Classical World because of Quantum Physics
... Given any single 1-bit axiom, i.e. (A) or (B) or (C), the two other propositions are undecidable. Physical “black box” can encode the Boolean function: f(a) = 0 ...
... Given any single 1-bit axiom, i.e. (A) or (B) or (C), the two other propositions are undecidable. Physical “black box” can encode the Boolean function: f(a) = 0 ...
All use a quantum level process, either thermal noise or electron
... Assuming that mind is a fractal object, its dynamics is related to a “virtual” chaos and so, to (strong) non-linear dynamical interactions. In those systems, Poincaré resonances rule the transitions to structural chaos, just as in “material” (or “substantial”) systems (e.g. fluids). Prigogine has sh ...
... Assuming that mind is a fractal object, its dynamics is related to a “virtual” chaos and so, to (strong) non-linear dynamical interactions. In those systems, Poincaré resonances rule the transitions to structural chaos, just as in “material” (or “substantial”) systems (e.g. fluids). Prigogine has sh ...
Derivation of the Pauli Exclusion Principle
... Abstract: In generally, the Pauli Exclusion Principle follows from the spectroscopy whereas its origin is not good understood. To understand fully this principle, most important is origin of quantization of the azimuthal quantum number i.e. the angular momentum quantum number. Here, on the base of t ...
... Abstract: In generally, the Pauli Exclusion Principle follows from the spectroscopy whereas its origin is not good understood. To understand fully this principle, most important is origin of quantization of the azimuthal quantum number i.e. the angular momentum quantum number. Here, on the base of t ...
Symmetry of Single-walled Carbon Nanotubes
... Quantum numbers and band topology of nanotubes, J. Phys. A: Math. Gen. 36, 5707-17 (2003) ...
... Quantum numbers and band topology of nanotubes, J. Phys. A: Math. Gen. 36, 5707-17 (2003) ...
The past decade has seen a substantial rejuvenation of interest in
... interactions among the nearly free excitations, or from a strong-coupling limit, where the local interactions are well accounted for, but their coherent propagation through the system is not fully described. In contrast, a quantum critical point begins from an intermediate coupling regime, which str ...
... interactions among the nearly free excitations, or from a strong-coupling limit, where the local interactions are well accounted for, but their coherent propagation through the system is not fully described. In contrast, a quantum critical point begins from an intermediate coupling regime, which str ...
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 ...
Introduction to Quantum Systems
... Introduction to quantum physics and quantum systems with electromagnetic interaction (atoms, molecules and solids) and strong interaction (nucleons and particles) Course competences Specific 1. Understand the basis of quantum physics and the behaviour of identical particle systems 2. Demonstrate a s ...
... Introduction to quantum physics and quantum systems with electromagnetic interaction (atoms, molecules and solids) and strong interaction (nucleons and particles) Course competences Specific 1. Understand the basis of quantum physics and the behaviour of identical particle systems 2. Demonstrate a s ...
The Learnability of Quantum States
... Quantum Computing and the Interpretation of Quantum Mechanics? David Deutsch’s argument for Many Worlds: “To those who still cling to a single-universe worldview, I issue this challenge: explain how Shor's algorithm works … When Shor's algorithm has factorized a number, using 10⁵⁰⁰ or so times the ...
... Quantum Computing and the Interpretation of Quantum Mechanics? David Deutsch’s argument for Many Worlds: “To those who still cling to a single-universe worldview, I issue this challenge: explain how Shor's algorithm works … When Shor's algorithm has factorized a number, using 10⁵⁰⁰ or so times the ...
Ultracold atoms as quantum simulators for new materials – synthetic
... Simplest explanation for time of flight pictures: The wavefunction is unchanged, TOF pictures show momentum distribution. Alternative description: Canonical momentum p=-i ! becomes mechanical momentum Mechanical momentum changes from p – A to p Momentum change by A can be described by synthetic ele ...
... Simplest explanation for time of flight pictures: The wavefunction is unchanged, TOF pictures show momentum distribution. Alternative description: Canonical momentum p=-i ! becomes mechanical momentum Mechanical momentum changes from p – A to p Momentum change by A can be described by synthetic ele ...
Quantum-to-classical transition for fluctuations in the early Universe
... metric – to anisotropies in the cosmic background radiation. In addition, there are relict gravitational waves originating from tensor fluctuations in the metric. The COBE-mission and future projects such as the Planck Surveyor satellite mission are able to observe these anisotropies and possibly te ...
... metric – to anisotropies in the cosmic background radiation. In addition, there are relict gravitational waves originating from tensor fluctuations in the metric. The COBE-mission and future projects such as the Planck Surveyor satellite mission are able to observe these anisotropies and possibly te ...
Chapter 9d Introduction to Quantum Mechanics
... (3) for each n,l,m state, there are two spin states. Therefore the total number of electronic states for a given n should be: ...
... (3) for each n,l,m state, there are two spin states. Therefore the total number of electronic states for a given n should be: ...
RPA - Department of Theoretical Physics UMCS
... • We suggest to consider the vanishing of one of the vibrational modes in the rotating frame as an indicator of the possible shape transitions in fast rotating nuclei. • We propose the selection rules for electromagnetic transitions from excited vibrational states of the negative signature that c ...
... • We suggest to consider the vanishing of one of the vibrational modes in the rotating frame as an indicator of the possible shape transitions in fast rotating nuclei. • We propose the selection rules for electromagnetic transitions from excited vibrational states of the negative signature that c ...
