<--- Back to Details
First PageDocument Content
Partial differential equations / Symplectic geometry / Dynamical systems / Schrödinger equation / De Broglie–Bohm theory / Schrödinger field / Hamilton–Jacobi equation / Quantum potential / Stationary state / Physics / Quantum mechanics / Hamiltonian mechanics
Date: 2005-01-18 19:09:00
Partial differential equations
Symplectic geometry
Dynamical systems
Schrödinger equation
De Broglie–Bohm theory
Schrödinger field
Hamilton–Jacobi equation
Quantum potential
Stationary state
Physics
Quantum mechanics
Hamiltonian mechanics

Add to Reading List

Source URL: users.ox.ac.uk

Download Document from Source Website

File Size: 270,24 KB

Share Document on Facebook

Similar Documents

Physics / Theoretical physics / Chemistry / Quantum mechanics / Algebra of random variables / Random matrix / Partition function / Hamiltonian

SYSTEMS OF POINTS WITH COULOMB INTERACTIONS SYLVIA SERFATY Abstract. Large ensembles of points with Coulomb interactions arise in various settings of condensed matter physics, classical and quantum mechanics, statistical

DocID: 1xVYR - View Document

Quantum mechanics / Physics / Quantum measurement / Interpretations of quantum mechanics / Quantum information science / Quantum computing / Many-worlds interpretation / Measurement problem / Schrdinger's cat / Quantum entanglement / Qubit / Copenhagen interpretation

Lecture 12, Thurs Feb 23: Interpretation of QM (Copenhagen, Dynamical Collapse, MWI, Decoherence) At this point in the course, we’re finally in a position to step back and ask,“What is quantum mechanics telling us ab

DocID: 1xTLC - View Document

Quantum mechanics / Physics / Quantum measurement / Metaphysics / Interpretations of quantum mechanics / Quantum information science / Hidden variable theory / De BroglieBohm theory / Bell's theorem / Hidden-variable theory / Local hidden-variable theory / Quantum entanglement

Lecture 13, Tues Feb 28: Hidden Variables, Bell’s Inequality In the last lecture, we discussed four different attitudes people take toward quantum mechanics: Copenhagen, “shut up and calculate,” dynamical collapse,

DocID: 1xTEA - View Document

Physics / Quantum mechanics / Quantum superposition / Double-slit experiment / Probability distribution / Photon / Introduction to quantum mechanics / Electron / Quantum decoherence / Quantum computing / Probability amplitude / Negative probability

Lecture 2, Thurs Jan 19: Probability Theory and QM Feynman said that everything about quantum mechanics could be encapsulated in the ​Double Slit Experiment. In the double-slit experiment, you shoot photons one at a ti

DocID: 1xThb - View Document

Computation Quantum Mechanics Quantum computing Topological quantum computation Topological Quantum Computation

DocID: 1v2Rv - View Document