Observation of the Poisson Spot Abstract

Observation of the Poisson Spot Abstract

Observation of the Poisson Spot Abstract The first-time observation of Poisson’s (or Arago’s) spot in 1818 constituted one of the most relevant experiments in the history of optics, helping discard the (at the time) favoured position of attributing a corpuscular nature to light. When Fresnel presented his theory of diffraction before the French Academy of Sciences, Poisson, a member of the committee, scoffed at the fact that Fresnel’s approach predicted a bright spot in the shadow of a circular obstacle placed in the way of a beam of light. And sure enough, as fellow committee member Arago demonstrated, this spot could be observed experimentally. 2 www.LightTrans.com Modeling Task opaque obstacle Geometrical optics predicts only darkness in the geometric (100 mm) d = 100 mm shadow of the obstacle. Physical optics, however, considers diffraction from the edges of the obstacle… collimated beam (wavelength l = 532 nm) Condition of observation 3 Observation of the Poisson spot opaque obstacle (100 mm) d = 100 mm D =2mm collimated beam (wavelength l = 532 nm) It is only diffraction from the edges what permits light to travel to the geometric shadow of the obstacle! 4 Observation of the Poisson spot opaque obstacle (100 mm) d = 100 mm D =2mm Poisson spot collimated beam (wavelength l = 532 nm) It is only diffraction from the edges what permits light to travel to the geometric shadow of the obstacle! 5 Evolution of Diffraction Pattern and Appearance of the Spot … D=100um – 2.1mm Previous result D=2mm 6 Evolution of Diffraction Pattern and Appearance of the Spot … D = 100 um – 2.1 mm 7 Peek into VirtualLab Fusion Generate animation to better investigate the effect of a third independent variable Parameter Run to investigate evolution of diffraction pattern with screen position 8 Workflow in VirtualLab Fusion • Configure the Camera Detector − Usage of Camera Detector [Use Case] • Set up the Parameter Run − Usage of the Parameter Run document [Use Case] • Create the animation − Animation generation with Par. Run [Use Case] VirtualLab Fusion Technologies nonlinear free crystals & components space prisms, anisotropic plates, components cubes, ... 1 waveguides lenses & & fibers freeforms apertures & scatterer Field 2 boundaries 1 2 1 Solver diffusers gratings diffractive diffractive, beam Fresnel, meta splitters lenses SLM & micro lens & HOE, CGH, adaptive freeform DOE components arrays # idealized component 10 Document Information title Observation of the Poisson Spot document code MISC.0072 version 1.0 toolbox(es) Starter Toolbox VL version used for 7.5.0.158 simulations category Application Use Case further reading - Advanced PSF & MTF Calculation for System with Rectangular Aperture 11 www.LightTrans.com.

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