How does a confocal microscope work
... explanation not too technical, although for certain parts I've included some details for people who know more optics. If you like this web page, it would be great if you'd consider citing our article: ...
... explanation not too technical, although for certain parts I've included some details for people who know more optics. If you like this web page, it would be great if you'd consider citing our article: ...
Fourier Optics Laboratory Manual - McGill Undergraduate Physics Lab
... The Fourier transform has an inverse, which maps a transformed function back to its initial value. That is, if A0 (νx , νy ) = F[A(x, y)], then A(x, y) = F −1 [A0 (νx , νy )]. The optical system presented on figure 7 performs both of these tasks. Show that it true by experimenting with the slide of ...
... The Fourier transform has an inverse, which maps a transformed function back to its initial value. That is, if A0 (νx , νy ) = F[A(x, y)], then A(x, y) = F −1 [A0 (νx , νy )]. The optical system presented on figure 7 performs both of these tasks. Show that it true by experimenting with the slide of ...
Extraordinary optical transmission through subwavelength holes Dye-Zone A. Chen
... sides of the film just before the PMLs were recorded. Then, the Poynting power fluxes were calculated from the discrete Fourier transforms of the fields. However, this power then needs to be normalized to the incident flux. Thus, the simulation was repeated with vacuum only in the computational cell ...
... sides of the film just before the PMLs were recorded. Then, the Poynting power fluxes were calculated from the discrete Fourier transforms of the fields. However, this power then needs to be normalized to the incident flux. Thus, the simulation was repeated with vacuum only in the computational cell ...
on the dynamics of radiation - International Mathematical Union
... The subject of this title is coextensive with the whole range of the physics of imponderable agencies. For if it is correct to say with Maxwell that all radiation is an electrodynamic phenomenon, it is equally correct to say with him that all electrodynamic relations between material bodies are esta ...
... The subject of this title is coextensive with the whole range of the physics of imponderable agencies. For if it is correct to say with Maxwell that all radiation is an electrodynamic phenomenon, it is equally correct to say with him that all electrodynamic relations between material bodies are esta ...
Physics - SC1117 Topic Lesson Objectives Demonstrate scientific
... Use ray diagrams to find the position of an image produced by a converging or diverging lens, and identify the image as real or virtual. Solve problems using the thin-lens equation. Calculate the magnification of lenses. Describe the positioning of lenses in compound microscopes and refracting teles ...
... Use ray diagrams to find the position of an image produced by a converging or diverging lens, and identify the image as real or virtual. Solve problems using the thin-lens equation. Calculate the magnification of lenses. Describe the positioning of lenses in compound microscopes and refracting teles ...
Baffle Design and Analysis of Stray-light in Multispectral Camera of
... The baffle is a mechanical system, whose function is to shield the light coming from sources outside the field of view (FOV) of the camera. The light outside the angular view of the system must execute multiple number of reflections on its surfaces, minimizing the intensity of the light that effecti ...
... The baffle is a mechanical system, whose function is to shield the light coming from sources outside the field of view (FOV) of the camera. The light outside the angular view of the system must execute multiple number of reflections on its surfaces, minimizing the intensity of the light that effecti ...
Controllable Optical Phase Shift Over One Radian from a Single
... Optical phase shifts are commonly observed from all materials, and generally originate from the delayed response of electrons to an applied light field. In principle, large phase shifts persist down to the single-atom level. As the frequency of light is tuned through atomic resonance, semiclassical ...
... Optical phase shifts are commonly observed from all materials, and generally originate from the delayed response of electrons to an applied light field. In principle, large phase shifts persist down to the single-atom level. As the frequency of light is tuned through atomic resonance, semiclassical ...
![[SSM] True or false: (a) Maxwell`s equations apply only to electric](http://s1.studyres.com/store/data/009585648_1-6e1ce010e283e25854fc5472a07dfa21-300x300.png)
Document
... • The lens produces at its focal plane the Fraunhofer diffraction pattern of the transparency • When the transparency is placed exactly one focal distance behind the lens (i.e., z=f ), the Fourier transform relationship is exact. ...
... • The lens produces at its focal plane the Fraunhofer diffraction pattern of the transparency • When the transparency is placed exactly one focal distance behind the lens (i.e., z=f ), the Fourier transform relationship is exact. ...
Simple Harmonic Motion
... Measuring Simple Harmonic Motion Objectives Identify the amplitude of vibration Recognize the relationship between period and frequency Calculate the period and frequency of an object vibrating with simple harmonic motion ...
... Measuring Simple Harmonic Motion Objectives Identify the amplitude of vibration Recognize the relationship between period and frequency Calculate the period and frequency of an object vibrating with simple harmonic motion ...
Thomas Young (scientist)
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Thomas Young (13 June 1773 – 10 May 1829) was an English polymath and physician. Young made notable scientific contributions to the fields of vision, light, solid mechanics, energy, physiology, language, musical harmony, and Egyptology. He ""made a number of original and insightful innovations""in the decipherment of Egyptian hieroglyphs (specifically the Rosetta Stone) before Jean-François Champollion eventually expanded on his work. He was mentioned by, among others, William Herschel, Hermann von Helmholtz, James Clerk Maxwell, and Albert Einstein. Young has been described as ""The Last Man Who Knew Everything"".