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Diffraction: Theory and Formulas
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Related lectures (30)
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Optical Fiber Modes and Diffraction
Explores optical fiber modes, diffraction phenomena, and field calculations in fibers.
Curve Integrals of Vector Fields
Explores curve integrals of vector fields, emphasizing energy considerations for motion against or with wind, and introduces unit tangent and unit normal vectors.
Green's Theorem: Understanding Rotations and Closed Paths
Explores Green's Theorem, rotations, closed paths, and integral signs.
Green's Functions in Laplace Equations
Covers the concept of Green's functions in Laplace equations and their solution construction process.
Green's Theorem: Applications
Covers the application of Green's Theorem in analyzing vector fields and calculating line integrals.
Curve Integrals: Gauss/Green Theorem
Explores the application of the Gauss/Green theorem to calculate curve integrals along simple closed curves.
Fourier Optics: Wavefront Analysis
Explores Fourier optics, diffraction principles, Fourier analysis, and the application of Fourier transform in optics.
Diffraction: Wave Phenomena and Interference
Explores diffraction phenomena, interference, and resolution limitations in imaging processes due to wave interference.
Vector Calculus: Green's Theorem
Explores Green's theorem, vector field curl, Ampère's law, and magnetic field modeling.
General Physics: Quantum
Covers resolving power, interference, thin layers, diffraction, and Rayleigh criterion.
