QB abstracts compiled 160613
... Conway and Kochen’s free will theorem states that if experimenters have free will in the sense that their choices are not a function of the past, so must some elementary particles. The free will theorem goes beyond Bell’s theorem as it connects the two fundamental resources behind quantum technol ...
... Conway and Kochen’s free will theorem states that if experimenters have free will in the sense that their choices are not a function of the past, so must some elementary particles. The free will theorem goes beyond Bell’s theorem as it connects the two fundamental resources behind quantum technol ...
references - StealthSkater
... Boyer began by tackling the problems that led to the introduction of Quantum Theory in the first place such as the blackbody radiation curve and the photoelectric effect. One-by-one, the known quantum results were reproduced by this upstart neoclassical approach now generally referred to as Stochast ...
... Boyer began by tackling the problems that led to the introduction of Quantum Theory in the first place such as the blackbody radiation curve and the photoelectric effect. One-by-one, the known quantum results were reproduced by this upstart neoclassical approach now generally referred to as Stochast ...
Heisenberg`s Uncertainty Principle is Dead
... I have already shown how this “uncertainty” creeps in to all macro measurements. I showed it in my analysis of the historical measurement of the speed of light from Mt. Wilson to Mt. Baldy.* And I showed it most recently in my analysis of the “neutrinos” going from Switzerland to Italy in the Great ...
... I have already shown how this “uncertainty” creeps in to all macro measurements. I showed it in my analysis of the historical measurement of the speed of light from Mt. Wilson to Mt. Baldy.* And I showed it most recently in my analysis of the “neutrinos” going from Switzerland to Italy in the Great ...
A quantum teleportation inspired algorithm produces sentence
... Arguably, when such a radically new concept emerges in a novel foundational area of scientific investigation, one may expect that the resulting conceptual and structural insights could also lead to progress in other areas, something which has happened on many occasions in the history of physics. In ...
... Arguably, when such a radically new concept emerges in a novel foundational area of scientific investigation, one may expect that the resulting conceptual and structural insights could also lead to progress in other areas, something which has happened on many occasions in the history of physics. In ...
A Quantum Explanation of Sheldrake`s Morphic Resonance
... epoch-making discovery in 1964 by the theorist John Bell [7]. Bell showed that the introduction of hidden variables into Quantum Mmechanics (i.e., a resolution of the quantum measurement problem suggested by many physicists) conflicts with the locality principle of material realism -- that influence ...
... epoch-making discovery in 1964 by the theorist John Bell [7]. Bell showed that the introduction of hidden variables into Quantum Mmechanics (i.e., a resolution of the quantum measurement problem suggested by many physicists) conflicts with the locality principle of material realism -- that influence ...
Topological Quantum Computing
... In typical quantum computers there is the problem of decoherence of states. Decoherence of a state is when the qubit state interacts with the environment and the two become entangled. As a precise measurement of the environment is not possible, the information which is coupled to the environment is ...
... In typical quantum computers there is the problem of decoherence of states. Decoherence of a state is when the qubit state interacts with the environment and the two become entangled. As a precise measurement of the environment is not possible, the information which is coupled to the environment is ...
Paradox in Wave-Particle Duality
... radial distance from the center of the pattern, x is the position along the horizontal axis, and a and b are constants.(25) Near the center of the interference pattern the term that contains the Bessel function is nearly 1, and the cos2 (bx) term is the dominant factor in the formula. By expanding t ...
... radial distance from the center of the pattern, x is the position along the horizontal axis, and a and b are constants.(25) Near the center of the interference pattern the term that contains the Bessel function is nearly 1, and the cos2 (bx) term is the dominant factor in the formula. By expanding t ...
Quintet pairing and non-Abelian vortex string in spin-3/2 cold atomic... Congjun Wu, Jiangping Hu, and Shou-Cheng Zhang
... playground to study high symmetries which do not appear in usual condensed matter systems. Three of us have shown that spin-3/2 fermionic systems with contact interactions, which can be realized by atoms such as 132 Cs, ...
... playground to study high symmetries which do not appear in usual condensed matter systems. Three of us have shown that spin-3/2 fermionic systems with contact interactions, which can be realized by atoms such as 132 Cs, ...
Rational Quantum Physics R. N. Boyd, Ph. D., USA “There is good
... both on an irregular basis, and in terms of periodic variations. Some of these data records show variations in the speed of light as large as 3000 meters per second, well outside of the margin for error of the measurement apparatus, and the experiment as a whole. (Speed of light measurements have h ...
... both on an irregular basis, and in terms of periodic variations. Some of these data records show variations in the speed of light as large as 3000 meters per second, well outside of the margin for error of the measurement apparatus, and the experiment as a whole. (Speed of light measurements have h ...
Introduction to Atomic Physics Lab Report
... number n: The energy increases for larger n. The fine structure removes some of this degeneracy: According to this, the energy also depends on the the total angular momentum j. Again the energy increases with the total angular momentum. If the spin of the nucleus is taken into account, the energy be ...
... number n: The energy increases for larger n. The fine structure removes some of this degeneracy: According to this, the energy also depends on the the total angular momentum j. Again the energy increases with the total angular momentum. If the spin of the nucleus is taken into account, the energy be ...
here. - psychicQuesting.com
... obtain, on the average, higher results than those who do not believe in it. ...
... obtain, on the average, higher results than those who do not believe in it. ...
How Albert Einstein invented entanglement despite his intention
... considered to be an instantaneous ‘action at a distance’. For Einstein such an instantaneousity was impossible because it violated the limitation of the constant speed of light c, fundamental for his theories of relativity. Therefore he called quantum entanglement derogatively a ‘spooky action at a ...
... considered to be an instantaneous ‘action at a distance’. For Einstein such an instantaneousity was impossible because it violated the limitation of the constant speed of light c, fundamental for his theories of relativity. Therefore he called quantum entanglement derogatively a ‘spooky action at a ...
Spin filling of valley-orbit states in a silicon quantum dot
... ground-state magnetospectroscopy measurements. The formation of a two-electron (N = 2) spin-singlet state at low magnetic fields confirms that there is no valley degeneracy present, while the magnetic field dependence of the higher-order Coulomb peaks allows us to deduce the level structure for the ...
... ground-state magnetospectroscopy measurements. The formation of a two-electron (N = 2) spin-singlet state at low magnetic fields confirms that there is no valley degeneracy present, while the magnetic field dependence of the higher-order Coulomb peaks allows us to deduce the level structure for the ...
Bell's theorem
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Bell's theorem is a ‘no-go theorem’ that draws an important distinction between quantum mechanics (QM) and the world as described by classical mechanics. This theorem is named after John Stewart Bell.In its simplest form, Bell's theorem states:Cornell solid-state physicist David Mermin has described the appraisals of the importance of Bell's theorem in the physics community as ranging from ""indifference"" to ""wild extravagance"". Lawrence Berkeley particle physicist Henry Stapp declared: ""Bell's theorem is the most profound discovery of science.""Bell's theorem rules out local hidden variables as a viable explanation of quantum mechanics (though it still leaves the door open for non-local hidden variables). Bell concluded:Bell summarized one of the least popular ways to address the theorem, superdeterminism, in a 1985 BBC Radio interview: