azobenzene-Containing Polymer Gels / 3.1:
Photodeformable Materials Based on Azobenzene-Containing Solid Films / 3.3:
Photodeformable Materials Based on Azobenzene-Containing LCs / 3.4:
LCs and LCEs / 3.4.1:
General Methods of Preparation of LCEs / 3.4.2:
Temperature-/Electricity-/pH-Responsive LCEs / 3.4.3:
Photoresponsive Behavior of Chromophore-Containmg LCs / 3.4.4:
Light-Responsive LCEs / 3.4.5:
Summary and Outlook / 3.5:
Amorphous Azobenzene Polymers For Light-Induced Surface Patterning / 4:
Surface Mass Transport / 4.1:
Experimental Observations / 4.1.1:
Patterning / 4.1.2:
Dependence on Material Properties / 4.1.3:
Photosoftening / 4.1.4:
Photomechanical Effects / 4.1.5:
Measuring Gratings / 4.1.6:
Dynamics / 4.1.7:
Mechanism / 4.2:
Thermal Considerations / 4.2.1:
Asymmetric Diffusion / 4.2.2:
Mean-Field Theory / 4.2.3:
Permittivity Gradient Theory / 4.2.4:
Gradient Electric Force / 4.2.5:
Isomerization Pressure / 4.2.6:
Applications of Surface Mass Transport / 4.2.7:
Conclusions / 4.3:
Azo Polymer Colloidal Spheres: Formation, Two-Dimensional Array, and Photoresponsive Properties / Xiaogong Wang5:
Azo Polymer Synthesis / 5.1:
Self-Assembly of Polydispersed Amphiphilic Azo Polymers in Solutions / 5.3:
Characteristics of Polydispersed Azo Polymer Self-Assembly / 5.3.1:
Colloidal Sphere Formation and Characterization / 5.3.2:
Colloidal Sphere Formation Mechanism / 5.3.3:
Hybrid Colloids Composed of Two Types of Amphiphilic Azo Polymers / 5.3.4:
Photoresponsive Properties of Azo Polymer Colloidal Spheres / 5.4:
Photoresponsive Porperties of Hybrid Colloids / 5.4.1:
Photoresponsive 2-D Colloidal Array and Its in situ Structure Inversion / 5.5:
Colloidal Array and Photoinduced Dichroism / 5.5.1:
Porous Structure from in situ Colloidal Array Structure Inversion / 5.5.2:
Closing Remarks / 5.6:
Azobenzene-Containing Block Copolymer Micelles: Toward Light-Controllable Nanocarriers / Yue Zhao6:
What is the Use of Light-Controllable Polymer Micelles? / 6.1:
How to Design Azobenzene Block Copolymers for Light-Controllable Micelles? / 6.2:
Synthesis of Azobenzene-Containing Amphophilic Block Copolymers / 6.3:
Reversible Dissociation and Formation of Azobenzene Block Copolymer Micelles / 6.4:
Factors Influencing the Reversible Dissociation and Formation Processes / 6.5:
Effect of Solution Stirring / 6.5.1:
Effect of Irradiation Light Intensity / 6.5.2:
Effects of Solvent and Block Copolymer Composition / 6.5.3:
Other Light-Responsive Azobenzene-Based Polymer Micelles / 6.6:
Perspectives and Future Work / 6.7:
Acknowledgments
Association Between Azobenzene-Modified Polymers And Surfactants Or Nanoparticles To Amplify Macroscopic Phototransitions In Solution / Christophe Tribet7:
Light Responsiveness of Solution Properties: A Question of Amplification / 7.1:
From Cloud Point to Associative Phase Separation of Photopolymers / 7.2:
Polymers in Poor Solvents or at Low Critical Solubility Temperature / 7.2.1:
Complexation and Solubility of Chains / 7.2.2:
Associative Phase Separation / 7.2.3:
Intrachain Association with Colloid Particles: Photorecognition / 7.3:
Complexes with Protein and Micelles in the Dilute Regime / 7.3.1:
Sol-Gel Transition in Semidilute Conditions / 7.3.2:
Complexes on Disperse Interfaces: Photoreversible Emulsions / 7.4:
Conclusion / 7.5:
Light-Responsive / Takahiro Seki8:
Alignment of Functional Materials by Command Surface / 8.1:
Photoalignment of Polymer Main Chain of Polysilane / 8.2.1:
Surfactant-Silica Nanohybrids / 8.2.2:
Photoalignment of Chromonic LC-Silica Nanohybrid / 8.2.3:
Surface-Grafted Az-Containing LC Polymer / 8.3:
Photogenerated Mass Migrations / 8.4:
Conventional Type / 8.4.1:
Phase Transition Type / 8.4.2:
On the Migration Features of the PT Type / 8.4.3:
Extended Studies in the PT-Type Mass Migration / 8.4.4:
Photoresponsive LC Block Copolymer Systems / 8.5:
Monolayer Systems / 8.5.1:
Photocontrolled Macroscopic Alignment of MPS Structures / 8.5.2:
Micropatterning of MPS Structure in the Hierarchical Structure / 8.5.3:
Conclusion and Scope / 8.6:
Photoinduced Immobilization Of Molecules On The Surface Of Azobenzene Polymers: Principles and Application / Osamu Watanabe9:
Background Study: Nanofabrication / 9.1:
Principles of Photoinduced Immobilization / 9.3:
Application for Immunochips / 9.4:
Immobilization Depending on the Azobenzene Moiety / 9.5:
Two-Dimensional Arrangement and Area-Selective Immobilization of Microspheres / 9.6:
Summary / 9.7:
Phototuning Of Helical Structure Of Cholesteric Liquid Crystals / Seiji Kurihara10:
Properties and Design of Chiral Azobenzenes / 10.1:
Effect of Spacer Length / 10.2.1:
Effects of Molecular Shape / 10.2.2:
Effects of Chiral Groups on Photochemical Change in HTP / 10.2.3:
Applications / 10.3:
Photochemical Switching of Selective Reflection / 10.3.1:
Control of Transparency / 10.3.2:
Photochemical Inversion of Helix / 10.3.3:
Photochemical Control of Lasing / 10.3.4:
Tunable Diffraction Gratings Based On Azobenzene Polymers and Liquid Crystals / 10.4:
Diffraction Gratings Can Easily Be Recorded on Azobenzene-Containing Polymers and Liquid Crystals / 11.1:
What are Tunable Diffraction Gratings? / 11.2:
Mechanically Tunable Diffraction Gratings / 11.3:
Preparation of Azobenzene Thermoplastic Elastomers / 11.3.1:
Coupled Mechanical and Optical Effects / 11.3.2:
Elastic Diffraction Gratings Recorded Using a Photomask / 11.3.3:
Grating Formation Dynamics and Mechanisms / 11.3.4:
Electrically Tunable Diffraction Gratings / 11.4:
Use of Liquid Crystals / 11.4.1:
Grating Formation in Photosensitive Self-Assembled Liquid Crystal Gels / 11.4.2:
Electrical Switching / 11.4.3:
Optically Tunable Diffraction Gratings / 11.5:
Dynamic Holographic Gratings / 11.5.1:
Optically Tunable Diffraction Gratings in Polymer-Stabilized Liquid Crystals / 11.5.2:
Optically Switchable Reflection Gratings / 11.5.3:
Concluding Remarks and Perspectives / 11.6:
Azo Block Copolymers In The Solid State / Haifeng Yu12:
Preparation Method / 12.1:
Direct Polymerization of Azo Monomers / 12.2.1:
Polymer Analogue Reaction / 12.2.2:
Supramolecular Self-Assembly / 12.2.3:
Special Reactions / 12.2.4:
Properties / 12.3:
Basic Properties / 12.3.1:
Properties from Non-Azo Blocks / 12.3.2:
Properties Originating from Microphase Separation / 12.3.3:
Control of Microphase Separation / 12.4:
Thermal Annealing / 12.4.1:
Rubbing Method / 12.4.2:
Photoalignment / 12.4.3:
Electric Field / 12.4.4:
Magnetic Field / 12.4.5:
Shearing Flow and Other Methods / 12.4.6:
Enhancement of Surface Relief Gratings / 12.5:
Enhancement of Refractive Index Modulation / 12.5.2:
Nanotemplates / 12.5.3:
Volume Storage / 12.5.4:
Other Applications / 12.5.5:
Outlook / 12.6:
Photoresponsive Hybrid Silica Materials Containing Azobenzene Ligands / Nanguo Liu ; C. Jeffrey Brinker13:
Azobenzene-Containing Organosilanes / 13.1:
Synthesis and Photoisomerization of TSUA and BSUA / 13.2.1:
Crystallography of the TSUA Compound / 13.2.2:
Self-Directed Self-Assembly of the BSUA Compound / 13.2.3:
Photoresponsive Mesoporous Materials / 13.3:
Synthesis and Characterization of Photoresponsive Nanoporous Materials / 13.3.1:
Photoisomerization of Azobenzene Ligands in Mesoporous Materials / 13.3.2:
Photoswitched Azobenzene Nanovalves / 13.3.3:
Photocontrolled Release of Dye Molecules from Azobenzene-Modified Nanocomposite Particles / 13.3.4:
Reversible Photoswitching Li quid-Ad sorption of Azobenzene-Modified Mesoporous Silica Materials / 13.3.5:
Photoresponsive Polysilsesquioxane Gels / 13.4:
Azobenzene-Modified Polysilsesquioxanes for Photocontrol of Refractive Index / 13.4.1:
Azobenzene-Modified Polysilsesquioxane Gels for Optomechanical Devices / 13.4.2:
Future Work / 13.5:
Index
Preface
Contributors
Azobenzene Polymers for Photonic Applications / Kevin G. Yager ; Christopher J. Barrett1:
2.

図書

図書
Mark Lutz
出版情報: Beijing ; Tokyo : O'Reilly, c2009  xlix, 1160 p. ; 24 cm
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図書

図書
Yoshimi Ito
出版情報: New York : McGraw-Hill, c2008  xxiii, 504 p. ; 24 cm
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目次情報: 続きを見る
Preface
Terminology and Abbreviations
Nomenclature
Conversion Table
Engineering Guides of Modular Design and Description Methodology of Machine Tools / Part 1:
Basic Knowledge: What Is the Modular Design? / Chapter 1:
Definition and Overall View of Modular Design / 1.1:
Advantageous and Disadvantageous Aspects of Modular Design / 1.2:
A Firsthand View of Developing History and Representative Applications / 1.3:
Application to TL and FTL / 1.3.1:
Application to conventional machine tools / 1.3.2:
Application to NC machine tools / 1.3.3:
Different-kind generating modular design / 1.3.4:
References
Engineering Guides and Future Perspectives of Modular Design / Chapter 2:
Four Principles and Further Related Subjects / 2.1:
Effective Tools and Methodology for Modular Design / 2.2:
Classification of Modular Design Including Future Perspectives / 2.3:
Modular design being widely employed / 2.3.1:
Modular design in the very near future-a symptom of upheaval of new concepts / 2.3.2:
Characteristic Features of Modular Design Being Used in Machine Tools of the Most Advanced Type / 2.4:
System machines / 2.4.1:
Machining complex and processing complex / 2.4.2:
Description of Machine Tools / Chapter 3:
Basic Knowledge about Functional and Structural Description Methods / 3.1:
Details of Functional Description / 3.2:
Details of Structural Description / 3.3:
Application of Machine Tool Description to Engineering Design / Chapter 4:
Application of Functional Description / 4.1:
Classification of machining centers and its application to marketability analysis / 4.1.1:
Analysis of machining function and its application to evaluate compatibility with production systems / 4.1.2:
Automated generation of concept drawing / 4.1.3:
Estimation of assembly accuracy in design stage / 4.1.4:
Application of Structural Description / 4.2:
Similarity evaluation of structural configuration-availability constraints of modular design / 4.2.1:
Variant design for structural configuration / 4.2.2:
Free design for structural configuration / 4.2.3:
Engineering Design for Machine Tool Joints-Interfacial Structural Configuration in Modular Design / Part 2:
Basic Knowledge of Machine Tool Joints / Chapter 5:
Classification of Machine Tool Joints / 5.1:
Definition of Machine Tool Joint and Representation of Joint Characteristics / 5.2:
External Applied Loads to Be Considered and Fundamental Factors Governing Joint Characteristics / 5.3:
Effects of Joint on Static and Dynamic Stiffness, and Thermal Behavior of Machine Tool as a Whole / 5.4:
Firsthand View of Research History / 5.5:
Fundamentals of Engineering Design and Characteristics of the Single Flat Joint / Chapter 6:
Quick Notes for Single Flat Joint, Determination of Mathematical Model, and Fundamental Knowledge about Engineering Design Formulas / 6.1:
Design Formulas for Normal Joint Stiffness and Related Research / 6.2:
Expressions for static normal joint stiffness / 6.2.1:
Representative researches into behavior of the single flat joint under normal loading / 6.2.2:
Design Formulas for Tangential Joint Stiffness, Related Researches, and Peculiar Behavior of Microslip / 6.3:
Expressions for static tangential joint stiffness / 6.3.1:
Representative researches into behavior of the static tangential joint stiffness and the microslip / 6.3.2:
Peculiar behavior of microslip / 6.3.3:
Design Formulas for Damping Capacity and Related Researches / 6.4:
Expressions for damping capacity / 6.4.1:
Representative research into dynamic behavior / 6.4.2:
Thermal Behavior of Single Flat Joint / 6.5:
Forerunning Research into Single Flat Joint with Local Deformation / 6.6:
Supplement: Theoretical Proof of Ostrovskii's Expression
Design Guides, Practices, and Firsthand View of Engineering Developments-Stationary Joints / Chapter 7:
Bolted Joint / 7.1:
Design guides and knowledge-pressure cone and reinforcement remedies from structural configuration / 7.1.1:
Engineering design for practices-suitable configuration of bolt pocket and arrangement of connecting bolts / 7.1.2:
Engineering calculation for damping capacity / 7.1.3:
Representative researches and their noteworthy achievements-static behavior / 7.1.4:
Representative researches and their noteworthy achievements-dynamic behavior / 7.1.5:
Representative researches and their noteworthy achievements-thermal behavior / 7.1.6:
Foundation / 7.2:
Engineering calculation for foundation / 7.2.1:
Stiffness of leveling block / 7.2.2:
Firsthand View for Researches in Engineering Design in Consideration of Joints / Supplement 1:
Influences of Joints on Positioning and Assembly Accuracy / Supplement 2:
Supplement References
Design Guides, Practices, and Firsthand View of Engineering Developments-Sliding Joints / Chapter 8:
Slideways / 8.1:
Design knowledge-slideway materials / 8.1.1:
Design knowledge-keep plate and gib configurations / 8.1.2:
Linear Rolling Guideways (Linear Guide and Rolling Guideways) / 8.2:
Main Spindle-Bearing Systems / 8.3:
Static stiffness of rolling bearing / 8.3.1:
Dynamic stiffness and damping capacity of rolling bearing / 8.3.2:
Sliding Joints of Special Types / 8.4:
Screw-and-nut feed driving systems / 8.4.1:
Boring spindle of traveling type / 8.4.2:
Supplement: Deflection and Interface Pressure Distribution of Slideway
Supplement Reference
Rudimentary Engineering Knowledge about Other Joints / Chapter 9:
Joints for Light-Weighted Structures / 9.1:
Welded joint / 9.1.1:
Bonded joint / 9.1.2:
Taper Connection / 9.2:
Chucking / 9.3:
Measurement of Interface Pressure by Means of Ultrasonic Waves / Appendix 1:
Principle of Measurement and Its Verification / A1.1:
Some Applications and Perspectives in the Very Near Future / A1.2:
Model Testing and Theory / Appendix 2:
Model Testing and Theory for Structural Body Component / A2.1:
Model Testing in Consideration of Joints / A2.2:
Index
Preface
Terminology and Abbreviations
Nomenclature
4.

図書

図書
Peter Atkins, Julio de Paula
出版情報: Oxford : Oxford University Press, 2010  xxxii, 972 p. ; 28 cm
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図書

図書
Tetsurō Takasaki ; translated by Kazue E. Campbell
出版情報: Sapporo, Japan : Hokkaido University Press, 2009  xiv, 250 p. ; 22 cm
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図書

図書
Hiroshi Sekimoto
出版情報: Tokyo : The 21st Century Center of Excellence Program "Innovative Nuclear Energy Systems for Sustainable Development of the World", Tokyo Institute of Technology, c2007  viii, 105 p. ; 30 cm
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図書

図書
Julius S. Bendat
出版情報: New York : Wiley, c1998  xiii, 474 p. ; 24 cm
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Linear Systems, Random Data
Zero-Memory Nonlinear Systems
Direct and Reverse MI/SO
Techniques for Analysis and Identification of Nonlinear Systems
Parallel Linear and Nonlinear Systems
Determination of Physical Parameters with Memory in Nonlinear Systems
Nonlinear System Response Properties of a Naval Frigate from Measured Ocean Engineering Data
Nonlinear System Response Properties of a Naval Barge from Measured Ocean Engineering Data
Bilinear and Trilinear Systems
Input Output Relations for Bilinear and Trilinear Systems
References
Index
Glossary of Symbols
Linear Systems, Random Data
Zero-Memory Nonlinear Systems
Direct and Reverse MI/SO
8.

図書

図書
Abraham Pais ... [et al.] ; edited by Peter Goddard
出版情報: Cambridge : Cambridge University Press, 1998  xv, 124 p. ; 23 cm
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Preface / Peter Goddard
Dirac memorial address / Stephen Hawking
Paul Dirac: aspects of his life and work / Abraham Pais1:
Antimatter / Maurice Jacob2:
The monopole / David Olive3:
The Dirac equation and geometry / Michael F. Atiyah4:
Preface / Peter Goddard
Dirac memorial address / Stephen Hawking
Paul Dirac: aspects of his life and work / Abraham Pais1:
9.

図書

図書
by Hoang Tuy
出版情報: Dordrecht : Kluwer Academic Publishers, c1998  xi, 339 p. ; 25 cm
シリーズ名: Nonconvex optimization and its applications ; v. 22
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図書
José Galizia Tundisi and Yatsuka Saijo, editors
出版情報: S. Carlos : Brazilian Academy of Sciences, 1997  xiv, 513 p. ; 23 cm
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