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Autore: | Nakajima Hiroshi |
Titolo: | Optical design using excel : practical calculations for laser optical systems / / Hiroshi Nakajima |
Pubblicazione: | Singapore : , : Wiley, , 2015 |
©2015 | |
Descrizione fisica: | 1 online resource (333 p.) |
Disciplina: | 621.3660151 |
Soggetto topico: | Lasers - Mathematical models |
Optics - Mathematical models | |
Note generali: | Description based upon print version of record. |
Nota di bibliografia: | Includes bibliographical references at the end of each chapters and index. |
Nota di contenuto: | Cover; Title Page; Copyright; Contents; About the Author; Preface; Chapter 1 Geometrical Optics; 1.1 Characteristics of Lasers; 1.2 The Three Fundamental Characteristics of Light Which Form the Basis of Geometrical Optics; 1.2.1 Light Rays Travel in Straight Lines; 1.2.2 Light Rays Act Independently of One Another; 1.2.3 Reflection of Light Rays; 1.2.4 Refraction of Light Rays; 1.3 Fermat's Principle; 1.3.1 Rectilinear Propagation; 1.3.2 Reflection; 1.3.3 Refraction; 1.3.4 An Ideal Imaging System Using Lenses; 1.4 Principle of Reversibility; 1.5 Paraxial Theory Using Thin Lenses |
1.5.1 Equation of a Spherical Lens Surface1.5.2 Wave Front Radii of Incident Rays versus Rays Refracted by a Convex Lens; 1.5.3 The Refractive Power of a Lens and the Thin Lens Equations; 1.5.4 Imaging Equations for a Lens; 1.5.5 Simple Lenses; 1.5.6 The Focal Lengths and Principal Points of a Two-Lens Combination; 1.6 The Five Seidel Aberrations; 1.6.1 Monochromatic Aberration: A Brief Outline; 1.6.2 Ray Aberration; 1.7 The Sine Condition; 1.7.1 The Abbe Sine Condition; 1.7.2 The Sine Condition for an Off-Axis Object and Its Off-Axis Image; 1.8 Aplanatic Lenses | |
1.9 Reflection and Transmission1.9.1 Angles of Reflection and Refraction; 1.9.2 Amplitude Reflection and Transmission Coefficients; 1.9.3 Reflectance and Transmittance; References; Chapter 2 Examples of Simple Optical Design Using Paraxial Theory; 2.1 Types of Lenses; 2.1.1 Plano-Convex Lens and Plano-Concave Lens; 2.1.2 Biconvex Lens; 2.1.3 Meniscus Lens; 2.1.4 Cylindrical Lens; 2.1.5 Achromatic Lens; 2.1.6 Aspheric Lens; 2.1.7 Microscope Objective Lens; 2.1.8 Camera Lens; 2.1.9 f-θ Lens; 2.1.10 Fresnel Lens; 2.1.11 Rod Lens; 2.2 Applied Calculations for Simple Optical Systems | |
2.3 Considerations Relating to the Design of Laser Optical Systems2.3.1 Design Safety; 2.3.2 Polarization; 2.3.3 Antireflection Coatings; 2.3.4 Problems Caused by Interference of Light; 2.3.5 Mirrors; 2.3.6 Considerations Relating to a Combination of Cylindrical Lenses; 2.3.7 Reducing or Eliminating Stray Rays; 2.3.8 Mechanical Requirements of Optical Systems; Chapter 3 Ray Tracing Applications of Paraxial Theory; 3.1 Deriving the Equations for Ray Tracing Using Paraxial Theory; 3.2 Problems of Ray Tracing Calculations Using Paraxial Theory; Chapter 4 Two-Dimensional Ray Tracing | |
4.5.1 Calculate the Coordinates of the Virtual Object and Its Virtual Image for an Aberration-Free Lens | |
Sommario/riassunto: | A practical introductory guide to optical design covering geometrical optics, simple wave-optics and diffraction, using Excel software explains practical calculation methods for designing optical systems with fully worked-out examples and avoiding complex mathematical methods includes practical calculations for ray tracing, laser beam (Gaussian beam) focusing, and diffraction calculations; the ray tracing and the diffraction calculations are done by using the VBA program which Excel provides as a supporting tool describes basic optical theory and application methods, and provides readers with |
Titolo autorizzato: | Optical design using excel |
ISBN: | 1-118-93913-1 |
1-118-93915-8 | |
Formato: | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione: | Inglese |
Record Nr.: | 9910808634503321 |
Lo trovi qui: | Univ. Federico II |
Opac: | Controlla la disponibilitĂ qui |