Heisenberg`s Uncertainty Principle is Dead
... It is meant to test how brainwashed the public really is. “Can we tell just tell them this, and they will believe it? Surely not.” “Yes, they will believe anything. You could tell them it was night while the Sun was shining in their faces.” What this means is that the mainstream aren't going to chan ...
... It is meant to test how brainwashed the public really is. “Can we tell just tell them this, and they will believe it? Surely not.” “Yes, they will believe anything. You could tell them it was night while the Sun was shining in their faces.” What this means is that the mainstream aren't going to chan ...
How to model quantum plasmas Giovanni Manfredi
... counterpart: it describes the coupling parameter as the ratio of the ‘plasmon energy’ ~ωp (energy of an elementary excitation associated to an electron plasma wave) to the Fermi energy 2 . The quantum collisionless regime (where collective, mean-field effects dominate) is again defined as the regime ...
... counterpart: it describes the coupling parameter as the ratio of the ‘plasmon energy’ ~ωp (energy of an elementary excitation associated to an electron plasma wave) to the Fermi energy 2 . The quantum collisionless regime (where collective, mean-field effects dominate) is again defined as the regime ...
Do we need the Concept of Particle?
... Thus, at first sight, Darwin and Mott adopted exactly the position that Schrödinger was advocating in 1926. However, they introduced many important qualifications to this position, and it was precisely by means of these qualifications that they were able to overcome the difficulties which plagued th ...
... Thus, at first sight, Darwin and Mott adopted exactly the position that Schrödinger was advocating in 1926. However, they introduced many important qualifications to this position, and it was precisely by means of these qualifications that they were able to overcome the difficulties which plagued th ...
SOLID STATE QUANTUM COMPUTING USING SPECTRAL HOLES
... between them: essentially any form of coupling between two spectral holes, combined with the ability to perform single-hole quantum operations, allows the implementation of general purpose quantum computations.8,9 The method we choose is determined by the desire to perform two qubit operations accur ...
... between them: essentially any form of coupling between two spectral holes, combined with the ability to perform single-hole quantum operations, allows the implementation of general purpose quantum computations.8,9 The method we choose is determined by the desire to perform two qubit operations accur ...
Science Journals — AAAS
... degree of freedom (we use the photon’s path mode) to drive the operation of the gate. This path entanglement can be produced in different ways. In our demonstration (Fig. 1B), it is generated from spontaneous parametric downconversion (SPDC). Given the physical arrangement of the circuit and given t ...
... degree of freedom (we use the photon’s path mode) to drive the operation of the gate. This path entanglement can be produced in different ways. In our demonstration (Fig. 1B), it is generated from spontaneous parametric downconversion (SPDC). Given the physical arrangement of the circuit and given t ...
- Philsci
... any rate extend the quantum coherent states. The observation that some cortical neurons do not have axons must not be erroneously interpreted in a way that ...
... any rate extend the quantum coherent states. The observation that some cortical neurons do not have axons must not be erroneously interpreted in a way that ...
Acrobat PDFMaker 6.0
... be more energy out toward the surface of the cylinder than there is closer to the center. In our analysis here, we can see that the only adjustment needed between classical and quantum theories of free space EM radiation is 4 relating to spin. A prediction of our theory is that photon energy density ...
... be more energy out toward the surface of the cylinder than there is closer to the center. In our analysis here, we can see that the only adjustment needed between classical and quantum theories of free space EM radiation is 4 relating to spin. A prediction of our theory is that photon energy density ...
chapter-12 quantum entanglement
... interaction of the magnetic moments. The electron and positron have each spin ½ , and they can be either parallel or antiparallel to any given axis. States are indicated by: (electron’s spin, positron’s spin) (In the ground state there is no other angular momentum due to orbital motion.) The states ...
... interaction of the magnetic moments. The electron and positron have each spin ½ , and they can be either parallel or antiparallel to any given axis. States are indicated by: (electron’s spin, positron’s spin) (In the ground state there is no other angular momentum due to orbital motion.) The states ...
Full-Text PDF
... study in Section 5 the entanglements of excited oscillator states. We give a detailed explanation of how the series of Equation (1) can be derived from the squeezed Gaussian function of Equation (2). In Section 6, we study in detail how the sheared state can be derived from a squeezed state. It appe ...
... study in Section 5 the entanglements of excited oscillator states. We give a detailed explanation of how the series of Equation (1) can be derived from the squeezed Gaussian function of Equation (2). In Section 6, we study in detail how the sheared state can be derived from a squeezed state. It appe ...
Quantum channels and their capacities: An introduction
... (memoryless) channel capacity: maximal number of classical bits which can be transmitted per channel use, in a reliable manner (i.e. with arbitrarily small error at the receiver) ...
... (memoryless) channel capacity: maximal number of classical bits which can be transmitted per channel use, in a reliable manner (i.e. with arbitrarily small error at the receiver) ...
Geometric phases and cyclic isotropic cosmologies
... where a(η) ≡ a(t(η)) is the scale factor in the new coordinate. As a simplifying assumption, we consider a scale factor a(t) which oscillates according to a local time and that a(t) > 0 as considered in many nonsingular bouncing cosmology models [7, 10, 13], and that can be expanded in Fourier serie ...
... where a(η) ≡ a(t(η)) is the scale factor in the new coordinate. As a simplifying assumption, we consider a scale factor a(t) which oscillates according to a local time and that a(t) > 0 as considered in many nonsingular bouncing cosmology models [7, 10, 13], and that can be expanded in Fourier serie ...
Science Journals — AAAS
... degree of freedom (we use the photon’s path mode) to drive the operation of the gate. This path entanglement can be produced in different ways. In our demonstration (Fig. 1B), it is generated from spontaneous parametric downconversion (SPDC). Given the physical arrangement of the circuit and given t ...
... degree of freedom (we use the photon’s path mode) to drive the operation of the gate. This path entanglement can be produced in different ways. In our demonstration (Fig. 1B), it is generated from spontaneous parametric downconversion (SPDC). Given the physical arrangement of the circuit and given t ...
Quantum Spacetime without Observers: Ontological
... The theory provides us with only a timeless wave function on the con guration space of 3-metrics, i.e., on the possible con gurations of space, not of space-time. But how can a theory that provides us (at best) with a single xed probability distribution for con gurations of space ever be able to de ...
... The theory provides us with only a timeless wave function on the con guration space of 3-metrics, i.e., on the possible con gurations of space, not of space-time. But how can a theory that provides us (at best) with a single xed probability distribution for con gurations of space ever be able to de ...
