localization of light - University of Toronto Physics
... vacuum wavelength of light or the wavelength in an effective-medium theory for scattering, it follows that extended states are expected at both high and low frequencies. For strong scattering, however, there arises the distinct possibility, depicted in figure 3, of localization within a narrow frequ ...
... vacuum wavelength of light or the wavelength in an effective-medium theory for scattering, it follows that extended states are expected at both high and low frequencies. For strong scattering, however, there arises the distinct possibility, depicted in figure 3, of localization within a narrow frequ ...
Chapter 7. Plane Electromagnetic Waves and Wave Propagation
... All ordinary matters are composed of electrons and nuclei. The bound electrons can be treated as harmonic oscillators. For generality we make it a damped harmonic oscillator. When an EM wave is present, the oscillator is driven by the electric field of the wave. The response of the medium is obtaine ...
... All ordinary matters are composed of electrons and nuclei. The bound electrons can be treated as harmonic oscillators. For generality we make it a damped harmonic oscillator. When an EM wave is present, the oscillator is driven by the electric field of the wave. The response of the medium is obtaine ...
Matter-Wave Interferometer for Large Molecules
... gravitational acceleration component in the interferometer plane, which is on the order of 1023 g, can be measured within a short integration time. In conclusion, we have demonstrated for the first time an interferometer for massive molecules that are internally in a highly excited thermal state. Th ...
... gravitational acceleration component in the interferometer plane, which is on the order of 1023 g, can be measured within a short integration time. In conclusion, we have demonstrated for the first time an interferometer for massive molecules that are internally in a highly excited thermal state. Th ...
The Search for Unity: Notes for a History of Quantum Field Theory
... equal to the frequency of the mode times Planck's constant. One of the products of the new quantum mechanics of 1925-1926 was a confirmation of it was proved that the energies of a simple oscillator, Planck's proposal: like a violin string, were indeed quantized, in just the way that Planck had gues ...
... equal to the frequency of the mode times Planck's constant. One of the products of the new quantum mechanics of 1925-1926 was a confirmation of it was proved that the energies of a simple oscillator, Planck's proposal: like a violin string, were indeed quantized, in just the way that Planck had gues ...
quantum brownian motion and the third law of thermodynamics
... guarantees that states of thermal equilibrium exist which can be characterized by a temperature T . The first law provides a balance among the various contributions that make up the internal energy of a system while the second law introduces the concept of thermodynamic entropy S, which notably is e ...
... guarantees that states of thermal equilibrium exist which can be characterized by a temperature T . The first law provides a balance among the various contributions that make up the internal energy of a system while the second law introduces the concept of thermodynamic entropy S, which notably is e ...
Some Basic Aspects of Fractional Quantum Numbers
... of the field. Thus renormalization of charge reflects modification of the means to measure it, rather than of properties of the carriers. This is the physical content of ...
... of the field. Thus renormalization of charge reflects modification of the means to measure it, rather than of properties of the carriers. This is the physical content of ...
Towards quantum template matching
... other tend to have similar values, while pixels far from each other tend to be less correlated. This implies that Corr[g, f ](y) should have larger (than zero) values for y near a. Figure 3 shows that this is indeed the case for the template and image of Figures 1 and 2; the maximum occurs at the ti ...
... other tend to have similar values, while pixels far from each other tend to be less correlated. This implies that Corr[g, f ](y) should have larger (than zero) values for y near a. Figure 3 shows that this is indeed the case for the template and image of Figures 1 and 2; the maximum occurs at the ti ...
The Harmonic neutron Hypothesis: Derivation of planck
... physics models, Planck time is important because it simultaneously relates different forces that are not presently unified. One of the main challenges of theoretical physics today is the unification of subatomic, quantum, relativistic, classical, electroweak, and gravitational phenomena. The goal of ...
... physics models, Planck time is important because it simultaneously relates different forces that are not presently unified. One of the main challenges of theoretical physics today is the unification of subatomic, quantum, relativistic, classical, electroweak, and gravitational phenomena. The goal of ...
Future Directions in Quantum Information
... use of quantum effects in metrology will be the injection of squeezed vacuum into nextgeneration LIGO, which has the potential to increase the sensitivity of gravitational wave detection by more than an order of magnitude. The workshop will map out the upcoming developments of quantum sensing and me ...
... use of quantum effects in metrology will be the injection of squeezed vacuum into nextgeneration LIGO, which has the potential to increase the sensitivity of gravitational wave detection by more than an order of magnitude. The workshop will map out the upcoming developments of quantum sensing and me ...
Information Processing with Quantum Gravity
... geometry is non-fixed. In a non-fixed causality structure, the sequence of time steps has no interpretable meaning. In our macroscopic world, events and processes are distinguishable in time and, thus, causally separable because the space-time geometry has a deterministic causality structure [1-4]. ...
... geometry is non-fixed. In a non-fixed causality structure, the sequence of time steps has no interpretable meaning. In our macroscopic world, events and processes are distinguishable in time and, thus, causally separable because the space-time geometry has a deterministic causality structure [1-4]. ...
Light interference from single atoms and their mirror images
... but it can be eliminated in the observed interference signal by making the aperture of L2 smaller than that of L1. We checked that an extra aperture stop in front of L2 did not increase the contrast. In the simple model just presented we have not made use of the particular feature of this experiment ...
... but it can be eliminated in the observed interference signal by making the aperture of L2 smaller than that of L1. We checked that an extra aperture stop in front of L2 did not increase the contrast. In the simple model just presented we have not made use of the particular feature of this experiment ...
The uncertainty relations in quantum mechanics
... disappearance of the interference pattern due to welcherweg/which-state detection (‘complementarity’) in interference experiments, which has traditionally been inadequately explained in terms of position–momentum uncertainty relation. The quantum interference effect is much more general than the cla ...
... disappearance of the interference pattern due to welcherweg/which-state detection (‘complementarity’) in interference experiments, which has traditionally been inadequately explained in terms of position–momentum uncertainty relation. The quantum interference effect is much more general than the cla ...
bohr`s semiclassical model of the black hole
... This model was to be radically changed with the later Rutherford-Bohr model, but both had one remarkable feature in common: the path an electron traced while moving inside the fluid, or around the nucleus, was the same geometrical figure, an ellipse, despite the fact that electron experiences radica ...
... This model was to be radically changed with the later Rutherford-Bohr model, but both had one remarkable feature in common: the path an electron traced while moving inside the fluid, or around the nucleus, was the same geometrical figure, an ellipse, despite the fact that electron experiences radica ...
Bohr–Einstein debates
The Bohr–Einstein debates were a series of public disputes about quantum mechanics between Albert Einstein and Niels Bohr. Their debates are remembered because of their importance to the philosophy of science. An account of the debates was written by Bohr in an article titled ""Discussions with Einsteinon Epistemological Problems in Atomic Physics"". Despite their differences of opinion regarding quantum mechanics, Bohr and Einstein had a mutual admiration that was to last the rest of their lives.The debates represent one of the highest points of scientific research in the first half of the twentieth century because it called attention to an element of quantum theory, quantum non-locality, which is absolutely central to our modern understanding of the physical world. The consensus view of professional physicists has been that Bohr proved victorious, and definitively established the fundamental probabilistic character of quantum measurement.