Слайд 1 - QUARKS
... • Lorentzian Wormhole is a region in spacetime in which 3-dim space-like sections have non-trivial topology. • By non-trivial topology we mean that these sections are not simply connected • In the simplest case a WH has two mouths which join different regions of the space-time. • We can also imagine ...
... • Lorentzian Wormhole is a region in spacetime in which 3-dim space-like sections have non-trivial topology. • By non-trivial topology we mean that these sections are not simply connected • In the simplest case a WH has two mouths which join different regions of the space-time. • We can also imagine ...
Quantum gravity without gravitons in a superfluid quantum space.
... This hypothesis starts from considering the physical vacuum as a super uid quantum medium, that we call super uid quantum space (SQS), close to the previous concepts of quantum vacuum, quantum foam, super uid vacuum etc.[1, 2, 3] We usually believe that quantum vacuum is populated by an enormous amo ...
... This hypothesis starts from considering the physical vacuum as a super uid quantum medium, that we call super uid quantum space (SQS), close to the previous concepts of quantum vacuum, quantum foam, super uid vacuum etc.[1, 2, 3] We usually believe that quantum vacuum is populated by an enormous amo ...
H local
... Hlocal is influenced by all local fields; the field effect of the bonding electrons results in the chemical shift, a relatively small perturbation Hlocal is induced by the external field and depends on its magnitude ...
... Hlocal is influenced by all local fields; the field effect of the bonding electrons results in the chemical shift, a relatively small perturbation Hlocal is induced by the external field and depends on its magnitude ...
Superstring Theory
... developed, everybody assumed quantum mechanics was correct and designed string theory to observe the quantum rules. • Bars and Rychkov work out how to build string theory without any quantum restrictions in a simplified version of string theory, specifically a version when the strings are “open” (no ...
... developed, everybody assumed quantum mechanics was correct and designed string theory to observe the quantum rules. • Bars and Rychkov work out how to build string theory without any quantum restrictions in a simplified version of string theory, specifically a version when the strings are “open” (no ...
Classical statistical distributions can violate Bell`s - Philsci
... The core of the theorem takes the form of inequalities involving average values of two-particle observables. Bell showed that these inequalities must be satisfied by any theory containing additional local hidden variables. But as is well-known, quantum mechanical expectation values can violate the i ...
... The core of the theorem takes the form of inequalities involving average values of two-particle observables. Bell showed that these inequalities must be satisfied by any theory containing additional local hidden variables. But as is well-known, quantum mechanical expectation values can violate the i ...
The Standard Model of Electroweak Interactions
... interactions is given by the same coupling gs which appears in the fermionic piece of the Lagrangian. In spite of the rich physics contained in it, the Lagrangian (2.26) looks very simple because of its colour symmetry properties. All interactions are given in terms of a single universal coupling gs ...
... interactions is given by the same coupling gs which appears in the fermionic piece of the Lagrangian. In spite of the rich physics contained in it, the Lagrangian (2.26) looks very simple because of its colour symmetry properties. All interactions are given in terms of a single universal coupling gs ...
Chapter 27 Quantum And Relativistic Physics
... mechanics, Maxwell's electromagnetic theory, and thermodynamics held the answers to all the problems of the physical universe. Some physicists at the end of the nineteenth century believed that the development of physics was complete. On the contrary, the new models developed in physics during the f ...
... mechanics, Maxwell's electromagnetic theory, and thermodynamics held the answers to all the problems of the physical universe. Some physicists at the end of the nineteenth century believed that the development of physics was complete. On the contrary, the new models developed in physics during the f ...
A theory for magnetic-field effects of nonmagnetic organic
... OMFE can hardly provide any clue to the answer to this standing puzzle why a field of less than hundreds mT (including contributions from hyperfine and spin-orbital interactions) can produce such big magnetic-field effects at room temperature. Both extensive experimental and theoretical studies so f ...
... OMFE can hardly provide any clue to the answer to this standing puzzle why a field of less than hundreds mT (including contributions from hyperfine and spin-orbital interactions) can produce such big magnetic-field effects at room temperature. Both extensive experimental and theoretical studies so f ...
Abstract - Quantum Realism and Special Reference
... It is well known that a fourth degree of freedom ‘spin’ is necessary in order to account for such phenomena as the anomalous Zeeman effect (splitting of spectral lines in a magnetic field) and the Pauli exclusion principle. It is perhaps noteworthy, in regard to the relationship of spin to defenses ...
... It is well known that a fourth degree of freedom ‘spin’ is necessary in order to account for such phenomena as the anomalous Zeeman effect (splitting of spectral lines in a magnetic field) and the Pauli exclusion principle. It is perhaps noteworthy, in regard to the relationship of spin to defenses ...
How Albert Einstein invented entanglement despite his intention
... It is common knowledge that Albert Einstein at the beginning of the last century invented both the Special (1905) – and the General Theory of Relativity (1915). It is also common knowledge that in 1905, he invented the photon as an elementary particles of light. Less commonly known is Einstein’s lif ...
... It is common knowledge that Albert Einstein at the beginning of the last century invented both the Special (1905) – and the General Theory of Relativity (1915). It is also common knowledge that in 1905, he invented the photon as an elementary particles of light. Less commonly known is Einstein’s lif ...
Two-particle Harmonic Oscillator in a One
... and the variational function (15) for small and moderate values of λ. Fig. 2 shows the results of the latter two approaches for a wider range of values of λ. We appreciate the accuracy of the energy provided by the simple variational function (15) for all values of λ. The reader will find all the nec ...
... and the variational function (15) for small and moderate values of λ. Fig. 2 shows the results of the latter two approaches for a wider range of values of λ. We appreciate the accuracy of the energy provided by the simple variational function (15) for all values of λ. The reader will find all the nec ...
Introduction
... Electric Field Lines Electric field lines are imaginary lines drawn in such a manner that their direction at any point is the same as the direction of the electric field at that point. The direction of the field line at any point is the same as the direction in which a positive charge would move it ...
... Electric Field Lines Electric field lines are imaginary lines drawn in such a manner that their direction at any point is the same as the direction of the electric field at that point. The direction of the field line at any point is the same as the direction in which a positive charge would move it ...
