Waves
... The same is true for light. All the different colors of light travel at the same speed, even though all the different colors of light have different frequencies and wavelengths. In our second wave lab, you varied the frequency of the wave travelling through the string. This did not change the speed ...
... The same is true for light. All the different colors of light travel at the same speed, even though all the different colors of light have different frequencies and wavelengths. In our second wave lab, you varied the frequency of the wave travelling through the string. This did not change the speed ...
The orbital angular momentum of plasmons caught on video
... The lower spiral had a significantly shorter wavelength (180 nm) than its counterpart on the top (780 nm) and was the focus of CENIDE physicist Prof. Frank Meyer zu Heringdorf’s team from the University of Duisburg-Essen. The small size of the spiral open ...
... The lower spiral had a significantly shorter wavelength (180 nm) than its counterpart on the top (780 nm) and was the focus of CENIDE physicist Prof. Frank Meyer zu Heringdorf’s team from the University of Duisburg-Essen. The small size of the spiral open ...
Measurement of the 4Pi-confocal point spread function proves 75
... point. The intensity in the focal region is distributed around the focal point forming a focal volume, which is described by the point spread function (PSF). The extent of the PSF determines the resolution in a far-field microscope.r When no aberrations are present the PSF is determined only by the ...
... point. The intensity in the focal region is distributed around the focal point forming a focal volume, which is described by the point spread function (PSF). The extent of the PSF determines the resolution in a far-field microscope.r When no aberrations are present the PSF is determined only by the ...
Role of Color Interference on the Insect`s Cuticle Coloration
... reflectance of an object and its surroundings, as well as the spectral receptor types and further neural processing in the animal in question. Thus the same object might appear differently colored to different viewing organisms. Insects are master chemists whose virtuosity is particularly evident in ...
... reflectance of an object and its surroundings, as well as the spectral receptor types and further neural processing in the animal in question. Thus the same object might appear differently colored to different viewing organisms. Insects are master chemists whose virtuosity is particularly evident in ...
![Interference [Hecht Ch. 9] Lai if necessary. 1](http://s1.studyres.com/store/data/008906620_1-e32cf5aa2b6001dad68c61a07bbf9975-300x300.png)
FIB – an easy tool for fabrication of high quality plasmonic structures
... promising solution in subwavelength optics and lithography beyond the diffraction limit. They also find their applications in photonic data storage, light generation, and bio-photonics. SPPs cannot be excited directly by incident electromagnetic radiation. One of the possible ways for their excitati ...
... promising solution in subwavelength optics and lithography beyond the diffraction limit. They also find their applications in photonic data storage, light generation, and bio-photonics. SPPs cannot be excited directly by incident electromagnetic radiation. One of the possible ways for their excitati ...
Physics 30 - Structured Independent Learning
... Polarization of light can most easily be explained by assuming that light is a A. ...
... Polarization of light can most easily be explained by assuming that light is a A. ...
Optics I
... Natural light is randomly polarized. We can mathematically represent natural light in terms of two arbitrary, incoherent, orthogonal, linearly polarized waves of equal amplitude (i.e., waves for which the relative phase difference varies rapidly and randomly). ...
... Natural light is randomly polarized. We can mathematically represent natural light in terms of two arbitrary, incoherent, orthogonal, linearly polarized waves of equal amplitude (i.e., waves for which the relative phase difference varies rapidly and randomly). ...
Standard 1
... spontaneously splits itself into a slightly lighter nucleus and a very light helium nucleus. P.2.10 Describe how later, Austrian and German scientists showed that when uranium is struck by neutrons, it splits into two nearly equal parts plus two or three extra neutrons. Note that Lise Meitner, an Au ...
... spontaneously splits itself into a slightly lighter nucleus and a very light helium nucleus. P.2.10 Describe how later, Austrian and German scientists showed that when uranium is struck by neutrons, it splits into two nearly equal parts plus two or three extra neutrons. Note that Lise Meitner, an Au ...
QOLECTURE4
... • by setting |c1|2 = N1/N0 and |c2|2 = N2/N0 we would obtain the same results as for repeated measurements on a gas of N0 particles in the superposition state • what, then, is the difference? • each of the particles in the superposition state is in some sense simultaneously in the |1> and |2> states ...
... • by setting |c1|2 = N1/N0 and |c2|2 = N2/N0 we would obtain the same results as for repeated measurements on a gas of N0 particles in the superposition state • what, then, is the difference? • each of the particles in the superposition state is in some sense simultaneously in the |1> and |2> states ...
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"".