Spin-2 particles in gravitational fields
... In a recent paper, Shen [1] has extended Mashhoon’s spin-rotation coupling [2, 3] to include the coupling of a graviton’s spin to a weak gravitomagnetic field and has stressed the role of the self-interaction of the gravitational field itself. Ramos and Mashhoon [4] have then studied the effect of t ...
... In a recent paper, Shen [1] has extended Mashhoon’s spin-rotation coupling [2, 3] to include the coupling of a graviton’s spin to a weak gravitomagnetic field and has stressed the role of the self-interaction of the gravitational field itself. Ramos and Mashhoon [4] have then studied the effect of t ...
Achieving the ultimate optical resolution
... resolution is fundamentally determined by diffraction, which smears out the spatial distribution of light so point sources map onto finite spots at the image plane. This information is aptly encompassed by the point-spread function (PSF) [2]. The diffraction limit was deemed an unbreakable rule, nic ...
... resolution is fundamentally determined by diffraction, which smears out the spatial distribution of light so point sources map onto finite spots at the image plane. This information is aptly encompassed by the point-spread function (PSF) [2]. The diffraction limit was deemed an unbreakable rule, nic ...
EPR, reuscitate cat
... If we just have the simple system with simple Sz measurements described above, then we can’t prove that the electrons were ever in a superposition state maybe they were just 100% spin-up and 100% spin down all along like classical statistics. We need a more complicated system to prove that this ...
... If we just have the simple system with simple Sz measurements described above, then we can’t prove that the electrons were ever in a superposition state maybe they were just 100% spin-up and 100% spin down all along like classical statistics. We need a more complicated system to prove that this ...
Operator Imprecision and Scaling of Shor’s Algorithm
... the quantum state of the system that realizes the computation (decoherence), and (2) imprecision of the physical operations that are carried out to implement the computational algorithm [1, 2]. Errors due to environmental disturbances have been the main focus of analysis in the quantum computing lit ...
... the quantum state of the system that realizes the computation (decoherence), and (2) imprecision of the physical operations that are carried out to implement the computational algorithm [1, 2]. Errors due to environmental disturbances have been the main focus of analysis in the quantum computing lit ...
The Physical Implementation of Quantum Computation David P. DiVincenzo
... third, fourth, etc., levels, the computer’s control apparatus should be designed so that the probability of the system ever going into these states is small. The smallness of this and other parameters will be determined by the capabilities of quantum error correction, which will be discussed under r ...
... third, fourth, etc., levels, the computer’s control apparatus should be designed so that the probability of the system ever going into these states is small. The smallness of this and other parameters will be determined by the capabilities of quantum error correction, which will be discussed under r ...
Chapter 5 The Wavelike - UCF College of Sciences
... The result is the same as the result in optics for the reflection of light at normal incidence from the boundary between two media having different indexes of refraction n. The probability of transmission T, called the transmission coefficient, can be calculated from the reflection coefficient, sinc ...
... The result is the same as the result in optics for the reflection of light at normal incidence from the boundary between two media having different indexes of refraction n. The probability of transmission T, called the transmission coefficient, can be calculated from the reflection coefficient, sinc ...
Neutrons Hologram
... The intriguing interplay between collective and single-particle excitations in an exotic nucleus Nuclear reactions are among the most important processes that drive our Universe. In our Sun nuclear fusion provides the energy for the sun to radiate. In more violent cosmic events neutron capture react ...
... The intriguing interplay between collective and single-particle excitations in an exotic nucleus Nuclear reactions are among the most important processes that drive our Universe. In our Sun nuclear fusion provides the energy for the sun to radiate. In more violent cosmic events neutron capture react ...
Quantum Teleportation
... exact copy rather than an approximate facsimile, and it would destroy the original in the process of scanning it. The teleportation technique makes use of quantum entanglemant. Clouds of trillions of atoms have for the first time being linked by quantum entanglement that spooky almost telepathic lin ...
... exact copy rather than an approximate facsimile, and it would destroy the original in the process of scanning it. The teleportation technique makes use of quantum entanglemant. Clouds of trillions of atoms have for the first time being linked by quantum entanglement that spooky almost telepathic lin ...
Zitterbewegung and the Electron - Scientific Research Publishing
... toroidal frequency turns out to be equal to twice the De Broglie frequency, and the quadratic sum of the two frequencies is constant and equals twice the frequency of the “free” photon that has the same energy as the “entity”. Thus, the model implies that a certain way of localization of a photon in ...
... toroidal frequency turns out to be equal to twice the De Broglie frequency, and the quadratic sum of the two frequencies is constant and equals twice the frequency of the “free” photon that has the same energy as the “entity”. Thus, the model implies that a certain way of localization of a photon in ...
Document
... Pauli Exclusion Principle does not allow two electrons to have the same quantum numbers Each orbital is defined by quantum numbers nℓm and can have two electrons since ms = ±½ (spin up or spin down). This explains why electrons are in the energy levels they are and explains the periodic table of the ...
... Pauli Exclusion Principle does not allow two electrons to have the same quantum numbers Each orbital is defined by quantum numbers nℓm and can have two electrons since ms = ±½ (spin up or spin down). This explains why electrons are in the energy levels they are and explains the periodic table of the ...
Calculated Electron Dynamics in a Strong Electric Field V 77, N 20
... detection of electron wave packets [1–11] in atoms. In these experiments, the electronic wave function has nontrivial time dependence giving atomic processes in the time domain. However, in order to make wave packets at all, most of these studies were for simple systems. Nevertheless the study of el ...
... detection of electron wave packets [1–11] in atoms. In these experiments, the electronic wave function has nontrivial time dependence giving atomic processes in the time domain. However, in order to make wave packets at all, most of these studies were for simple systems. Nevertheless the study of el ...
Magnetic Order in Kondo-Lattice Systems due to Electron-Electron Interactions
... is the hyperfine coupling of the electron spin with the surrounding disordered nuclear spins [1]. If we want to control and eventually eliminate this source of decoherence, it is essential to fully understand the behavior of both the electron spin and the ensemble of nuclear spins. In this text we d ...
... is the hyperfine coupling of the electron spin with the surrounding disordered nuclear spins [1]. If we want to control and eventually eliminate this source of decoherence, it is essential to fully understand the behavior of both the electron spin and the ensemble of nuclear spins. In this text we d ...
Solution of the Radial Schrödinger Equation for
... have raised a great deal of interest in the relativistic as well as in the non-relativistic quantum mechanics. The exact solution of the wave equations (relativistic or nonrelativistic) are very important since the wave function contains all the necessary information regarding the quantum system und ...
... have raised a great deal of interest in the relativistic as well as in the non-relativistic quantum mechanics. The exact solution of the wave equations (relativistic or nonrelativistic) are very important since the wave function contains all the necessary information regarding the quantum system und ...