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Progress in optics Volume 4 /
Progress in Optics Volume 4.
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Amsterdam :
North-Holland Pub. Co.,
1965.
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| Colección: | Progress in Optics.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Cover; Progress in Optics, Volume IV; Copyright Page; PREFACE; TOCCONTENTS; CHCHAPTER 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; CHCHAPTER 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 LIQUIDS6. EXAMINATION OF MICROSCOPIC OBJECTS; REFERENCES; CHCHAPTER 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; CHCHAPTER 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 WAVESECTION 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 WAVE11. 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
- CHCHAPTER VI. ABERRATION THEORY OF GRATINGS AND GRATING MOUNTINGS1. 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; CHCHAPTER 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