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1
Monograph available for loan
Monograph available for loan
Progress in optics; Bd. 3. (1964)
Details Availability
Call number: MOP 45315(3) / Mitte
In: Progress in optics
Description / Table of Contents: Contents: Preface. - CHAPTER I. THE ELEMENTS OF RADIATIVE TRANSFER. - 1. HISTORY OF RADIATIVE TRANSFER. - 2. INTRODUCTION. - 3. FUNDAMENTAL CONCEPTS. - 4. EQUATION OF RADIATIVE TRANSFER. - 5. FORMAL SOLUTION OF THE EQUATION OF RADIATIVE TRANSFER. - 6. SCHWARZSCHILD-MILNE INTEGRAL EQUATION. - 7. SCHUSTER-SCHWARZSCHILD APPROXIMATION. - 8. APPROXIMATE COMPUTATION OF THE SOURCE FUNCTION FROM THE TWO SCHUSTER EQUATIONS. - 9. BOUNDARY CONDITIONS FOR UNIFORMLY DIFFUSE INCIDENCE. - 10. SECOND APPROXIMATION. - 11. DISCUSSION. - 12. SPECIAL CASE: COMPARISON OF THE SCHUSTER-SCHWARZSCHILD APPROXIMATION AND THE EXACT SOLUTION OF THE SCHWARZSCHILD-MILNE EQUATION. - 13. RUSSIAN ANALOGY TO THE SCHUSTER-SCHWARZSCHILD APPROXIMATION. - 14. COLLIMATED INCIDENCE. - 15. BOUNDARY CONDITIONS FOR COLLIMATED INCIDENCE. - 16. FORMAL INTEGRATION FOR COLLIMATED INCIDENCE. - 17. CONCLUDING REMARKS. - REFERENCES. - CHAPTER II. APODISATION. - 1. INTRODUCTION. - 2. CLASSIFICATION OF CASES AND METHODS; 3. RESULTS FOR CERTAIN PUPIL FUNCTIONS T ( x ) OR T ( v ) CHOSEN A PRIOR 1. - 4. GENERAL PROPERTIES OF PUPILS WITH NON-UNIFORM TRANSMISSION T ( x ) OR T ( v ) AND THE ASSOCIATED DIFFRACTION PATTERN A( ) OR A ( p ). - 5. SYSTEMATIC SEARCH FOR PUPIL FUNCTIONS WITH APODISING PROPERTIES. - 6. NUMERICAL RESULTS AND DISCUSSION. - 7. THE APODISATION OF ANTENNA BEAMS. A COMPARISON WITH THE CORRESPONDING OPTICAL PROBLEM. - 8. MISCELLANEOUS PROBLEMS. - 9. PRODUCTION AND APPLICATIONS OF APODISERS. - 10. APODISATION A POSTERIORI (APODISATION BY CONVOLUTION). - APPENDIX A. APODISATION IN CLASSICAL SPECTROSCOPIC DEVICES. - APPENDIX B. APODISATION IN FOURIER TRANSFORM SPECTROSCOPY. - APPENDIX C. APODISATION IN THE CASE OF SISAM. - APPENDIX D. APODISATION IN THE CASE OF THE GIRARD SPECTROMETER. - ACKNOWLEDGEMENT. - REFERENCES. - CHAPTER III. MATRIX TREATMENT OF PARTIAL COHERENCE. - 1. INTRODUCTION. - 2. PRELIMINARY CONSIDERATIONS. - 3. ORTHOGONAL EXPANSIONS FOR WAVE AMPLITUDE. - 4. INTENSITY MATRIX. - 5. TRANSMISSION MATRIX. - 6. DETECTION MATRIX. - 7. PROBABILITY DISTRIBUTION OF WAVE AMPLITUDES AND THERMO- DYNAMIC ENTROPY. - 8. TWO-DIMENSIONAL WAVE FIELD. - 9. POLYCHROMATIC LIGHT. - 10. RELATED SUBJECTS. - ACKNOWLEDGEMENTS. - APPENDICES. - REFERENCES. - AUTHOR INDEX. - SUBJECT INDEX.
Type of Medium: Monograph available for loan
Pages: 340 S.
Location: MOP - must be ordered
Branch Library: GFZ Library
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  • 2
    Monograph available for loan
    Monograph available for loan
    Progress in optics; Bd. 1 (1961)
    Details Availability
    Call number: MOP 45315(1) / Mitte
    In: Progress in optics
    Description / Table of Contents: CONTENTS: PREFACE. - CHAPTER I. THE MODERN DEVELOPMENT OF HAMILTONIAN OPTICS. - 1. INTRODUCTION. - 2. THE CHARACTERISTIC FUNCTIONS. - 3. THE DEPENDENCE OF THE ABERRATIONS UPON OBJECT AND STOP POSITION. - 4. CONCLUSION. - REFERENCES. - CHAPTER II. WAVE OPTICS AND GEOMETRICAL OPTICS IN OPTICAL DESIGN. - 1. INTRODUCTION. - 2. WAVE SURFACE AND CHARACTERISTIC FUNCTION (EIKONAL). - 3. INTENSITY DISTRIBUTION OF LIGHT IN AN OPTICAL IMAGE. - 4. THE RESPONSE FUNCTION. - 5. IMAGE EVALUATION BY SPOT DIAGRAM. - REFERENCES. - CHAPTER III. THE INTENSITY DISTRIBUTION AND TOTAL ILLUMINATION OF ABERRATION-FREE DIFFRACTION IMAGES. - 1. INTRODUCTION. - 2. KIRCHHOFF DIFFRACTION THEORY. - 3. SPECIAL PROBLEMS. - 4. VECTOR DIFFRACTION THEORIES. - REFERENCES. - CHAPTER IV. LIGHT AND INFORMATION. - 1. INTRODUCTION. - 2. GEOMETRICAL OPTICS. - 3. CLASSICAL WAVE OPTICS. - 4. THE PARADOX OF "OBSERVATION WITHOUT ILLUMINATION''. - 5. A FURTHER PARADOX: "A PERPETUUM MOBILE OF THE SECOND KIND". - 6. THE METRICAL INFORMATION IN LIGHT BEAMS. - 7. CONCLUSION. - APPENDICES. - REFERENCES. - CHAPTER V. ON BASIC ANALOGIES AND PRINCIPAL DIFFERENCES BETWEEN OPTICAL AND ELECTRONIC INFORMATION. - 1. INTRODUCTION. - 2. ANALOGIES BETWEEN TRANSMISSION LINES IN ELECTRONICS AND LAYER SYSTEMS IN OPTICS. - 3. ANALOGIES BETWEEN OPTICAL AND HERTZIAN WAVES. - 4. THE PSEUDOANALOGY BETWEEN TIME AND COORDINATE, OR FREQUENCY AND DIRECTION VARIABLE. - REFERENCES. - CHAPTER VI. INTERFERENCE COLOR. - 1. INTRODUCTION. EVALUATION OF COLOR. - 2. INTERFERENCE COLOR OF MONOLAYER. - 3. INTERFERENCE COLOR OF MULTILAYER. - 4. COLOR OF A THIN FILM ON METALLIC SURFACE. - 5. INTERFERENCE COLOR OF CHROMATIC POLARIZATION. - 6. INTERFERENCE COLOR IN OTHER PHENOMENANEW TABLES OF THE INTERFERENCE COLOR. - REFERENCES. - CHAPTER VII. DYNAMIC CHARACTERISTICS OF VISUAL PROCESSES. - 1. INTRODUCTION. - 2. DYNAMIC THEORIES OF VISUAL ACUITY. - 3. INVOLUNTARY MOVEMENTS OF THE EYE. - 4. VISION WITH STABILIZED RETINAL IMAGES. - 5. DISCUSSION ON THE POSSIBLE ROLE OF INVOLUNTARY EYE MOVEMENTS. - 6. DYNAMIC CHARACTERISTICS OF BINOCULAR VISION. - 7. SOME VISUAL EFFECTS PRODUCED BY INTERMITTENT ILLUMINATION. - 8. THE PERCEPTION OF CONTOURS. - REFERENCES. - CHAPTER VIII. MODERN ALIGNMENT DEVICES. - 1. INTRODUCTION. - 2. CUSTOMARY METHODS EMPLOYING COLLIMATORS AND TELESCOPES. - 3. INTERFERENCE ARRANGEMENTS. - 4. DISCUSSION OF THE PRECISION. - 5. THE USE OF REFLECTING SPHERES AND OF SPHERES WITH A CONCENTRIC CAP. - 6. SPHERE WITHOUT REFLECTION, PRODUCING A LUMINOUS "LINE". - 7. SINGLE LENS AS ALIGNMENT COLLIMATOR. - 8. THE USE OF THE RAINBOW. - 9. ALIGNMENT OF SURFACES. - 10. THE AXICON. - 11. ADDITIONAL EXAMPLES. - 12. SOME TECHNICAL REMARKS ON THE MANUFACTURE OF ZONE PLATES. - SUPPLEMENTARY NOTE. - REFERENCES. - AUTHOR INDEX. - SUBJECT INDEX.
    Type of Medium: Monograph available for loan
    Pages: xii, 342 S. : Ill.
    Location: MOP - must be ordered
    Branch Library: GFZ Library
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  • 3
    Monograph available for loan
    Monograph available for loan
    Progress in optics; Bd. 4. (1965)
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    Call number: MOP 45315(4) / Mitte
    In: Progress in optics
    Description / Table of Contents: CONTENTS: CHAPTER I. HIGHER ORDER ABERRATION THEORY. - 1. INTRODUCTION. - 2. MODERN FOKMULATION OF SCHWARZSCHILD'S ABERRATION THEORY. - 3. THE SCHWARZSCHILD-SMITH ABERRATION COEFFICIENTS. - 4. THE INTRINSIC COEFFIClENTS OF A REFRACTING SURFACE. - 5. THE HERZBERGER ABERRATION COEFFICIENTS. - REFERENCES. - CHAPTER II. APPLICATIONS OF SHEARING INTERFEROMETRY. - 1. INTRODUCTION. - 2. EXAMINATION OF OPTICAL COMPONENTS. - 3. STUDIES OF ILLUMINATION PROPERTIES. - 4. EXAMINATION OF LARGE TRANSPARENT OBJECTS. - 5. STUDIES OF PHYSICO-CHEMICAL PHENOMENA IN LIQUIDS. - 6. EXAMINATION OF MICROSCOPIC OBJECTS. - REFERENCES. - CHAPTER III. SURFACE DETERIORATION OF OPTICAL GLASSES. - 1. INTRODUCTION. - 2. SOME OBSERVATIONS ON CORROSION OF GLASS BY SOLUTIONS. - 3. CRYSTALLITES GROWN ON THE GLASS SURFACE. - 4. STRUCTURE AND PROPERTIES OF THE AOYAKE LAYER. - 5. CONCLUSION. - REFERENCES. - CHAPTER IV. OPTICAL CONSTANTS OF THIN FILMS. - 1. OPTICAL CONSTANTS AND STRUCTURE OF TRANSPARENT THIN FILMS. - 2. OPTICAL CONSTANTS OF ABSORBING THIN FILMS. - ACKNOWLEDGEMENT. - REFERENCES. - CHAPTER V. THE MIYAMOTO-WOLF DIFFRACTION WAVE THE HISTORY OF THE DIFFRACTION WAVE SECTION I. THE SCALAR DIFFRACTION THEORY. - 1. THE HELMHOLZ-HUYGENS PRINCIPLE. - 2. DIFFRACTION WAVE FOR AN ARBITRARY INCIDENT WAVE. - 3. THE MIYAMOTO-WOLF DERIVATION OF THE VECTOR POTENTIAL W(P, Q). - 4. SIMPLE DERIVATION OF THE VECTOR POTENTIAL W(P, Q). - 5. VECTOR POTENTIAL W(P, Q) IN CASE WHERE THE SOLUTION U(Q) SATISFIES THE SOMMERFELD CONDITION AT INFINITY. - 6. A GEOMETRIC DERIVATION OF THE VECTOR POTENTIAL W(P, Q). - 7. TWO FURTHER REPRESENTATIONS OF THE VECTOR POTENTIAL W(P, Q). - 8. VECTOR POTENTIALS FOR BOUNDED SPACES. - 9. THE TWO-DIMENSIONAL HELMHOLTZ EQUATION. - 10. PHYSICAL PROPERTIES OF THE VECTOR POTENTIAL W(P, Q) AND OF THE CORRESPONDING DIFFRACTION WAVE. - 11. APPROXIMATE FORMULAE FOR THE VECTOR POTENTIAL W(P, Q). - 12. REFLECTION CONES. - 13. DIFFRACTION WAVE FOR THE SCALAR WAVE EQUATION. - SECTION II. DIFFRACTION THEORY OF ELECTROMAGNETIC AND DIRAC-ELECTRON WAVES. - 1. TENSOR POTENTIALS OF ELECTROMAGNETIC FIELDS DERIVED USING THE LORENTZ-LARMOR PRINCIPLE. - 2. TENSOR POTENTIALS OF THE ELECTROMAGNETIC FIELDS DERIVED FROM KOTTLER'S FORMULATION OF THE HUYGENS PRINCIPLE. - 3. DIFFRACTION WAVE IN THE KIRCHHOFF THEORY OF DIRAC-ELECTRON WAVES. - CONCLUSION. - REFERENCES. - CHAPTER VI. ABERRATION THEORY OF GRATINGS AND GRATING MOUNTINGS. - 1. INTRODUCTION. - 2. ABERRATION TYPES. - 3. FIRST ORDER PROPERTIES OF CONCAVE GRATINGS. - 4. PROPERTIES OF CONCAVE GRATINGS DEPENDENT ON TERMS OF THE FOURTH DEGREE IN THE GRATING COORDINATES. - 5. THE NEWER MOUNTINGS OF THE CONCAVE GRATING. - 6. PLANE GRATING MOUNTINGS. - 7. NON-SPHERICAL GRATINGS AND NON-LINEAR RULINGS. - 8. ABERRATION TOLERANCES. - REFERENCES. - CHAPTER VII. DIFFRACTION AT A BLACK SCREEN PART I: KIRCHHOFF'S THEORY. - 1. INTRODUCTION. - 2. THE FIRST SALTUS PROBLEM. - 3. THE SECOND SALTUS PROBLEM. - 4. CONCLUDING REMARKS. - 5. MATHEMATICAL APPENDIX
    Type of Medium: Monograph available for loan
    Pages: 343 S.
    Location: MOP - must be ordered
    Branch Library: GFZ Library
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  • 4
    Monograph available for loan
    Monograph available for loan
    Progress in optics; Bd. 5. (1966)
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    Call number: MOP 45315(5) / Mitte
    In: Progress in optics
    Description / Table of Contents: CONTENTS: PREFACE. - CHAPTER I. OPTICAL PUMPING. - 1. INTRODUCTION. - 2. PRINCIPLES OF OPTICAL PUMPING. - 3. RESULTS OBTAINED BY OPTICAL PUMPING. - 4. PRACTICAL APPLICATIONS OF OPTICAL PUMPING. - 5. EXTENSIONS OF OPTICAL-PUMPING TECHNIQUES. - REFERENCES. - CHAPTER II. NON-LINEAR OPTICS. - 1. INTRODUCTION. - 2. MAXWELL'S EQUATIONS. - 3. NON-LINEAR SOURCE TERMS. - 4. METHODS FOR SOLVING THE WAVE EQUATION. - 5. EXPERIMENTS. - 6. CONCLUSION. - ACKNOWLEDGMENT. - REFERENCES. - CHAPTER III. TWO-BEAM INTERFEROMENTRY. - 1. INTRODUCTION. - 2. COHERENCE THEORY. - 3. MEASUREMENTS OF AVERAGE PHASE. - 4. MEASUREMENTS OF PHASE VARIATIONS. - 5. INTERFERENCE SPECTROSCOPY. - 6. STUDIES OF SPATIAL DISTRIBUTIONS. - ACKNOWLEDGMENTS. - REFERENCES. - CHAPTER IV. INSTRUMENTS FOR THE MEASURING OF OPTICAL TRANSFER FUNCTIONS. - 1. INTRODUCTION. - 2. SCANNING METHOD WITH OPTICAL FOURIER ANALYSIS. - 3. SCANNING METHOD WITH OPTO-ELECTRIC FOURIER ANALYSIS. - 4. SCANNING METHOD WITH ELECTRIC FOURIER ANALYSIS. - 5. AUTO-CORRELATION METHOD. - 6. CROSS-CORRELATION METHOD. - 7. MEASUREMENT OF OTF AT A CERTAIN SPATIAL FREQUENCY. - 8. CONCLUSION. - ACKNOWLEDGMENT. - REFERENCES. - CHAPTER V. LIGHT REFLECTION FROM FILMS OF CONTINUOUSLY VARYING REFRACTIVE INDEX. - 1. INTRODUCTION. - 2. BASIC THEORY OF ELECTROMAGNETIC WAVES IN STRATIFIED MEDIA. - 3. APPROXIMATE METHODS. - 4. SOME GENERAL THEOREMS CONCERNING STRATIFIED MEDIA. - 5. INFLUENCE OF SMALL INHOMOGENEITIES ON OPTICAL MEASUREMENTS. - 6. STRONGLY INHOMOGENEOUS SINGLE LAYERS. - 7. CONCLUDING REMARKS. - REFERENCES. - CHAPTER VI. X-RAY CRYSTAL-STRUCTURE DETERMINATION AS A BRANCH OF PHYSICAL OPTICS. - 1. GENERAL PRINCIPLES. - 2. OPTICAL ANALOGUE METHODS. - 3. THEORETICAL TREATMENT OF SCATTERING. - 4. THE RELATION BETWEEN THE GEOMETRIES OF THE DIFFRACTION OF LIGHT AND OF X-RAYS. - 5. OPTICAL EQUIVALENCE. - 6. APPARATUS. - 7. PROCEDURE IN USING OPTICAL METHODS. - 8. RELATIONSHIP WITH OTHER METHODS. - 9. INTERPRETATION OF WEIGHTED RECIPROCAL LATTICES. - 10. IMAGE RECOMBINATION. - 11. RECENT DEVELOPMENTS AND FUTURE POSSIBILITIES. - 12. OTHER USES OF THE DIFFRACTOMETER. - 13. CONCLUSIONS. - ACKNOWLEDGMENTS. - APPENDIX: RELATIONSHIP TO BRAGG'S LAW. - REFERENCES. - CHAPTER VII. THE WAVE OF A MOVING CLASSICAL ELECTRON. - 1. THE OSCILLATORY FIELD OF AN ELECTRON IN ITS REST SYSTEM. - 2. THE WAVE OF AN ELECTRON WHlCH IS MOVING AT A CONSTANT VELOCITY. - 3. THE 'SURFACES OF EQUAL AMPLITUDE' AND THE 'RADIATION-DENSITY'. - 4. THE WAVE EQUATION OF THE MOVING ELECTRON. - 5. THE WAVE EQUATION FOR THE INTERIOR OF A MAVING ELECTRON. - 6. THE INHOMOGENEOUS WAVE OF THE ELECTRON REGARDED AS A SUPERPOSITION OF A DOUBLY INFINITE FAMILY OF (INHOMOGENEOUS) PLANE WAVES (WITH PLANE 'SURFACES OF EQUAL AMPLITUDE') AND AS A SUPERPOSITION OF A SINGLY INFINITE FAMILY OF HEAD-WAVES. - 7. THE WAVE OF A MOVING ELECTRON REGARDED AS A SUPERPOSITION OF 'WAVE-GROUPS', OR OF 3 'PLANE WAVES' OF CONSTANT AMPLITUDE, BUT OF DIFFERENT FREQUENCIES
    Type of Medium: Monograph available for loan
    Pages: XII, 383 S.
    Location: MOP - must be ordered
    Branch Library: GFZ Library
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