Quantum back-reaction and the particle law of motion
... more general problem. We first allow within a canonical theory of interaction a much broader dependence of the potential on ψ than is exhibited by the quantum potential. It is then necessary to consider consistency conditions on the wave-particle composite that constrain its elements and their inter ...
... more general problem. We first allow within a canonical theory of interaction a much broader dependence of the potential on ψ than is exhibited by the quantum potential. It is then necessary to consider consistency conditions on the wave-particle composite that constrain its elements and their inter ...
Book Reviews
... can simultaneously ascertain both the position and momentum of both systems, by performing one measurement on each system (pp. 11, 64), despite EPR’ s assertion that ª one would not arrive at our conclusion [that quantum-mechanical description is incomplete] if one insisted that two or more physical ...
... can simultaneously ascertain both the position and momentum of both systems, by performing one measurement on each system (pp. 11, 64), despite EPR’ s assertion that ª one would not arrive at our conclusion [that quantum-mechanical description is incomplete] if one insisted that two or more physical ...
III. Quantum Model of the Atom
... physicists, including Neils Bohr to work on WHY atoms don’t collapse (negative eattract positive p+) ...
... physicists, including Neils Bohr to work on WHY atoms don’t collapse (negative eattract positive p+) ...
Heisenberg, Matrix Mechanics, and the Uncertainty Principle Genesis
... vector spaces. It clarifies the roles of both wave mechanics and matrix mechanics, and is essentially the modern formulation of quantum mechanics. Heisenberg investigated the question of measurement in this framework. He realised that genuine, intrinsic, uncertainties or imprecisions cropped up in t ...
... vector spaces. It clarifies the roles of both wave mechanics and matrix mechanics, and is essentially the modern formulation of quantum mechanics. Heisenberg investigated the question of measurement in this framework. He realised that genuine, intrinsic, uncertainties or imprecisions cropped up in t ...
The Consistent Histories Interpretation of Quantum Mechanics
... Quantum weights should also satisfy this requirement, since they yield classical probabilities and must be non-negative. As Griffiths (2002a, 121-124) shows, Eq. (5) achieves this. Quantum histories behave like classical histories to the degree that mutual interference is negligible. This is the key ...
... Quantum weights should also satisfy this requirement, since they yield classical probabilities and must be non-negative. As Griffiths (2002a, 121-124) shows, Eq. (5) achieves this. Quantum histories behave like classical histories to the degree that mutual interference is negligible. This is the key ...
Simulating Physics with Computers Richard P. Feynman
... compute its statistics. You will get the same accuracy as in measurements of the physical system. ...
... compute its statistics. You will get the same accuracy as in measurements of the physical system. ...
QUANTUM ENTANGLEMENT
... Einstein didn’t believe this: “God does not play dice with the universe”. Simple example: A single photon incident on a beam splitter (half-silvered mirror): ...
... Einstein didn’t believe this: “God does not play dice with the universe”. Simple example: A single photon incident on a beam splitter (half-silvered mirror): ...
Syllabus: Quantum computing - University of Hawaii Physics and
... Topics in current theoretical research; e.g., quantum informational representations of field theories. This course is an introduction to quantum information theory (qubits, quantum gates, and qubit systems). It covers a few selected quantum algorithms, yet the emphasis of the course is on quantum si ...
... Topics in current theoretical research; e.g., quantum informational representations of field theories. This course is an introduction to quantum information theory (qubits, quantum gates, and qubit systems). It covers a few selected quantum algorithms, yet the emphasis of the course is on quantum si ...
Course Template
... 2. Identify the kinds of experimental results which are incompatible with classical physics and which required the development of a quantum theory of matter and light 3. Interpret the wave function and apply operators to it to obtain information about a particle's physical properties such as positio ...
... 2. Identify the kinds of experimental results which are incompatible with classical physics and which required the development of a quantum theory of matter and light 3. Interpret the wave function and apply operators to it to obtain information about a particle's physical properties such as positio ...
Constructing mehod of 2-EPP with different quantum error correcting
... codes and by simulations investigated the performance of the 2-EPPs for a phase-damping channel. The proposed protocol showed improved fidelity and purification rate compared with an EPP from a single code when the number of initial shared entanglement is 31. Although we have shown that the EPP by our ...
... codes and by simulations investigated the performance of the 2-EPPs for a phase-damping channel. The proposed protocol showed improved fidelity and purification rate compared with an EPP from a single code when the number of initial shared entanglement is 31. Although we have shown that the EPP by our ...
Symmetry of Single-walled Carbon Nanotubes
... M. Damjanović, I. Milošević, T. Vuković, and J. Maultzsch, Quantum numbers and band topology of nanotubes, J. Phys. A: Math. Gen. 36, 5707-17 (2003) ...
... M. Damjanović, I. Milošević, T. Vuković, and J. Maultzsch, Quantum numbers and band topology of nanotubes, J. Phys. A: Math. Gen. 36, 5707-17 (2003) ...
Lecture-3: Atomic Structure
... cannot both be accurately known at the same time. Only its most probable position or momentum can be determined. The most probable distance between the proton and electron for a hydrogen atom turns out to be about 0.89Å, the same as Niels ...
... cannot both be accurately known at the same time. Only its most probable position or momentum can be determined. The most probable distance between the proton and electron for a hydrogen atom turns out to be about 0.89Å, the same as Niels ...
An Invitation to Quantum Complexity Theory
... 2. textbook quantum mechanics is false, or 3. there’s an efficient classical factoring algorithm. All three seem like crackpot speculations. At least one of them is true! In my view, this is why everyone should care about quantum computing, whether or not quantum factoring machines are ever built ...
... 2. textbook quantum mechanics is false, or 3. there’s an efficient classical factoring algorithm. All three seem like crackpot speculations. At least one of them is true! In my view, this is why everyone should care about quantum computing, whether or not quantum factoring machines are ever built ...
