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1.

図書
図書
1. Condensed pyrazines
G. W. H. Cheeseman, R. F. Cookson
出版情報: New York : Wiley, c1979  xii, 835 p. ; 24 cm
シリーズ名: The chemistry of heterocyclic compounds : a series of monographs ; vol. 35
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General Introduction to Quinoxaline Chemistry
Quinoxaline--The Parent Heterocycle
Quinoxalines Unsubstituted in the Heteroring
Quinoxaline Mono- and Di-N-oxides
Quinoxaline-2-ones and Quinoxaline-2,3-diones
Quinoxaline-2-thiones and Quinoxaline-2,3-dithiones
Quinoxaline-2-carboxaldehydes and Quinoxaline-2,3 dicarboxaldehydes
Quinoxaline 2-Ketones and 2,3-Diketones
Quinoxaline-2-carboxylic Acids and Quinoxaline-2,3 dicarboxylic Acids
2-Halogenoquinoxalines and 2,3-Dihalogenoquinoxalines
2-Aminoquinoxalines and 2,3-Diaminoquinoxalines
2-Hydrazinoquinoxalines
2-Alkoxy-, 2-Aryloxy-, 2,3-Dialkoxy-,2-Alkoxy-, 3-aryloxy-, and 2,3-Diaryloxquinoxalines
2-Alkyl- and 2,3-Dialkylquinoxalines
2-Aryl(heteroaryl)- and 2,3-Diaryl(diheteroaryl)quinoxalines
2-Polyhydroxyalkylquinoxalines
Quinoxaline Quaternary Salts
Reduced Quinoxalines
Salts
Pyrrolo [1,2-a] pyrazines
Pyrrolo[b]pyrazines
Imidazopyrazines
Pyrazolopyrazines
Triazolo- and Tetrazolopyrazines
Furo-, Oxazolo-, Isoxazolo-, and Oxadiazolopyrazines
Thieno-, Thiazolo-, Isothiazolo-, and Thiadiazolopyrazines
Miscellaneous 5,6-Systems
Pyrido[1,2-a] pyrazines
Pyrido[2,3-b]pyrazines
Pyrido[3,4-b]pyrazines
Pyrazinopyrimidines
Pyrazinopyrazines
Pyrazinotriazines and Pyrazinotetrazines
Pyrazinooxazines
Pyrazinothiazines
Pyrroloquinoxalines
Imidazoquinoxalines
Pyrazoloquinoxaline
Benzo[f]quinoxalines
Benzo[g]quinoxalines
Pyridoquinoxalines
Author Index?
Subject Index
General Introduction to Quinoxaline Chemistry
Quinoxaline--The Parent Heterocycle
Quinoxalines Unsubstituted in the Heteroring
2.

図書
図書
2. Non-commutative harmonic analysis : proceedings, Marseille-Luminy, France, June 26 to 30, 1978 : actes du Colloque d'analyse harmonique non commutative (: Berlin ; : New York)
edited by Jacques Carmona and Michèle Vergne
出版情報: Berlin ; New York : Springer-Verlag, 1979  244 p. ; 25 cm
シリーズ名: Lecture notes in mathematics ; 728
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Introduction to Acoustics / 1:
Fundamental Physical Principles / 1.1:
Sound Pressure / 1.1.1:
Particle Velocity / 1.1.2:
Sound Power / 1.1.3:
Frequency / 1.1.4:
The Speed of Sound / 1.1.5:
Wavelength / 1.1.6:
Characteristics of the Auditory System / 1.2:
The Sensation of Loudness / 1.2.1:
Masking / 1.2.2:
Directional Characteristics / 1.2.3:
Directional Hearing / 1.2.4:
The Cocktail Party Effect / 1.2.5:
Masking for the Musician / 1.2.6:
Sensitivity to Changes in Frequency and Sound Pressure Level / 1.2.7:
Structure of Musical Sound / 2:
Introducing the Model / 2.1:
Frequency-and Level: Structures / 2.2:
The Harmonic Tone Structure of Sound Spectra / 2.2.1:
The Frequency Range of Sound Spectra / 2.2.2:
Formants / 2.2.3:
The Effect of Individual Partials / 2.2.4:
Frequency Width of Partials / 2.2.5:
Noise Contributions / 2.2.6:
Dynamics and the Sound Spectrum / 2.2.7:
Dynamic Range and Sound Power / 2.2.8:
Time Structures / 2.3:
Deviations from a Steady Vibration Process / 2.3.1:
The Starting Transient / 2.3.2:
Inharmonic Components / 2.3.3:
Decay of Resonating Systems / 2.3.4:
Decay Time and Reverberation Time / 2.3.5:
Fluctuations in the Quasistationary Part / 2.3.6:
Tonal Characteristics of Musical Instruments / 3:
Brass Instruments / 3.1:
The French Horn / 3.1.1:
The Trumpet / 3.1.2:
The Trombone / 3.1.3:
The Tuba / 3.1.4:
Woodwind Instruments / 3.2:
The Flute / 3.2.1:
The Oboe / 3.2.2:
The Clarinet / 3.2.3:
The Bassoon / 3.2.4:
String Instruments / 3.3:
The Violin / 3.3.1:
The Viola / 3.3.2:
The Cello / 3.3.3:
Double Bass / 3.3.4:
The Piano / 3.4:
Sound Spectra / 3.4.1:
Dynamics / 3.4.2:
Time Structure / 3.4.3:
The Harpsichord / 3.5:
The Harp / 3.5.1:
Percussion Instruments / 3.6.1:
Timpani / 3.7.1:
The Bass Drum / 3.7.2:
Snare Drum / 3.7.3:
Gong / 3.7.4:
Cymbals / 3.7.5:
The Triangle / 3.7.6:
The Singing Voice / 3.8:
Choral Singing / 3.8.1:
Foundations of Directional Sound Radiation / 4:
Directional Effects and Polar Diagrams / 4.1.1:
Evaluation and Representation / 4.1.2:
General Considerations / 4.2:
The Double Bass / 4.4.2:
The Grand Piano / 4.5:
Lid Open / 4.5.1:
Lid Closed / 4.5.2:
Lid Half Open / 4.5.3:
Lid Removed / 4.5.4:
The Timpani / 4.5.5:
The Drum / 4.7.2:
Gongs / 4.7.3:
Color Plates Following Page / 4.8:
Foundations of Room Acoustics / 5:
Reflection and Refraction / 5.1:
Reflection from a Flat Surface / 5.1.1:
Reflection from Curved Surfaces / 5.1.2:
Influence of the Wavelength / 5.1.3:
Absorption / 5.2:
Reverberation / 5.3:
Direct Sound and Diffuse Field / 5.4:
The Energy Density / 5.4.1:
The Direct Sound / 5.4.2:
Diffuse-Field Distance / 5.4.3:
Temporal Structure of the Sound Field / 5.5:
Acoustical Properties of Old and New Performance Spaces / 6:
Concert Halls / 6.1:
Tonal Requirements / 6.1.1:
Reverberation Time and Hall Size / 6.1.2:
Sound Field and Hall Shape / 6.1.3:
Acoustic Conditions on the Stage / 6.1.4:
The Location of the Conductor / 6.1.5:
Opera Houses / 6.2:
Reverberation Time and Room Size / 6.2.1:
Direct Sound and Early Reflections / 6.2.2:
Churches / 6.3:
Chamber Music Halls / 6.4:
Studios / 6.5:
Special Purpose Rooms / 6.6:
Open Air Stages / 6.7:
Seating Arrangement in the Concert Hall / 7:
Customary Positioning of Instrument Groups / 7.1:
The Tonal Effect in the Hall / 7.2:
Grand Pianos / 7.2.1:
Harps / 7.2.6:
Combined Sound of the Orchestra / 7.2.7:
Singing Voices / 7.2.8:
Acoustic Considerations for Instrumentation and Playing Technique / 8:
Strength of Ensembles / 8.1:
Historical Development / 8.1.1:
Adapting to the Hall / 8.1.2:
Performance Technique / 8.2:
Articulation and Tone Presentation / 8.3.1:
Vibrato / 8.3.2:
Playing Positions of Wind Instruments / 8.3.3:
Tempo and Room Acoustics / 8.4:
Acoustical Problems in the Opera House / 9:
Strength of the Orchestra / 9.1:
Sound Level in the Hall / 9.1.1:
Sound Level in the Orchestra Pit / 9.1.3:
Seating Arrangement in the Orchestra Pit / 9.2:
Customary Arrangements of Instrument Groups / 9.2.1:
Balance between Singers and Orchestra / 9.2.2:
Arrangement of Choirs and Music on Stage / 9.4:
Musicians in the Scene / 9.4.1:
Musicians behind the Scene / 9.4.2:
Appendix Table for Angular Dependence of the Statistical Directivity Factor
References
Subject Index
Author, Composer, and Composition Index
Introduction to Acoustics / 1:
Fundamental Physical Principles / 1.1:
Sound Pressure / 1.1.1:
3.

図書
図書
3. Semi-infinite programming : proceedings of a workshop, Bad Honnef, August 30-September 1, 1978 (: gw ; : us)
edited by R. Hettich
出版情報: Berlin ; New York : Springer-Verlag, 1979  x, 178 p. ; 25 cm
シリーズ名: Lecture notes in control and information sciences ; 15
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Introduction to Microfluidics / Chapter 1:
Abstract
History of Microfluidics / 1.1:
The beginning: Gas chromatography and capillary electrophoresis / 1.2.1:
The microfluidic advantage / 1.2.2:
Modular separation, reaction and hybridization systems / 1.2.3:
Integrated systems / 1.2.4:
Fluidics and Transport Fundamentals / 1.3:
The continuum approximation / 1.3.1:
Laminar flow / 1.3.2:
Diffusion in microfluidic systems / 1.3.3:
Surface forces and droplets / 1.3.4:
Pumps and valves / 1.3.5:
Electrokinetics / 1.3.6:
Thermal management / 1.3.7:
Device Fabrication / 1.4:
Materials / 1.4.1:
Fabrication and assembly / 1.4.2:
Biological Applications / 1.5:
Genetic analysis (DNA/RNA) / 1.5.1:
Proteomics / 1.5.2:
Cellular assays / 1.5.3:
Drug delivery and compatibility / 1.5.4:
The Future / 1.6:
Potential demand/market for microfluidic devices / 1.6.1:
Current products / 1.6.2:
Challenges and the future / 1.6.3:
References
Materials and Microfabrication Processes for Microfluidic Devices / Chapter 2:
Introduction / 2.1:
Silicon Based Materials / 2.2:
Micromachining of silicon / 2.2.1:
Bulk micromachining / 2.2.2:
Surface micromachining / 2.2.3:
Glass Based Materials / 2.3:
Microfabrication in glass / 2.3.1:
Wafer Bonding / 2.4:
Fusion bonding / 2.4.1:
Anodic bonding / 2.4.2:
Adhesive bonding / 2.4.3:
Polymers / 2.5:
Microfabrication / 2.5.1:
Polymer materials / 2.5.2:
Conclusion / 2.6:
Interfacing Microfluidic Devices with the Macro World / Chapter 3:
Typical Requirements for Microfluidic Interfaces / 3.1:
Review of Microfluidic Interfaces / 3.3:
World-to-chip interfaces / 3.3.1:
Chip-to-world interfaces / 3.3.2:
Future Perspectives / 3.4:
Genetic Analysis in Miniaturized Electrophoresis Systems / Chapter 4:
Status of genetic analyses / 4.1:
Genetic analysis by miniaturized electrophoresis system / 4.1.2:
Microchip Electrophoresis for Genomic Analysis / 4.2:
Material and fabrication of electrophoresis microchips / 4.2.1:
Theory of gel electrophoresis of DNA / 4.2.2:
Gel matrices / 4.2.3:
Novel DNA separation strategies on microchips / 4.2.4:
Surface coating methods for microchannel walls / 4.2.5:
Parallelization in Microchip Electrophoresis / 4.3:
Integration in Microchip Electrophoresis for Genetic Analysis / 4.4:
Sample preparation on microchip / 4.4.1:
System integration / 4.4.2:
Commercial Microfluidic Instruments for Genetic Analyses / 4.5:
Commercial microchip electrophoresis instruments for genetic analysis / 4.5.1:
Integrated microfluidic instruments for genetic analyses / 4.5.2:
Microfluidic Markets and Future Perspectives / 4.6:
Microfluidic Systems for Protein Separations / Chapter 5:
Advantages of microfluidic chips for protein separations / 5.1:
Limitations of microfluidic chips in proteomics applications / 5.1.2:
Substrates used for proteomic analysis / 5.1.3:
Microfluidic Chips for Protein Separation / 5.2:
Microchip-based electrophoretic techniques / 5.2.1:
Microchip chromatography / 5.2.2:
Integrated Analysis in Microchips / 5.3:
Integration of sample preparation with analysis / 5.3.1:
Multi-dimensional separation in microchips / 5.3.2:
Chips integrated with mass spectrometry / 5.3.3:
Future Directions / 5.4:
Microfluidic Systems for Cellular Applications / Chapter 6:
Physiological advantages / 6.1:
Biological advantages / 6.1.2:
Economical advantages / 6.1.3:
Microfluidic Technology for Cellular Applications / 6.2:
Microfluidic cell isolation/separation / 6.2.1:
Microfluidic cell culture / 6.2.2:
Microfluidic cell analysis / 6.2.3:
Commercialization of Microfluidic Technology / 6.3:
Concluding Remarks / 6.4:
Microfluidic Systems for Engineering Vascularized Tissue Constructs / Chapter 7:
Generating 2D Vascularized Tissue Constructs Using Microfluidic Systems / 7.1:
Generating 3D Vascularized Tissue Constructs Using Microfluidic Systems / 7.3:
Hydrogel-based Microfluidic Systems for Generating Vascularized Tissue Constructs / 7.4:
Mathematical Modeling to Optimize the Microfluidic Systems for Generating Vascularized Tissue Constructs / 7.5:
Future Challenges / 7.6:
Conclusions / 7.7:
High Throughput Screening Using Microfluidics / Chapter 8:
Cell-Based Assays / 8.1:
High throughput cell culture / 8.2.1:
Cell sorting for high throughput applications / 8.2.2:
Biochemical Assays / 8.3:
PCR / 8.3.1:
Electrophoresis / 8.3.2:
Others / 8.3.3:
Drug Screening Applications / 8.4:
Users and Developers of [mu]F HTS Platforms / 8.5:
Users: Research labs, academic screening facilities, and pharmaceutical / 8.5.1:
Commercialized products in HTS / 8.5.2:
Acknowledgements / 8.6:
Microfluidic Diagnostic Systems for the Rapid Detection and Quantification of Pathogens / Chapter 9:
Infectious pathogens and their prevalence / 9.1:
Traditional pathogen detection methods / 9.1.2:
Microfluidic techniques / 9.1.3:
Review of Research / 9.2:
Pathogen detection/quantification techniques based on detecting whole cells / 9.2.1:
Pathogen detection/quantification techniques based on detecting metabolites released or consumed / 9.2.2:
Pathogen detection/quantification through microfluidic immunoassays and nucleic acid based detection platforms / 9.2.3:
Future Research Directions / 9.3:
Microfluidic Applications in Biodefense / Chapter 10:
Biodefense Monitoring / 10.1:
Civilian biodefense / 10.2.1:
Military biodefense / 10.2.2:
Current Biodefense Detection and Identification Methods / 10.3:
Laboratory detection / 10.3.1:
Field detection / 10.3.2:
Microfluidic Challenges for Advanced Biodefense Detection and Identification Methods / 10.4:
Microscale Sample Preparation Methods / 10.5:
Spore disruption / 10.5.1:
Pre-separations / 10.5.2:
Nucleic acid purifications / 10.5.3:
Immunomagnetic Separations and Immunoassays / 10.6:
Immunomagnetic separations / 10.6.1:
Immunoassays / 10.6.2:
Proteomic Approaches / 10.7:
Nucleic Acid Amplification and Detection Methods / 10.8:
PCR and qPCR detection of pathogens for biodefense / 10.8.1:
Miniaturized and Microfluidic PCR / 10.8.2:
Heating and cooling approaches / 10.8.3:
Miniaturized PCR and qPCR for biodefense / 10.8.4:
Other Nucleic acid amplification methods / 10.8.5:
Microarrays / 10.9:
Microarrays and microfluidics / 10.9.1:
Microelectrophoresis and Biodefense / 10.10:
Microelectrophoresis technologies / 10.10.1:
Integrated lab-on-a-chip systems and biodefense / 10.11:
Full microfluidic integration for biodefense / 10.11.1:
Summary and Perspectives / 10.12:
Current and Future Trends in Microfluidics within Biotechnology Research / Chapter 11:
The Past - Exciting Prospects / 11.1:
The Present - Kaleidoscope-like Trends / 11.2:
Droplet microfluidics / 11.2.1:
Integrating Active Components in Microfluidics / 11.2.2:
Third world - paper microfluidics - George Whitesides / 11.2.3:
Microfluidic solutions for enhancing existing biotechnology platforms / 11.2.4:
Microfluidics for cell biology - seeing inside the cell with molecular probes / 11.2.5:
Microfluidics for cell biology - high throughput platforms / 11.2.6:
The Future - Seamless and Ubiquitous MicroTAS / 11.3:
Index
Introduction to Microfluidics / Chapter 1:
Abstract
History of Microfluidics / 1.1:
4.

図書
図書
4. Differentiable periodic maps. 2nd ed (: Berlin ; : New York)
P.E. Conner
出版情報: Berlin ; New York : Springer-Verlag, 1979  iv, 181 p. ; 25 cm
シリーズ名: Lecture notes in mathematics ; 738
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Fundamentals of Micromachined Vibratory Gyroscopes / Part I:
Introduction / 1:
The Coriolis Effect / 1.1:
Gyroscopes / 1.2:
The MEMS Technology / 1.3:
Micromachined Vibratory Rate Gyroscopes / 1.4:
Applications of MEMS Gyroscopes / 1.5:
Gyroscope Performance Specifications / 1.6:
A Survey of Prior Work on MEMS Gyroscopes / 1.7:
The Robustness Challenge / 1.8:
Inherently Robust Systems / 1.9:
Overview / 1.10:
Fundamentals of Micromachined Gyroscopes / 2:
Dynamics of Vibratory Rate Gyroscopes / 2.1:
Linear Gyroscope Dynamics / 2.1.1:
Torsional Gyroscope Dynamics / 2.1.2:
Resonance Characteristics / 2.2:
Drive-Mode Operation / 2.3:
The Coriolis Response / 2.4:
Mode-Matching and [delta]f / 2.4.1:
Phase Relations and Proof-Mass Trajectory / 2.4.2:
Summary / 2.5:
Fabrication Technologies / 3:
Microfabrication Techniques / 3.1:
Photolithography / 3.1.1:
Deposition / 3.1.2:
Etching / 3.1.3:
Wafer Bonding / 3.1.4:
Bulk Micromachining Processes / 3.2:
SOI-Based Bulk Micromachining / 3.2.1:
Silicon-on-Glass Bulk Micromachining / 3.2.2:
Surface-Micromachining Processes / 3.3:
Combined Surface-Bulk Micromachining / 3.4:
CMOS Integration / 3.5:
Hybrid Integration / 3.5.1:
Monolithic Integration / 3.5.2:
Packaging / 3.6:
Wafer-Level Packaging / 3.6.1:
Vacuum Packaging / 3.6.2:
Mechanical Design of MEMS Gyroscopes / 3.7:
Mechanical Structure Designs / 4.1:
Linear Vibratory Systems / 4.2:
Linear Suspension Systems / 4.2.1:
Linear Flexure Elements / 4.2.2:
Torsional Vibratory Systems / 4.3:
Torsional Suspension Systems / 4.3.1:
Torsional Flexure Elements / 4.3.2:
Anisoelasticity and Quadrature Error / 4.4:
Quadrature Compensation / 4.4.1:
Damping / 4.5:
Viscous Damping / 4.5.1:
Viscous Anisodamping / 4.5.2:
Intrinsic Structural Damping / 4.5.3:
Material Properties of Silicon / 4.6:
Design for Robustness / 4.7:
Yield / 4.7.1:
Vibration Immunity / 4.7.2:
Shock Resistance / 4.7.3:
Temperature Effects / 4.7.4:
Electrical Design of MEMS Gyroscopes / 4.8:
Basics of Capacitive Electrodes / 5.1:
Electrostatic Actuation / 5.3:
Variable-Gap Actuators / 5.3.1:
Variable-Area Actuators / 5.3.2:
Balanced Actuation / 5.3.3:
Capacitive Detection / 5.4:
Variable-Gap Capacitors / 5.4.1:
Variable-Area Capacitors / 5.4.2:
Differential Sensing / 5.4.3:
Capacitance Enhancement / 5.5:
Gap Reduction by Fabrication / 5.5.1:
Post-Fabrication Capacitance Enhancement / 5.5.2:
MEMS Gyroscope Testing and Characterization / 5.6:
Frequency Response Extraction / 5.6.1:
Capacitive Sense-Mode Detection Circuits / 5.6.2:
Rate-Table Characterization / 5.6.3:
Structural Approaches to Improve Robustness / 5.7:
Linear Multi-DOF Architecture / 6:
Fundamentals of 2-DOF Oscillators / 6.1:
The 2-DOF Sense-Mode Architecture / 6.3:
Gyroscope Dynamics / 6.3.1:
Coriolis Response / 6.3.2:
Illustrative Example / 6.3.3:
Conclusions on the 2-DOF Sense-Mode Architecture / 6.3.4:
The 2-DOF Drive-Mode Architecture / 6.4:
Dynamical Amplification in the Drive-Mode / 6.4.1:
Conclusions on the 2-DOF Drive-Mode Architecture / 6.4.3:
The 4-DOF System Architecture / 6.5:
Dynamics of the 4-DOF Gyroscope / 6.5.1:
Parameter Optimization / 6.5.3:
Conclusions on the 4-DOF System Architecture / 6.5.4:
Demonstration of 2-DOF Oscillator Robustness / 6.6:
Torsional Multi-DOF Architecture / 6.7:
Torsional 3-DOF Gyroscope Structure and Theory of Operation / 7.1:
Cross-Axis Sensitivity / 7.2.1:
Illustration of a MEMS Implementation / 7.3:
Suspension Design / 7.3.1:
Finite Element Analysis / 7.3.2:
Optimization of System Parameters / 7.3.3:
Sensitivity and Robustness Analyses / 7.3.5:
Experimental Characterization / 7.4:
Distributed-Mass Architecture / 7.5:
The Approach / 8.1:
Wide-Bandwidth Operation for Improving Robustness / 8.2.1:
Theoretical Analysis of the Trade-offs / 8.3:
Prototype Design / 8.4:
Experimental Characterization Results / 8.4.2:
Conclusions and Future Trends / 8.5:
Comparative Analysis of the Presented Concepts / 9.1:
2-DOF Oscillator in the Sense-Mode / 9.2.1:
2-DOF Oscillator in the Drive-Mode / 9.2.2:
Multiple Drive-Mode Oscillators / 9.2.3:
Demonstration of Improved Robustness / 9.3:
Temperature Dependence of Drive and Sense-Modes / 9.3.1:
Rate-Table Characterization Results / 9.3.2:
Comparison of Response with a Conventional Gyroscope / 9.3.3:
Scale Factor Trade-off Analysis / 9.4:
Future Trends / 9.5:
Anti-Phase 2-DOF Sense Mode Gyroscope / 9.5.1:
2-DOF Sense Mode Gyroscope with Scalable Peak Spacing / 9.5.2:
Conclusion / 9.6:
References
Index
Fundamentals of Micromachined Vibratory Gyroscopes / Part I:
Introduction / 1:
The Coriolis Effect / 1.1:
5.

図書
図書
5. Qualitative aspects of large scale systems : developing design rules using APL (: U.S. : pbk. ; : gw)
O.I. Franksen, P. Falster, F.J. Evans
出版情報: Berlin ; New York : Springer-Verlag, 1979  xii, 119 p. ; 24 cm
シリーズ名: Lecture notes in control and information sciences ; 17
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Introduction / 1:
Marginal Models for Categorical Data / 1.1:
Historical and Comparable Approaches / 1.2:
Coefficients for the Comparsion of Marginal Distributions / 1.3:
Measuring Differences in Location / 1.3.1:
Measuring Differences in Dispersion / 1.3.2:
Measuring Association / 1.3.3:
Measuring Agreement / 1.3.4:
Loglinear Marginal Models / 2:
Ordinary Loglinear Models / 2.1:
Basic Concepts and Notation / 2.1.1:
Modeling Association Among Three Variables / 2.1.2:
Applications of Loglinear Marginal Models / 2.2:
Research Questions and Designs Requiring Marginal Models / 2.2.1:
Comparing One Variable Distributions / 2.2.2:
More Complex Designs and Research Questions / 2.2.3:
Maximum Likelihood Inference for Loglinear Marginal Models / 2.3:
Sampling Methods / 2.3.1:
Specifying Loglinear Marginal Models by Constraining the Cell Probalities / 2.3.2:
Simultaneous Modeling of Joint and Marginal Distributions: Redundancy, Incompatibility and Other Issues / 2.3.3:
***Maximum Likelihood Estimates of Constrained Cell Probabilities / 2.3.4:
***A Numerical Algorithm for ML Estimation / 2.3.5:
***Efficient Computation of ML Estimates for Simultaneous Joint and Marginal Models / 2.3.6:
***Large Sample Distribution of ML estimates / 2.3.7:
Model Evaluation / 2.3.8:
Nonloglinear Marginal Models / 3:
Comparing Item Characteristics for Different Measurement Levels / 3.1:
Interval Level of Measurement / 3.1.1:
Ordinal Level of Measurement / 3.1.2:
Nominal Level of Measurement / 3.1.3:
Comparing Associations / 3.2:
Maximum Likelihood Estimation / 3.3:
Generalized exp-log Specification of Nonloglinear Marginal Models / 3.3.1:
Compatibility and Redundancy of Restrictions / 3.3.2:
Homogeneous Specification of Coefficients / 3.3.3:
***Algorithm for Maximum Likelihood Estimation / 3.3.4:
***Asymptotic Distribution of ML Estimates / 3.3.5:
Marginal Analysis of Longitudinal Data / 4:
Trend Data / 4.1:
Comparing Net Changes in More Than One Characteristic / 4.1.1:
Simultaneous Tests for Restrictions on Association and Net Change: Modeling Joint and Marginal Tables / 4.1.2:
Panel Data: Investigating Net Changes in One Characteristic / 4.2:
Overall Net Changes; Cumulative Proportions; Growth Curves / 4.2.1:
Subgroup Comparisons of Net Changes / 4.2.2:
Changes in Associations / 4.2.3:
Gross Changes in One Characteristic / 4.3:
Comparing Turnover Tables for Different Periods / 4.3.1:
Comparing Summary Measures of Gross Change / 4.3.2:
Extensions; Net Plus Gross Changes; Multiway Turnover Tables; Subgroup Comparisons / 4.3.3:
Net and Gross Changes in Two Related Characteristics / 4.4:
Net Changes in Two Characteristics / 4.4.1:
Changes in Association Between Two Changing Characteristics / 4.4.2:
Gross Changes in Two Characteristics / 4.4.3:
Combining Hypotheses about Net and Gross Changes / 4.4.4:
Minimally Specified Models for Comparing Tables with Overlapping Marginals; Detection of Problematic Models / 4.5:
Causal Analyses: Structural Equation Models and (Quasi-) Experimental Designs / 5:
SEMs - Structural Equation Models / 5.1:
SEMs for Categorical Data / 5.1.1:
An Example: Women's Role / 5.1.2:
Marginal Modeling and Categorical SEM / 5.1.3:
Analysis of (Quasi-)Experimental Data / 5.2:
The One-group Pretest-Posttest Design / 5.2.1:
The Nonequivalent Control Group Design / 5.2.2:
A Truly Experimental Design / 5.2.3:
Marginal Modeling with Latent Variables / 6:
Latent Class Models / 6.1:
Latent Marginal Homogeneity / 6.2:
Loglinear and Nonloglinear Latent Class Models: Equal Reliabilities / 6.3:
Restrictions on Conditional Responses Probabilities / 6.3.1:
Restrictions on Odds Ratios / 6.3.2:
Restrictions on Percentage Differences / 6.3.3:
Restrictions on Agreement / 6.3.4:
Marginal causal analyses / 6.4:
SEMs with latent marginal homogeneity / 6.4.1:
Latent Variable SEMs for Clustered Data / 6.4.2:
Estimation of Marginal Models with Latent Variables Using the EM Algorithm / 6.5:
Basic EM Algorithm / 6.5.1:
***General EM for Marginal Models / 6.5.2:
***Marginal Restrictions in Combination with a Loglinear Model for the Complete Table / 6.5.3:
***Speeding up of the EM Algorithm for Separable Models / 6.5.4:
Conclusions, Extensions, and Applications / 6.5.5:
Marginal Models for Continuous Variables / 7.1:
Changes in Means / 7.1.1:
Changes in Correlation and Regression Coefficients / 7.1.2:
Alternative Procedures and Models / 7.2:
Alternative Estimation Procedures: WLS and GEE / 7.2.1:
Modeling Dependent Observations: Marginal, Random Effects, and Fixed Effects Models / 7.2.2:
Specific Applications / 7.3:
Multiple Responses / 7.3.1:
Categorical Dyadic Data / 7.3.2:
Mokken Scale Analysis / 7.3.3:
Problems and Future Developments / 7.4:
Software, Generalized exp-log Routines, and Website / 7.5:
References
Author Index
Subject Index
Introduction / 1:
Marginal Models for Categorical Data / 1.1:
Historical and Comparable Approaches / 1.2:
6.

図書
図書
6. Complex analysis, Joensuu 1978 : proceedings of the Colloquium on Complex Analysis, Joensuu, Finland, August 24-27, 1978 (: Berlin ; : New York)
edited by Ilpo Laine, Olli Lehto, and Tuomas Sorvali
出版情報: Berlin ; New York : Springer-Verlag, 1979  xv, 450 p. ; 25 cm
シリーズ名: Lecture notes in mathematics ; 747
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Preface
Motivation
Purpose
Readers
Structure
Downloads
Acknowledgments
About the Author
Contents
List of Abbreviations
About Relationships and ORN / Part I:
Introduction Including a Brief History of Relationships / Chapter I:
Relationships / 1.1:
A Brief History of Relationships / 1.2:
The paper-based system / 1.2.1:
The computerized file-based system / 1.2.2:
Early data models and DBMSs / 1.2.3:
The relational model and RDBMS / 1.2.4:
The entity-relationship model and database / 1.2.5:
Semantic models, the object model, and the ODBMS / 1.2.6:
The object-relational DBMS / 1.2.7:
Problems in Modeling and Implementing Relationships / 1.3:
Preview of a Solution / 1.4:
Object Relationship Notation (ORN) / Chapter 2:
Syntax / 2.1:
Graphical Representation / 2.2:
Semantics / 2.3:
Examples / 2.4:
<*-to-*> / 2.4.1:
<1-to-*>|- / 2.4.2:
<0..1-to-*>|- / 2.4.3:
<0..1-to*>|-X- / 2.4.4:
<0..1-to-1..*>? / 2.4.5:
!<0..1-to-*> / 2.4.6:
'<*-to-1..*> / 2.4.7:
Flashback to the Company Database / 2.5:
ORN Simulator A Modeling Tool Where Associations Come Alive / Chapter 3:
Creating a Database Model and a Database / 3.1:
Verifying Association Semantics / 3.2:
Architecture / 3.3:
Benefits / 3.4:
Association Patterns Emerging from a Variety of Association Types / Chapter 4:
Context / 4.1:
Pattern Descriptions / 4.2:
"is defined by" pattern / 4.2.1:
"is recorded for" pattern / 4.2.2:
"is a realization of" pattern / 4.2.3:
"is associated by" pattern / 4.2.4:
"is an update of" pattern / 4.2.5:
"is a part of" pattern / 4.2.6:
"is a" pattern / 4.2.7:
Patterns in Database Modeling and Implementation / 4.3:
Associations That Don't Conform to a Pattern / 4.4:
Conclusion / 4.5:
Comparing ORN to Similar Declarative Schemes / Chapter 5:
Schemes for Relational Databases and Object Relations / 5.1:
Null constraint / 5.1.1:
Key constraints / 5.1.2:
Referential integrity rules / 5.1.3:
Subjectivity constraints / 5.1.4:
Additional relationship semantics / 5.1.5:
Schemes for the ER model / 5.2:
Schemes in ODBMSs / 5.3:
Whole-Part Properties and Dimensions for Class Diagrams / 5.4:
Proposed association dimensions for Class diagrams / 5.4.1:
Primary characteristics for whole-part relationships / 5.4.2:
Secondary characteristics for whole-part relationships / 5.4.3:
Using ORN to Develop a Database System / 5.5:
ORN Additive A Tool for Extending SQL Server with ORN / Chapter 6:
Capabilities, Operations, and Architecture / 6.1:
Capabilities / 6.1.1:
Operations and architecture / 6.1.2:
The +ornddl command / 6.1.3:
The +orndml command / 6.1.4:
ORN Additive DDL Statements / 6.2:
USE statement / 6.2.1:
Constraint statement / 6.2.2:
Delete statement / 6.2.3:
Set Orn_Message_Number_Base statement / 6.2.4:
Example of a query file with ORN Additive DDL statements / 6.2.5:
ORN Additive DML Statements / 6.3:
Use statement / 6.3.1:
Begin Transaction statement / 6.3.2:
Save Transaction statement / 6.3.3:
Commit Transaction statement / 6.3.4:
Rollback Transaction statement / 6.3.5:
Set Rxc_Mode statement / 6.3.6:
Enable/Disable Orn_Triggers statement / 6.3.7:
Example of query file with ORN Additive DML statements / 6.3.8:
Object Relater Plus (OR+) An ORN-extended Object DBMS / 6.4:
Capabilities and Compatibilities / 7.1:
ODDL / 7.2:
ODDL specification / 7.2.1:
/ 7.2.2:
Control commands / 7.2.3:
ODML / 7.3:
Architecture, Implementation, and Extensibility / 7.4:
Implementation / 7.4.1:
Extensibility / 7.4.3:
Mapping Database Models to DDLs From ORN-Extended Class Diagrams to ORN-Extended DBMSs / 7.5:
Mapping an ORN-Extended Model to an ORN-Extended SQL / 8.1:
Transformating the model for a relational database / 8.1.1:
Mapping classes to tables / 8.1.2:
Mapping associations to foreign keys / 8.1.3:
Mapping an ORN-Extended Model to an Object DDL / 8.2:
Transforming the model for an object database / 8.2.1:
Mapping classes to class definitions and extents / 8.2.2:
Mapping associations to object-based attributes / 8.2.3:
Association Semantics Dealing with the Subtleties, Inconsistencies, and Ambiguities / 8.3:
Inconsistencies / 9.1:
Within an / 9.1.1:
Involving combinations / 9.1.2:
Inconsistency Detection / 9.2:
Ambiguities / 9.3:
Associations as Functions / 9.4:
Adding ORN to a DBMS / 9.5:
A Conceptual Implementation of ORN Exploring Semantic Circularity and Ambiguity / Chapter 10:
Algorithms / 10.1:
Algorithm CreateObject / 10.1.1:
Transaction operations / 10.1.2:
Supporting pseudocode for complex object operations / 10.1.3:
Algorithm CreateLink / 10.1.4:
Algorithm DeleteObject / 10.1.5:
Algorithm DestroyLink / 10.1.6:
Algorithm ChangeLink / 10.1.7:
Link Cycles / 10.2:
Circularity / 10.2.1:
The Theorem for ORN Semantic Clarity and its proof / 10.2.2:
Adding ORN to the SQL Standard for RDBMSs / 10.3:
Overview of SQL Association Capabilities / 11.1:
Proposed ORN Extension to SQL / 11.3:
Adding ORN to the ODMG Standard for ODMSs / 11.4:
Adding ORN to ODL / 12.1:
Associations in ODL / 12.2.1:
Adding ORN syntax / 12.2.2:
Adapting ORN semantics to ODL / 12.2.3:
Class Transaction / 12.3:
Method new() / 12.3.2:
Method delete() / 12.3.3:
Method _enforce_binding() / 12.3.4:
Method form_tpR() / 12.3.5:
Method drop_tpR() / 12.3.6:
Method_enforce_explicit_binding() / 12.3.7:
Method change_tpR()
Example / 12.3.9:
Bibliography / 12.4:
Index
Preface
Motivation
Purpose
7.

図書
図書
7. Organische Radikale mit N als Zentralatom und Nitroxid-Radikale (: gw ; : us)
A.R. Forrester, F.A. Neugebauer : Hrsg., H. Fischer, und K.-H. Hellwege
出版情報: Berlin : Springer, 1979  xvii, 1066 p. ; 28 cm
シリーズ名: Landolt-Börnstein Zahlenwerte und Funktionen aus Naturwissenschaften und Technik, Neue Serie / Gesamtherausgabe, K.-H. Hellwege ; Gruppe 2 . Atom- und Molekularphysik ; Bd. 9 . Magnetische Eigenschaften freier Radikale ; Teil c1
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Introductory material / Group III:
Title Page, Preface
Condensed Matter / Landolt-Börnstein ; H. Fischer1:
Climate definition (See Vol.4C1)
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds / Volume 4:
Introduction / 12:
Magnetic and Other Properties of Oxides and Related Compounds
General introduction / M. Hantel1.1-l1.4:
See Vol. 19A / Subvolume B:
General remarks / 6:
Climate modeling / A.R. Forrester
Alloys and compounds of 3d elements with main group elements / 1.2:
Literature covered and selection of data / W. Gräper12.1:
Nitroxide radicals
See Vol. 19B
Non-iron garnets / 1.3:
Arrangement of tables and data
3d elements and C, Si, Ge, Sn or Pb (Y. NAKAMURA) / 5.0:
Formal classification criteria
Nitroxides formed by trapping with nitrosoalkanes (See Vol.17D1) / 1.4:
Abbreviations and units used for presenting the data
Physical classification criteria / 6.3:
Nitroxides formed by trapping with nitrosoarenes, nitrosoheterocycles and nitroarenes (See Vol.17D1)
Magnetic susceptibility data / 1.5.4.2:
Indexes
Ti and V alloys and compounds / A:
Operational classification criteria
Nitroxides formed by trapping with acyclic nitrones / 1.6:
Paramagnetic susceptibility above the ordering temperature / 1.5.4.3:
List of symbols and units
Cr alloys and compounds / B:
References for 12
alpha-Phenyl N-t-butylnitrone / 1.7:
Susceptibility data at low temperatures in the vicinity of an ordering temperature / 1.5.4.4:
List of universal constants
Mn alloys and compounds / C:
alpha-Methylene-N-t-butyl nitrone / 1.8:
Summary of susceptibility parameters and transition temperatures / 1.5.4.5:
The present global surface climate
Glossary of general abbreviations
Fe alloys and compounds / 5.2:
N,N'-Di-t-butyl ethylidene dinitrone / 13.1:
Tables of nuclear quadrupole interaction parameters (See Vol.20A) / 1.5.4.5.1:
Magnetization / 6.4.4:
The earthÆs surface as part of the global climate system
Alloys and compounds with C and Si / 2.1:
Introductory remarks / 13.2:
alpha-4-(Pyridinyl-1-oxide)N-t-butyl nitrone
Crystallographic and structural data / 1.5.4.5.2:
Selected concepts in quantitative climate description
Nuclear constants of quadrupolar elements
Alloys and compounds with Ge
alpha-2- and 3-(Pyridinyl-1-oxide)N-t-butyl nitrones / 13.3:
Ratios of nuclear quadrupole moments of isotopic nuclides / 1.5.4.5.3:
Location and environment of ions in the unit cell of the garnet lattice / 6.4.6:
Quantitative respresentation of the global surface climate
Alloys and compounds with Sn / 2.4:
Values of <(a0/r)3> for the valence states of some neutral atoms / 13.4:
alpha-4-Pyridinyl and alpha-2,3 and 4-(N-alkylpyridinium) N-t-butyl nitrones
Oxygen coordinates, interionic spacings, and angles of compounds with garnet structure / 1.5.4.6:
Climate classification
Atomic quadrupole coupling constants of some elements
Co and Ni alloys and compounds
alpha-(2-Sulfonyloxyphenyl)N-t-butyl nitrone sodium salt / 13.5:
Sternheimer antishielding factor for atoms, free ions and ions in crystals / 1.5.4.7:
Lattice parameters and density of garnet systems / 6.4.8:
List of abbreviations used in chapter 13
MM'X ternary compounds / 2.7:
Transition frequencies between nuclear quadrupole energy levels / 13.6:
alpha-(2,4,6-Trimethoxyphenyl)N-t-butyl nitrone
Magnetic structure of DyAlG and ErGaG / 1.5.4.8:
References for 13
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
References for 1.5.4 / 5.4:
alpha-(2,6-Di-t-butyl-4-hydroxyphenyl)N-t-butyl nitrone / 14:
Specific Surfaces Climates (See Vol.4C1) / 1.5.5:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Results of magnetic resonance experiments / 6.4.10:
Heusler alloys (P.J. WEBSTER, K.R.A. ZIEBECK) / 15:
Climate variations (See Vol.4C1)
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
alpha-(p-Dodecyloxyphenyl)N-t-butyl nitrone
Paramagnetic resonance of rare earth impurities in diamagnetic garnets / 1.5.5.1:
The Planetary Boundary Layer (PBL) (See Vol.4C1)
Crystallographic structure
Nuclear quadrupole resonance data
Other alpha-aryl N-t-butyl nitrones
Paramagnetic resonance of impurities with d electrons in diamagnetic garnets / 1.5.5.1.1:
Chemical order
alpha-Phenyl N-(1,3-dioxanyl)nitrone
Paramagnetic resonance of impurities in paramagnetic garnets / 1.5.5.1.1.1:
General model
Resonance data tables
alpha(4-(N-Methylpyridinium))N-t-butyl nitrone
Deuterium - Chlorine (See Vol.20A) / 1.5.5.1.1.2:
Nuclear magnetic resonance experiments / 6.4.14:
Chlorine (continued) - Rubidium (See Vol.20B)
A statistical model / 5.5:
Other alpha-aryl nitrones / 50:
Results from optical spectra / 1.5.5.1.1.3:
Zirconium, Niobium, Molybdenum, Technetium
Preferential disorder
Other N-t-butyl nitrones / 51:
Crystal field analysis and parameters / 1.5.5.1.2:
Indium
Magnetic order
N-Cyanoisopropyl nitrones / 52:
Summary of references for some results from optical measurements / 1.5.5.1.2.1:
Antimony
Ferromagnetic order / 5.6:
alpha-Methylene and alpha-ethylene N-duryl nitrones / 53:
Spin-lattice relaxation of paramagnetic ions in garnets / 1.5.5.1.2.2:
- 55 Iodine
Antiferromagnetic order
Nitrones derived from sugars / 56:
Cesium / 1.5.5.2:
Bulk magnetic properties
Nitroxides formed by trapping with cyclic nitrones / 57:
Barium / 1.5.5.2.1:
5,5-Dimethyl-1-pyrroline N-oxide / 58:
The dependence of the spin-lattice relaxation time on magnetic field
Lanthanides / 1.5.5.2.2:
Ferromagnets X2MnZ
3,3,5,5-Tetramethyl-1-pyrroline N-oxide / 59:
Thermal properties near the transition temperature
Tantalum / 1.5.5.2.2.1:
X2MnZ with X = 3d element
5-Heptyl-3,3,5-trimethyl-1-pyrroline N-oxide / 60:
Specific heat of rare earth gallium garnets
Rhenium / 1.5.5.2.2.2:
X2MnZ with X = 4d element
5-Hexadecyl-3,3,5-trimethyl-1-pyrroline N-oxide / 61:
Specific heat of two rare earth aluminium garnets
Gold / 1.5.5.2.3:
Antiferromagnets X2MnZ
5-Octadecyl-3,3,5-trimethyl-1-pyrroline N-oxide / 62:
Faraday rotation in paramagnetic non-iron garnets
Mercury / 1.5.5.2.3.1:
4,5,5-Trimethyl-1-pyrroline N-oxide / 63:
Magnetomechanical properties
Bismuth / 1.5.5.2.3.2:
3,5,5-Trimethyl-1-pyrroline N-oxide / 4:
Magnetostriction of rare earth gallates and germanates with a garnet structure
Diagrams of NQR frequencies and related properties / 1.5.5.2.3.3:
X2MnZ with X = 5d element
2,5,5-Trimethyl-1-pyrroline N-oxide / 4.1:
Macroscopic magnetoelastic tensors for paramagnetic rare earth ions in diamagnetic garnet hosts
Ferromagnets X2YZ for Y other than Mn / 1.5.5.2.4:
Other 5,5-dialkyl-1-pyrroline N-oxides / 4.2:
Magnetoacoustic properties
Diagrams / 1.5.5.2.4.1:
Co2YZ with Y = 4A, 5A element
2,2,5,5-Tetramethyl-3-imidazoline N-oxides / 4.3:
Neutron diffraction results near and below the magnetic ordering point
References for chapter 4 / 1.5.5.2.4.2:
Co2YZ with Y = 6A, 7A element
4-Methoxycarbonyl-3,3,5,5-tetra-alkyl-1-pyrroline N-oxide
References
Structure formulas / 1.5.5.2.4.3:
Fe2YZ with X = 6A, 8A element
Methoxycarbonyl-5-phenyl-3,3,5-trimethyl-1-pyrroline N-oxide
Primary references
Fe2FeZ / 1.5.5.2.4.4:
Dialkyl nitroxides
Supplementary references
Index of gross molecular formulas / 1.5.5.2.4.5:
Mn2VZ
Cyclic dialkyl nitroxides
Spinels
Index of substance names / 1.5.5.2.5:
Arrangement
Paramagnets X2YZ with X, Y = 3d element
Aziridinyl 1-oxyls
Index of CAS registry numbers / B.A. Calhoun6.0:
Quaternary alloys
Azetidinyl 1-oxyls
Errata / 1.5.5.2.6.1:
Corrections (See Vol.31B) / 6.7.3:
(XX*)2MnSn with X, X* 3d elements / 6.0.1:
Pyrrolidinyl-1-oxyls
Ni2(YY*)Sn with Y, Y* = 3d elements / 1.5.5.2.6.2:
Pyrrolinyl-1-oxyls
Structure / 1.5.5.2.6.3:
(XX*)2TiSn with X, X* = 3d elements
Imidazolidinyl-1-oxyls
(XX*)2MnSn with X = 3d, X* = 4d element / 1.5.5.2.6.4:
Imidazolinyl-1-oxyls
(XX*)2MnAl with X = 3d, X* = 4d element / 6.1.0:
Imidazolinyl-1-oxyl oxides
Ferrimagnetism; magnetic behaviour of ferrites / 1.5.5.2.6.6:
Pd2Mn (ZZ*) / 6.1.0.1:
Isoindolinyl-oxyls
A-B exchange interaction; magnetization / 1.5.5.2.7:
Clb Intermetallic compounds XYZ / 6.1.0.2:
Oxaindolinyl-oxyls
A-A, B-B exchange interaction; magnetic order / 1.5.5.2.7.1:
Ferromagnets XMnZ with X = 3d element / 6.1.0.3:
Piperidinyl-1-oxyls
Hyperfine interactions (Môssbauer and NMR methods) / 1.5.5.2.7.2:
Ferromagnets XMnZ with X = 4d, 5d element / 6.1.0.4:
Tetrahydropyridinyl-1-oxyls
Anisotropy / 1.5.5.2.7.3:
Ferromagnets - paramagnets XYSb for Y other than Mn / 6.1.0.5:
Diaza- and triaza-cyclohexyl- and -cyclohexenyl-1-oxyls
Ferrimagnetic resonance / 1.5.5.2.7.4:
Antiferromagnets XMnZ with X = 3d, 4d, 5d element / 6.1.0.6:
Oxazinyl-1-oxyls
Accuracy / 1.5.5.2.7.5:
Quaternary alloys (XX*)MnSb with X, X* = 3d, 4d, 5d elements / 6.1.0.7:
1,4 Azaphosphacyclohexyl-1-oxyls
References for 6.0 and 6.1.0 / 1.5.5.2.7.6:
X2-xMnSb with X = 3d, 4d element / 6.1.1:
Azepinyl-1-oxyls and macrocyclic N-oxyls
Neutron diffraction and magnetic order / 1.5.5.3:
Bicyclic nitroxides
Alkyl, aryl and vinyl nitroxides / R.A. Lefever1.5.5.3.1:
Neutron diffraction theory / 1.5.5.3.2:
Aryl, diaryl and divinylnitroxides
Tables and figures / 1.5.5.3.3:
Magnetic and chemical ordering data / 6.1.1.2:
Alkyl imidoyl and nitronyl nitroxides
References for 6.1.1.1 / 1.5.5.3.3.1:
Co2MnZ / 6.1.2:
Acyl nitroxides
Ni2MnZ / 1.5.5.3.3.2:
Amino nitroxides
Pd2MnZ / T.R. McGuire ; E.L. Boyd1.5.5.3.3.3:
Oxy nitroxides
Au2MnZ / 1.5.5.3.3.4:
Thio and sulfonyl nitroxides
Clb compounds XYZ / 1.5.5.3.3.5:
Phospho nitroxides
Polarized neutron measurements on single crystals / 1.5.5.3.4:
Other nitroxides
References for 6.4 - 6.16 / 1.5.5.3.4.1:
X2MnZ for X other than Co / 6.1.2.2:
Zn substituted Ni ferrite / 1.5.5.3.4.2:
FeM3Z / 6.1.2.3:
General symbols and abbreviations
Index of Substances (See Vol.17H) / 1.5.5.3.4.3:
Ni ferrite with Co substitutions
Fe3-xMnxSi / 6.1.2.4:
Dilute Mn and Co substitutions in Ni ferrite and Ni ferrite aluminate / 1.5.5.3.4.4:
Co2YZ with Y = 3d element / 6.1.2.5:
Ge substituted Ni ferrite / 1.5.5.4:
Dynamics / 6.1.2.6:
Ni ferrite chromite / 1.5.5.4.1:
Lattice dynamics / 6.1.2.7:
Ni ferrite vanadate / 1.5.5.4.2:
Phase transitions / 6.1.2.8:
Ni ferrite aluminate / 1.5.5.4.3:
Spin dynamics / 6.1.2.9:
Ni gallate ferrite / 1.5.5.5:
Electrical properties / 6.1.2.10:
References for 6.1.2.0 - 6.1.2.9 / 1.5.5.5.1:
Electrical resistivity / 6.1.3:
Magnetoresistance / 1.5.5.5.2:
Hall effect / R. Vautier ; M. Paulus1.5.5.5.3:
Thermoelectric power / 1.5.5.5.4:
Thermal properties / 1.5.5.6:
Phase equilibria and structure / 1.5.5.6.1:
Specific heat / 6.1.3.1.1:
Phase equilibria / 1.5.5.6.1.1:
Cu2MnZ / 6.1.3.1.2:
Equilibrium oxygen partial pressure / 1.5.5.6.1.2:
Lattice constants / 6.1.3.1.3:
CoTi1-xAlx / 6.1.3.1.4:
Ionic distribution / 1.5.5.6.2:
Superconductivity / 6.1.3.1.5:
Spin arrangement / 1.5.5.7:
Hyperfine fields / 6.1.3.2:
Mössbauer spectra of Sn-doped alloys (119Sn) / 1.5.5.7.1:
Thermal conductivity / 1.5.5.7.2.1:
X2Mnln with X = 1B, 8A element / 6.1.3.2.3:
Thermal expansion / 1.5.5.7.2.2:
X2MnSb, XMnSb with X = 8A element / 6.1.3.2.4:
Diffusion and oxidation coefficients / 1.5.5.7.3:
Mössbauer spectra of Sb-based alloys (121Sb), X2MnSb, XMnSb with X = 1B, 8A element / 6.1.3.2.5:
Ferrite thermodynamics / 1.5.5.7.4:
Mössbauer <$$$> element / 6.1.3.2.6:
Solid crystal growth / 1.5.5.7.5:
D03, compounds Fe3Z / 6.1.3.2.7:
Reactivity and sintering / 1.5.5.7.6:
D03-L21 compounds Fe3-xYxSi with Y = 5A, 7A, 8A element / 6.1.3.3:
Mechanical properties / 1.5.5.7.7:
B2-L21 compounds Mn0.5V0.5-xAlx / 6.1.3.4:
References for 1.5.5 / 1.5.5.8:
Metallic perovskites (PH. L'HÉRITIER, D. FRUCHART, R. MADAR, R. FRUCHART) / 1.5.6:
Magnetoresistance and thermomagnetic effect / 1.5.6.1:
Crystallographic properties of McXMf3 compounds / 6.1.3.4.3:
Seebeck effect / 1.5.6.3:
Magnetic and related data of McXMf3 compounds / 6.1.3.5:
Spontaneous magnetization / 1.5.6.3.1:
McXTi3 / 6.1.3.5.1:
Saturation moment at 0 K / 1.5.6.3.2:
McXCr3 / 6.1.3.5.2:
Magnetization as a function of temperature / 1.5.6.3.3:
McXM3 / 6.1.3.5.3:
Magnetization in the region of the Curie point / 1.5.6.3.4:
McXFe3 / 6.1.3.5.4:
Curie temperatures / 1.5.6.3.5:
McXCo3 / 6.1.3.6:
Magnetocrystalline anisotropy / 1.5.6.3.6:
McXNi3 / 6.1.3.6.1:
Magnetocrystalline anisotropy in Mn ferrite / 1.5.6.4:
References for 1.5.6 / 6.1.3.6.2:
Magnetocrystalline anisotropy in Mn ferrite with substitutions
Alloys and compounds of 4d or 5d elements with main group elements (S. MISAWA, K. KANEMATSU) / 6.1.3.6.3:
Linear magnetostriction / 1.6.1:
Magnetic annealing / 6.1.3.6.4:
Alloys and compounds of Zr / 6.1.3.7:
Domains and domain walls / 1.6.2.1:
ZrHx / 6.1.3.7.1:
Domain wall motion experiments / 1.6.2.2:
ZrCuAl / 6.1.3.7.2:
Domain structure / 1.6.2.3:
ZrZn2 / 6.1.3.8:
Response of magnetization to a field / 1.6.2.4:
Other compounds of Zr / 6.1.3.8.1:
High temperature susceptibility / 1.6.3:
Alloys and compounds of Nb / 6.1.3.8.2:
High field susceptibility in the ferrimagnetic state / 1.6.3.1:
Nb4 hydride / 6.1.3.8.3:
Permeability variation with composition, impurities, irradiation, and grain size / 1.6.3.2:
A15 and sigma-phase alloys of Nb / 6.1.3.8.4:
Permeability vs. temperature / 1.6.3.3:
Nb carbides / 6.1.3.8.5:
Permeability vs. pressure / 1.6.3.4:
Nb nitride / 6.1.3.8.6:
Permeability vs. frequency / 1.6.3.5:
Nb chalcogenides / 6.1.3.8.7:
After-effect, disaccommodation, and viscosity / 1.6.4:
Alloys and compounds of Mo / 6.1.3.9:
Microwave properties / 1.6.4.1:
Mo borides / 6.1.3.9.1:
Resonance line width / 1.6.4.2:
MoAlGe / 6.1.3.9.2:
Spectroscopic splitting factor / 1.6.4.3:
Mo carbides / 6.1.3.10:
Optical properties (absorption) / 1.6.4.4:
Mo chalcogenides / 6.1.3.11:
References for 6.1.3.0 - 6.1.3.10 / 1.6.5:
Compounds of Ru / 6.1.4:
Alloys of Rh / 1.6.6:
Alloys and compounds of Pd / C.J. Kriessman ; A.P. Greifer1.6.7:
Pd hydrides / 1.6.7.1:
Pd-Li and Pd-Na compounds / 1.6.7.2:
fcc alloys of Pd / 1.6.7.3:
MgMn ferrites and MgMn ferrites with substitutions / 1.6.7.4:
Other compounds of Pd / 6.1.4.2.0:
Alloys and compounds of Hf / 1.6.8:
Crystallographic properties, physical properties, phase data, magnetic moments / 1.6.8.1:
Hf hydrides / 6.1.4.2.2:
HfZn2 / 1.6.8.2:
Losses / 1.6.8.3:
Hf carbides / 6.1.4.2.4:
Square-loop properties / 1.6.8.4:
Hf chalcogenides / 6.1.4.2.5:
Alloys and compounds of Ta / 1.6.9:
Other ferrite systems containing Mg / 1.6.9.1:
Ta hydrides / 6.1.4.3.0:
Ta carbides / 1.6.9.2:
Ta chalcogenides / 1.6.9.3:
Alloys and compounds of W / 1.6.10:
W borides / 1.6.10.1:
WP / 6.1.4.3.3:
W chalcogenides / 1.6.10.3:
Alloys and compounds of Re / 1.6.11:
Compounds of Os / 1.6.12:
Alloys and compounds of Pt / 1.6.13:
Pt-Li and Pt-Na compounds / 6.1.4.3.6:
fcc alloys of Pt / 1.6.13.2:
Other systems containing trivalent and higher valency cations / 6.1.4.3.7:
Other compounds of Pt
References for 1.6 / 6.1.4.3.8:
References for 6.1.4.1 - 6.1.4.3 / 6.1.4.4:
Zn, Zn-Fe, Zn-Ti, Zn-Li, Zn-Ti-Li, Zn-Cd, Zn-Mg, Zn-Co, and Zn-Cu ferrites / V.J. Folen6.1.5:
Zn-Ni, Zn-Ni-Ge, and Zn-Ni-Sb ferrites / 6.1.5.2:
References for 6.1.5.1 and 6.1.5.2 / 6.1.5.3:
Li ferrite / 6.1.6:
Li-Cr ferrites / 6.1.6.2:
Li-Zn, Li-Zn-Co, Li-Ti, Li-Zn-Ti, and Li-Zn-Ti-Al-Mn ferrites / 6.1.6.3:
Li-A1, Li-Ga, Li-Cd ferrites and Li-Fe ferrites / 6.1.6.4:
Li-Mn, Li-V, and Li-Ge ferrites / 6.1.6.5:
References for 6.1.6.1 - 6.1.6.5 / 6.1.6.6:
Cu-Zn and Cu-Cd ferrites / 6.1.7:
Cu-Cr ferrites / 6.1.7.3:
Cu-Mg ferrites / 6.1.7.4:
Other ferrites, oxide compounds, and oxide mixtures containing Cu / 6.1.7.5:
References for 6.1.7.1 - 6.1.7.5 / 6.1.7.6:
Co ferrite / 6.1.8:
Co ferrite and Co-Fe mixed oxides / 6.1.8.2:
Co-Zn ferrites / 6.1.8.3:
Co-Cd, Co-Mg, Co-Ni, and Co-Cr ferrites / 6.1.8.4:
References for 6.1.8.1 - 6.1.8.4 / 6.1.8.5:
Cr spinels
Cr oxide-spinels / D. Bonnenberg ; H.P.J. Wijn6.2.1:
Binary Cr oxide-spinels / 6.2.1.1:
Ternary and quarternary Cr oxide-spinels / 6.2.1.2:
References to 6.2.1.1 and 6.2.1.2 / 6.2.1.3:
Cr sulfide, selenide and telluride spinels / G.H. Stauss6.2.2:
Comparison of the crystallographic, electrical, and magnetic properties of Cr spinels containing S, Se and Te / 6.2.2.1:
Cd-Cr selenide spinel / 6.2.2.2:
Cd-Cr selenide spinel with substitutions / 6.2.2.4:
Cd-Cr sulfide spinel and substituted compounds / 6.2.2.5:
Hg-Cr selenide, Hg-Cr sulfide spinels and their substituted compounds / 6.2.2.6:
Cu-Cr S, Se and Te spinels / 6.2.2.7:
Cu-Cr S, Se and Te spinels with substitutions / 6.2.2.8:
Fe-Mn-, Co- and Zn-Cr S and Se spinels and their substituted compounds / 6.2.2.9:
References for 6.2.2.1 - 6.2.2.9 / 6.2.2.10:
Further spinels
V spinels and substituted V spinels / 6.3.1:
Ge spinels and substituted Ge spinels / 6.3.1.1:
Rh spinels and substituted Rh spinels / 6.3.3:
References to 6.3.1 - 6.3.3 / 6.3.4:
Al spinels and substituted Al spinels / 6.3.5:
Ga spinels and substituted Ga spinels / 6.3.6:
In spinels and substituted In spinels / 6.3.7:
References to 6.3.5 - 6.3.7 / 6.3.8:
Co spinels and substituted Co spinels / 6.3.9:
Ni spinels and substituted Ni spinels / 6.3.10:
Te spinels and substituted Te spinels / 6.3.11:
Mn spinels and substituted Mn spinels / 6.3.12:
Ti spinels and substituted Ti spinels / 6.3.13:
References to 6.3.9 - 6.3.13 / 6.3.14:
Mo spinels and substituted Mo spinels / 6.3.15:
W spinels and substituted W spinels / 6.3.16:
Nb spinels and substituted Nb spinels / 6.3.17:
Zr spinels / 6.3.18:
Sb spinels and substituted Sb spinels / 6.3.19:
Sn spinels and substituted Sn spinels / 6.3.20:
Si spinels and substituted Si spinels / 6.3.21:
References to 6.3.15 - 6.3.21 / 6.3.22:
Hexagonal ferrites / 7:
Quantities and units / 7.0:
List of symbols / 7.2:
Chemical compositions and phase diagrams of hexagonal ferrites / 7.3:
Crystal structures / 7.4:
Paramagnetic properties of ferrites with hexagonal crystal structures / 7.5:
M (magnetoplumbite)-type ferrites / 7.6:
Survey of the chemical substitutions in the M structure and room temperature lattice constants / 7.6.1:
Electric and dielectric properties / 7.6.2:
Môssbauer spectra, saturation magnetization, and Curie temperature / 7.6.3:
Magneto-crystalline anisotropy / 7.6.4:
Hysteresis properties / 7.6.6:
High-frequency magnetic properties / 7.6.7:
Magnetic spectrum / 7.6.7.1:
Line width of the ferromagnetic resonance / 7.6.7.2:
W-type ferrites / 7.7:
Survey of chemical substitutions in the W structure / 7.7.1:
Saturation magnetization and Curie temperature / 7.7.2:
Magnetostriction / 7.7.4:
Y-type ferrites / 7.7.7:
Lattice parameters / 7.8.1:
Mössbauer spectra, saturation magnetization, spectroscopic splitting factor, and Curie temperature / 7.8.2:
Magneto-crystalline anisotropy derived from static measurements / 7.8.4:
Magneto-crystalline anisotropy field derived from the ferromagnetic resonance frequency / 7.8.4.2:
Magnetic spectrum of the initial permeability / 7.8.5:
Ferromagnetic resonance properties / 7.8.6.2:
Non-linear effects in the ferromagnetic resonance / 7.8.6.3:
Z-type ferrites / 7.9:
Resistivity / 7.9.1:
U-type ferrites / 7.9.3:
Calcium ferrites / 7.11:
References for 7 / 7.12:
Index of substances for III/4a and III/4b / 8:
Introductory material / Group III:
Title Page, Preface
Condensed Matter / Landolt-Börnstein ; H. Fischer1:
8.

図書
図書
8. Microwave transmission line filters
J. A. G. Malherbe
出版情報: Dedham, Mass. : Artech House, c1979  340 p. ; 24 cm
所蔵情報: loading…
目次情報: 続きを見る
Introduction
Preface
Tem Network Elements / 1:
Richards' Transform / 1.1:
Characteristic Impedance / 1.2:
Coupled Lines / 1.3:
General Network Transforms / 1.4:
An N-Line Network Model / 1.5:
References
Butterworth and Chebyschev Bandstop Filters / 2:
Prototypes and Scaling / 2.1:
Redundant Synthesis using Kuroda's Transform / 2.2:
Bandstop Elements / 2.3:
Coaxial Lines and Round Center Conductors Between Parallel Plates / 2.3.1:
MPC Stripline / 2.3.2:
Machined Stripline with Thick Center Conductors / 2.3.3:
Design Example / 2.4:
Elliptic Function Bandstop Filters / 3:
Digital Elliptic Filters / 3.1:
Prototype and Scaling / 3.1.1:
Dimensions / 3.1.2:
Construction and Bandwidth / 3.1.3:
Redundant Synthesis using the Kuroda-Levy Transform: Parallel and Series Foster Circuits / 3.1.4:
Prototypes / 3.2.1:
Foster Sections Without Unit Elements / 3.2.2:
Foster Sections with Unit Elements / 3.2.3:
Redundant Synthesis using a Noncommensurate Line Approximation / 3.2.5:
A Noncommensurate Transform / 3.3.1:
Noncommensurate Bandstop Filters / 3.3.2:
Microwave Brune Sections / 3.3.3:
Butterworth and Chebyschev Bandpass Filters / 4:
Bandpass Section Properties / 4.1:
Prototypes with Inverters / 4.2:
Shunt Shorted or Series Open Circuit Stub Filters / 4.3:
SCTL Interdigital Filter / 4.4:
Parallel-Coupled Line Filters / 4.5:
OCTL Interdigital Filters / 4.6:
Non-Redundant Interdigital / 4.7:
Combline Filters / 4.8:
Hairpin-Line Filters / 4.9:
Design Examples / 4.10:
Shunt Shorted Stub Filter / 4.10.1:
Combline Filter / 4.10.2:
Hairpin Line Filter / 4.10.4:
Elliptic Function Bandpass Filters / 5:
Digital Elliptic Construction / 5.1:
Interdigital Elliptic Construction / 5.2:
Prototypes for Narrow Bandwidths / 5.3:
Stepped Digital Elliptic Filter / 5.4:
Quarter-Wave Stepped Filter / 5.4.1:
Half-Wave Stepped Filter / 5.4.2:
Design Considerations / 5.4.4:
Narrowband Filters With Stubs / 5.5:
Commensurate Realization / 5.5.1:
Noncommensurate Form / 5.5.2:
Combline Elliptic Filters / 5.6:
Non-Redund ant Filter Synthesis / 6:
Equiripple Responses / 6.1:
Synthesis in the S-Plane / 6.2:
Transfer Functions / 6.2.1:
Synthesis Procedure / 6.2.2:
Synthesis in the Z-Plane / 6.2.3:
Calculation of Necessary Order / 6.3.1:
The Capacitively Loaded Interdigital Filter / 6.4:
Maximally Flat Responses / 6.4.1:
Multiplexers / 7:
Complementary Filters / 7.1:
Admittance Properties / 7.1.1:
Redundant (Exact) Design / 7.1.2:
Non-Redundant Synthesis / 7.1.3:
Approximate Designs / 7.1.4:
Pseudo-Complementary Filters / 7.2:
Chebyschev Response / 7.2.1:
Elliptic Function Response / 7.2.3:
Cascaded Diplexers / 7.2.4:
Direct Multiplexers / 7.3.2:
Multiplexer Example / 7.3.3:
Linear Phase Filters / 8:
Linear Phase Lowpass Prototype / 8.1:
The Periodic Phase Delay/Amplitude Transfer Function Prototype / 8.1.1:
Prototype Obtained by means of the Arbitrary Phase Polynomials / 8.1.2:
Prototype Element Value Synthesis / 8.2:
Physical Realization / 8.3:
Mapping / 8.4:
Physical Dimensions / 8.5:
Periodic Phase Delay Prototype / 8.6:
Arbitrary Phase Polynomial Prototype / 8.6.2:
Filter Analysis / Appendix A:
Collected Equations / Appendix B:
Index
Introduction
Preface
Tem Network Elements / 1:
9.

学位論文
学位
9. 強誘電体AgNa(NO2)2とNaNO2の圧電気と電歪の研究
山口俊久
出版情報: 東京 : 東京工業大学, 1979
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10.

図書
図書
10. The Chemistry of acid derivatives (: set (v. 1) - v. 2, pt. 2)
edited by Saul Patai
出版情報: Chichester [Eng.] ; New York : J. Wiley, 1979-1992  4 v. ; 24 cm
シリーズ名: The Chemistry of functional groups ; supplement B
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