Packard Poster-2 - Northwestern University Mesoscopic Physics
... mechanically entangled exhibit novel behavior that violates many of our classical intuitions. The exploitation of entangled quantum objects is at the heart of a number of recently developed subfields in physics – quantum computation, quantum cryptography, quantum information, etc. Perhaps the simple ...
... mechanically entangled exhibit novel behavior that violates many of our classical intuitions. The exploitation of entangled quantum objects is at the heart of a number of recently developed subfields in physics – quantum computation, quantum cryptography, quantum information, etc. Perhaps the simple ...
Quantum interference of large organic molecules
... their nominal masses. Although all samples were well characterized before the evaporation process, we can therefore not exclude some contamination with adducts or fragments in this high mass range. But even if there were a relative mass spread of 10%, this would only influence the wavelength distrib ...
... their nominal masses. Although all samples were well characterized before the evaporation process, we can therefore not exclude some contamination with adducts or fragments in this high mass range. But even if there were a relative mass spread of 10%, this would only influence the wavelength distrib ...
Generalized Quantum Measurement
... We work within the standard formulation of orthodox (non-relativistic) quantum mechanics,5 wherein the states of a quantum system S are identified with (described by) complex unit vectors |ψ) that live in a complex inner-product space (Hilbert space) HS . For expository convenience, I restrict my ex ...
... We work within the standard formulation of orthodox (non-relativistic) quantum mechanics,5 wherein the states of a quantum system S are identified with (described by) complex unit vectors |ψ) that live in a complex inner-product space (Hilbert space) HS . For expository convenience, I restrict my ex ...
What is Probability? - General Guide To Personal and Societies
... What is probability? Physicists, mathematicians, and philosophers have been engaged with this question since well before the rise of modern physics. But in quantum mechanics, where probabilities are associated only with measurements, the question strikes to the heart of other foundational problems: ...
... What is probability? Physicists, mathematicians, and philosophers have been engaged with this question since well before the rise of modern physics. But in quantum mechanics, where probabilities are associated only with measurements, the question strikes to the heart of other foundational problems: ...
Resonant tunnelling through a single level with non-collinear magnetizations
... to peaks in differential conductance, as shown in Fig. 1b for the same situations as in Fig. 1a. The peaks in external magnetic field (solid line) are spin-split and their amplitude becomes smaller compared to that for Δ Z = 0 (dashed line). This splitting is a consequence of the Zeeman splitting of ...
... to peaks in differential conductance, as shown in Fig. 1b for the same situations as in Fig. 1a. The peaks in external magnetic field (solid line) are spin-split and their amplitude becomes smaller compared to that for Δ Z = 0 (dashed line). This splitting is a consequence of the Zeeman splitting of ...
document
... Gross, Wilczek, and Politzer found that the very fact that SU(3) is non-Abelian leads to a very curious property: The strength of the force grows as the quarks get farther apart. Two quarks on opposite sides of the universe would contain an all-but-infinte amount of energy in the Strong-Interaction ...
... Gross, Wilczek, and Politzer found that the very fact that SU(3) is non-Abelian leads to a very curious property: The strength of the force grows as the quarks get farther apart. Two quarks on opposite sides of the universe would contain an all-but-infinte amount of energy in the Strong-Interaction ...
URL - StealthSkater
... using quantum measurement theory. It seems, however, that Quantum Theory is not enough and feedback loop to past allowing to observer to affect the quantum system generating random number. In TGD framework, intentional action based on negative energy signal to Geometric-Past would be a rough manner ...
... using quantum measurement theory. It seems, however, that Quantum Theory is not enough and feedback loop to past allowing to observer to affect the quantum system generating random number. In TGD framework, intentional action based on negative energy signal to Geometric-Past would be a rough manner ...
Two attempts to understand Psychokinesis(PK)
... using quantum measurement theory. It seems, however, that Quantum Theory is not enough and feedback loop to past allowing to observer to affect the quantum system generating random number. In TGD framework, intentional action based on negative energy signal to Geometric-Past would be a rough manner ...
... using quantum measurement theory. It seems, however, that Quantum Theory is not enough and feedback loop to past allowing to observer to affect the quantum system generating random number. In TGD framework, intentional action based on negative energy signal to Geometric-Past would be a rough manner ...
ij - Scientific Research Publishing
... Review of the irreversibility problem in modern physics with new researches is given. Some characteristics of the Markov chains are specified and the important property of monotonicity of a probability is formulated. Using one thin inequality, the behavior of relative entropy in the classical case i ...
... Review of the irreversibility problem in modern physics with new researches is given. Some characteristics of the Markov chains are specified and the important property of monotonicity of a probability is formulated. Using one thin inequality, the behavior of relative entropy in the classical case i ...
Hidden Variables and Nonlocality in Quantum Mechanics
... Bell’s strong arguments in favor of the idea. Many are convinced either that it is impossible to interpret quantum theory in this way, or that such an interpretation would actually be irrelevant. There are essentially two reasons behind such doubts. The first concerns certain mathematical theorems ( ...
... Bell’s strong arguments in favor of the idea. Many are convinced either that it is impossible to interpret quantum theory in this way, or that such an interpretation would actually be irrelevant. There are essentially two reasons behind such doubts. The first concerns certain mathematical theorems ( ...
A little Big Bang
... 40K and 41K, two isotopes of potassium that differ by a mere neutron, but which behave so differently because of their bosonic and fermionic nature. We now encounter a puzzle: if fermions cannot condense into one and the same state, but condensation and superfluidity are intrinsically linked, how ca ...
... 40K and 41K, two isotopes of potassium that differ by a mere neutron, but which behave so differently because of their bosonic and fermionic nature. We now encounter a puzzle: if fermions cannot condense into one and the same state, but condensation and superfluidity are intrinsically linked, how ca ...
The 2005 Nobel Prize in Physics: Optics
... was developed in a systematic manner largely by Emil Wolf. After the invention of intensity interferometry by Hanbury Brown and Twiss in 1956, it became clear that it was necessary to go beyond the two-point amplitude correlation function (adequate to describe Young-type interference phenomena) to h ...
... was developed in a systematic manner largely by Emil Wolf. After the invention of intensity interferometry by Hanbury Brown and Twiss in 1956, it became clear that it was necessary to go beyond the two-point amplitude correlation function (adequate to describe Young-type interference phenomena) to h ...
PDF only - at www.arxiv.org.
... phenomena. Bell's analysis was nearly ignored for years, but many who became aware of it thought this seemingly far-fetched prediction must be wrong, implying quantum theory itself needed revising. John Clauser (1972) was one who thought this. However, his own exp ...
... phenomena. Bell's analysis was nearly ignored for years, but many who became aware of it thought this seemingly far-fetched prediction must be wrong, implying quantum theory itself needed revising. John Clauser (1972) was one who thought this. However, his own exp ...
Synchronistic Phenomena as Entanglement
... a message of vital relevance for the persons involved and that they usually occur in situations of high emotional tension and receptivity for the meaning of such messages. In view of the above mentioned failure of reliable production and reproduction of paranormal phenomena, rather than doggedly ins ...
... a message of vital relevance for the persons involved and that they usually occur in situations of high emotional tension and receptivity for the meaning of such messages. In view of the above mentioned failure of reliable production and reproduction of paranormal phenomena, rather than doggedly ins ...
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: