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- Herausgeber: Simone Malacrida
- Kategorie: Wissenschaft und neue Technologien
- Sprache: Englisch
The following basic physics topics are presented in this book:
geometrical optics
diffractive optics
hints of nonlinear optics
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Veröffentlichungsjahr: 2022
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Table of Contents
"Introduction to Optics”
INTRODUCTION
BASIC GEOMETRIC OPTICS
ADVANCED GEOMETRIC OPTICS
DIFFRACTIVE AND NON-LINEAR OPTICS
"Introduction to Optics”
SIMONE MALACRIDA
The following basic physics topics are presented in this book:
geometrical optics
diffractive optics
hints of nonlinear optics
––––––––
Simone Malacrida (1977)
Engineer and writer, has worked on research, finance, energy policy and industrial plants.
ANALYTICAL INDEX
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INTRODUCTION
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I – BASIC GEOMETRIC OPTICS
Introduction
Laws of refraction and reflection
Diffraction
Interference
Lenses and mirrors
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II – ADVANCED GEOMETRIC OPTICS
Matrix description
Dispersion
Optical effects
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III – DIFFRACTIVE AND NON-LINEAR OPTICS
Diffractive optics: introduction
Diffractive optics: definition of wave phenomena
Fundamentals of nonlinear optics
Final note on the nature of light
INTRODUCTION
In this book the main physical questions concerning optics are presented.
The study of this discipline began systematically in the seventeenth century by developing the so-called geometric optics.
The evolution of the different optical systems, such as lenses, mirrors, telescopes and telescopes, has allowed a vast application of this scientific sector.
Some mathematical formalisms, such as that of matrix notation, have become fundamental for the study of this subject.
In addition to this, the discovery of the electromagnetic field has given optics a new, and more intriguing, position within modern and contemporary science.
Visible light is nothing but an electromagnetic wave and, therefore, the same characteristics of the electromagnetic field gave birth to diffractive optics.
This evolution has led to highly respectable application developments.
Together with the introduction of quantum physics and the quantum treatment of matter, diffractive optics has allowed the conception, and subsequent design, of LEDs, lasers and all those interface devices between electronics and optics.
Finally, we must not forget the numerous non-linear effects which explain many physical phenomena and which find wide application in today's world.
What is set out in this manual is only partially addressed in secondary schools (generally only the part relating to basic geometric optics).
Therefore this manual is prefigured as a preparation for university courses in pure optics, certainly more in-depth in terms of theory and exercises.
I
