Search this site
Skip to main content
Skip to navigation
Fundamentals of Techniques in Microscopys I
Home
Main Webpage
Syllabus and Lecture Notes
CONTEMPORARY OPTICAL RECHNOLOGIES
PART - I ELEMENTARY DESCRIPTION OF WAVES
I-1 LIGHT: WAVE or PARTICLE?
I-2 The wave Equation, Phasors, Wave Packets, Interference, Diffraction
I-3 The Origin of the INDEX of Refraction
PART - II RAYS AND OPTICAL BEAMS
II-1 OPTICS and the VARIATIONAL PRINCIPLE
II-2 REFRACTION at ASPHERICAL SURFACES
II-3 REFRACTION AT SPHERICAL SURFACES
II-4 ABERRATIONS
II-5 DESIGN OF OPTICAL INSTRUMENTS
PART - III Light as a Wave - Propagation in Birefringent Material
III-1 PROPAGATION OF GAUSSIAN BEAMS
III-2 PROPAGATION OF PLANE WAVES IN A BIREFRINGENT MATERIA
III-3 FOURIER ANALYSIS
PART - IV ELECTROMAGNETIC FIELD AND WAVES
III-1 THE MAXWELL EQUATIONS AND ELECTROMAGNETIC WAVES
III-2 LIGHT PROPAGATION IN NON - MAGNETIC MATERIALS
III-3 REFLECTION AND REFRACTION AT a DIELECTRIC / DIELECTRIC PLANE INTERFAC
III-4 SURFACE PLASMON POLARITONS AT a METAL / DIELECTRIC INTERFACE
PART - V INTERACTION OF RADIATION AND ATOMIC SYSTEM
V-1 QUANTUM STATISTICS for PHOTONS AND FERMIONS
V-2 SEMICONDUCTOR MATERIALS Band - gap, chemical potential
V-3 CLASSICAL VIEW of LIGHT
V-4 EINSTEIN'S LAW OF RADIATION: THE QUANTUM VIEW OF LIGHT
V-5 OPTOELECTRONIC DEVICES: LASER DIODE
Ray Tracing Transfer Matrix
Project
Homework
Fundamentals of Techniques in Microscopys I
Home
Main Webpage
Syllabus and Lecture Notes
CONTEMPORARY OPTICAL RECHNOLOGIES
PART - I ELEMENTARY DESCRIPTION OF WAVES
I-1 LIGHT: WAVE or PARTICLE?
I-2 The wave Equation, Phasors, Wave Packets, Interference, Diffraction
I-3 The Origin of the INDEX of Refraction
PART - II RAYS AND OPTICAL BEAMS
II-1 OPTICS and the VARIATIONAL PRINCIPLE
II-2 REFRACTION at ASPHERICAL SURFACES
II-3 REFRACTION AT SPHERICAL SURFACES
II-4 ABERRATIONS
II-5 DESIGN OF OPTICAL INSTRUMENTS
PART - III Light as a Wave - Propagation in Birefringent Material
III-1 PROPAGATION OF GAUSSIAN BEAMS
III-2 PROPAGATION OF PLANE WAVES IN A BIREFRINGENT MATERIA
III-3 FOURIER ANALYSIS
PART - IV ELECTROMAGNETIC FIELD AND WAVES
III-1 THE MAXWELL EQUATIONS AND ELECTROMAGNETIC WAVES
III-2 LIGHT PROPAGATION IN NON - MAGNETIC MATERIALS
III-3 REFLECTION AND REFRACTION AT a DIELECTRIC / DIELECTRIC PLANE INTERFAC
III-4 SURFACE PLASMON POLARITONS AT a METAL / DIELECTRIC INTERFACE
PART - V INTERACTION OF RADIATION AND ATOMIC SYSTEM
V-1 QUANTUM STATISTICS for PHOTONS AND FERMIONS
V-2 SEMICONDUCTOR MATERIALS Band - gap, chemical potential
V-3 CLASSICAL VIEW of LIGHT
V-4 EINSTEIN'S LAW OF RADIATION: THE QUANTUM VIEW OF LIGHT
V-5 OPTOELECTRONIC DEVICES: LASER DIODE
Ray Tracing Transfer Matrix
Project
Homework
More
Home
Main Webpage
Syllabus and Lecture Notes
CONTEMPORARY OPTICAL RECHNOLOGIES
PART - I ELEMENTARY DESCRIPTION OF WAVES
I-1 LIGHT: WAVE or PARTICLE?
I-2 The wave Equation, Phasors, Wave Packets, Interference, Diffraction
I-3 The Origin of the INDEX of Refraction
PART - II RAYS AND OPTICAL BEAMS
II-1 OPTICS and the VARIATIONAL PRINCIPLE
II-2 REFRACTION at ASPHERICAL SURFACES
II-3 REFRACTION AT SPHERICAL SURFACES
II-4 ABERRATIONS
II-5 DESIGN OF OPTICAL INSTRUMENTS
PART - III Light as a Wave - Propagation in Birefringent Material
III-1 PROPAGATION OF GAUSSIAN BEAMS
III-2 PROPAGATION OF PLANE WAVES IN A BIREFRINGENT MATERIA
III-3 FOURIER ANALYSIS
PART - IV ELECTROMAGNETIC FIELD AND WAVES
III-1 THE MAXWELL EQUATIONS AND ELECTROMAGNETIC WAVES
III-2 LIGHT PROPAGATION IN NON - MAGNETIC MATERIALS
III-3 REFLECTION AND REFRACTION AT a DIELECTRIC / DIELECTRIC PLANE INTERFAC
III-4 SURFACE PLASMON POLARITONS AT a METAL / DIELECTRIC INTERFACE
PART - V INTERACTION OF RADIATION AND ATOMIC SYSTEM
V-1 QUANTUM STATISTICS for PHOTONS AND FERMIONS
V-2 SEMICONDUCTOR MATERIALS Band - gap, chemical potential
V-3 CLASSICAL VIEW of LIGHT
V-4 EINSTEIN'S LAW OF RADIATION: THE QUANTUM VIEW OF LIGHT
V-5 OPTOELECTRONIC DEVICES: LASER DIODE
Ray Tracing Transfer Matrix
Project
Homework
IV-2 SEMICONDUCTOR MATERIALS Band - gap, chemical potential
Report abuse
Page details
Page updated
Report abuse
