Brief Biography of names i
... Peter Beamish, biophysicist; PhD Maintains through study of cognitive dynamics of whales, that time is a phenomenon of mind. His laboratory has been intensely involved with temporal concepts since the discovery in the early 1990's that cetacean (and now other nonhuman) concepts of time seem differen ...
... Peter Beamish, biophysicist; PhD Maintains through study of cognitive dynamics of whales, that time is a phenomenon of mind. His laboratory has been intensely involved with temporal concepts since the discovery in the early 1990's that cetacean (and now other nonhuman) concepts of time seem differen ...
Mechanisms of imprint
... Equation 共5兲 was derived by borrowing the law of mass action from semiconductor physics;16 we will here give a further justification to the application of this law for ferroelectric materials that are more or less insulators. We will also illustrate that Eq. 共5兲 is reducible to the well-known Mott’s ...
... Equation 共5兲 was derived by borrowing the law of mass action from semiconductor physics;16 we will here give a further justification to the application of this law for ferroelectric materials that are more or less insulators. We will also illustrate that Eq. 共5兲 is reducible to the well-known Mott’s ...
Optical Autocorrelation using Non-Linearity in a Simple Photodiode
... As can be seen, the second term in the expansion is just the intensity autocorrelation. The first integral term is a constant. The third term is the slightly modified version of the field autocorrelation introduced earlier. And the last term is the interferogram of the 2nd harmonic of E(t), i.e. int ...
... As can be seen, the second term in the expansion is just the intensity autocorrelation. The first integral term is a constant. The third term is the slightly modified version of the field autocorrelation introduced earlier. And the last term is the interferogram of the 2nd harmonic of E(t), i.e. int ...
Control of extraordinary light transmission through perforated T E
... Abstract. We calculate the effective dielectric tensor of a metal film penetrated by cylindrical holes filled with a nematic liquid crystal (NLC). We assume that the director of the NLC is parallel to the film, and that its direction within the plane can be controlled by a static magnetic field, via the ...
... Abstract. We calculate the effective dielectric tensor of a metal film penetrated by cylindrical holes filled with a nematic liquid crystal (NLC). We assume that the director of the NLC is parallel to the film, and that its direction within the plane can be controlled by a static magnetic field, via the ...
Canonical and singular propagation of ultrashort pulses in a
... equation) derived by Kolesik and Moloney [6] directly from Maxwell’s equations using a Fourier decomposition of the electromagnetic fields can be reduced by asymptotic analysis to an equation for the dominant electric field in which all wavelength (short, μm) scales have been removed, essentially by ...
... equation) derived by Kolesik and Moloney [6] directly from Maxwell’s equations using a Fourier decomposition of the electromagnetic fields can be reduced by asymptotic analysis to an equation for the dominant electric field in which all wavelength (short, μm) scales have been removed, essentially by ...
Lecture Note No. 3 Reflection and Refraction (Sections 4.3 to 4.8)
... REFLECTION: Back-scattered E-M wavelets based on the non-resonant ground level vibration by a thin layer (~/2) of unpaired atomic oscillators near the surface, i.e., bounced portion of the ongoing beam (see Fig. 4-15). ...
... REFLECTION: Back-scattered E-M wavelets based on the non-resonant ground level vibration by a thin layer (~/2) of unpaired atomic oscillators near the surface, i.e., bounced portion of the ongoing beam (see Fig. 4-15). ...
A Model for the Universe (6) -
... First, however, a brief survey of the subject in the terms of traditional 20th Century physics is needed. ...
... First, however, a brief survey of the subject in the terms of traditional 20th Century physics is needed. ...
VCE Physics Study Design
... Physics seeks to understand and explain the physical world. It examines models and ideas used to make sense of the world and which are sometimes challenged as new knowledge develops. By looking at the way matter and energy interact through observations, measurements and experiments, physicists gain ...
... Physics seeks to understand and explain the physical world. It examines models and ideas used to make sense of the world and which are sometimes challenged as new knowledge develops. By looking at the way matter and energy interact through observations, measurements and experiments, physicists gain ...
Physics 1291 General Physics I Lab
... described in the lectures. Whenever possible, the material will have been discussed in lecture before you come to the laboratory. But some of the material, like the first experiment on measurement and errors, is not discussed at length in the lecture. Other exceptions will be the three experiments o ...
... described in the lectures. Whenever possible, the material will have been discussed in lecture before you come to the laboratory. But some of the material, like the first experiment on measurement and errors, is not discussed at length in the lecture. Other exceptions will be the three experiments o ...
Experimental approach to transverse wave
... falls onto a homogeneous state and the above sequence is repeated. We note that, when two-dimensional patterns are allowed, phase domains (closed domain walls) are generic for this system at positive detunings [19]. In order to test law (1) both the transverse wave-number k⬜ and the cavity detuning ...
... falls onto a homogeneous state and the above sequence is repeated. We note that, when two-dimensional patterns are allowed, phase domains (closed domain walls) are generic for this system at positive detunings [19]. In order to test law (1) both the transverse wave-number k⬜ and the cavity detuning ...
to Thin Section Microscopy - Mineralogical Society of America
... indispensable, mineralogical methods of analysis. Polarized-light microscopy provides a nondestructive way to identify solid substances (whether crystalline or amorphous) with relatively high spatial resolution, while the phases can be studied within their textural framework. It allows an estimate o ...
... indispensable, mineralogical methods of analysis. Polarized-light microscopy provides a nondestructive way to identify solid substances (whether crystalline or amorphous) with relatively high spatial resolution, while the phases can be studied within their textural framework. It allows an estimate o ...
Boundless Study Slides
... • reflection the property of a propagated wave being thrown back from a surface (such as a mirror) • refraction Changing of a light ray's direction when it passes through variations in matter. • resolution The degree of fineness with which an image can be recorded or produced, often expressed as the ...
... • reflection the property of a propagated wave being thrown back from a surface (such as a mirror) • refraction Changing of a light ray's direction when it passes through variations in matter. • resolution The degree of fineness with which an image can be recorded or produced, often expressed as the ...
Diffracting fractals: new paradigms in linear wave physics
... the same random phases are used in each pane. Red line: pattern from plane wave illumination. Future Applications of Fractal Light In terms of future experimental prospects, this work has greatly widened the scope for potential realization and exploitation of fractal light sources. For example, spat ...
... the same random phases are used in each pane. Red line: pattern from plane wave illumination. Future Applications of Fractal Light In terms of future experimental prospects, this work has greatly widened the scope for potential realization and exploitation of fractal light sources. For example, spat ...
Classical Electrodynamics - Duke Physics
... In this way the text can be used by students all over the world, where each student can pay (or not) according to their means. Nevertheless, I am hoping that students who truly find this work useful will purchase either the PDF download or the current paper snapshot, if only to help subsidize me whi ...
... In this way the text can be used by students all over the world, where each student can pay (or not) according to their means. Nevertheless, I am hoping that students who truly find this work useful will purchase either the PDF download or the current paper snapshot, if only to help subsidize me whi ...
PHYSICS - Text Books
... courses, students take up Physics as one of the subjects. To provide them sufficient background to meet the challenges of academic and professional streams, the Physics textbook for Std. XI has been reformed, updated and designed to include basic information on all topics. Each chapter starts with a ...
... courses, students take up Physics as one of the subjects. To provide them sufficient background to meet the challenges of academic and professional streams, the Physics textbook for Std. XI has been reformed, updated and designed to include basic information on all topics. Each chapter starts with a ...
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"".