<--- Back to Details
First PageDocument Content
Quantum mechanics / Physics / Quantum measurement / EPR paradox / Hidden variable theory / Interpretations of quantum mechanics / Qubit / Quantum state / Quantum probability / Ensemble interpretation / Mathematical formulation of quantum mechanics / Quantum Bayesianism
Date: 2013-02-20 10:42:48
Quantum mechanics
Physics
Quantum measurement
EPR paradox
Hidden variable theory
Interpretations of quantum mechanics
Qubit
Quantum state
Quantum probability
Ensemble interpretation
Mathematical formulation of quantum mechanics
Quantum Bayesianism

On the reality of the quantum state

Add to Reading List

Source URL: cqi.inf.usi.ch

Download Document from Source Website

File Size: 248,87 KB

Share Document on Facebook

Similar Documents

Quantum mechanics / Physics / Mathematics / Academia / Quantum logic / Mathematical formulation of quantum mechanics / Measurement in quantum mechanics / John von Neumann / Operator algebra / David Hilbert / Quantum entanglement / Hilbert space

A New Approach to Quantum Logic K.Engesser D.M. Gabbay dov.gabbay @kcl.ac.uk D. Lehmann 2

DocID: 1riJ5 - View Document

Physics / Quantum mechanics / Quantum field theory / Quantum electrodynamics / Quantum information science / Elementary particles / Schrdinger equation / EPR paradox / Introduction to quantum mechanics / Wave function / Path integral formulation / Mathematical formulation of quantum mechanics

Rescuing Quantum Mechanics from Atomic Physics

DocID: 1rgH5 - View Document

Physics / Quantum mechanics / Theoretical physics / Mathematical physics / Quantum states / Quantum field theory / Mathematical formulation of quantum mechanics / Quantization / Wave function / Quantum optics / Introduction to quantum mechanics / Uncertainty principle

Dissipative quantum phase transitions in ion traps Malte Darling Dueholm March 13th 2015 Preface

DocID: 1rdG6 - View Document

Colleges of the University of Oxford / Philosophers of science / Philosophy of science / Philosophy of physics / Simon Saunders / Quantum mechanics / Many-worlds interpretation / Mathematical formulation of quantum mechanics / Jeremy Butterfield / Interpretations of quantum mechanics

SIMON SAUNDERS Publications BOOKS Many Worlds?: Everett, quantum theory, and realism, S. Saunders, J. Barrett, A. Kent, and D. Wallace (eds), Oxford (2010).

DocID: 1rcQ8 - View Document

Physics / Quantum mechanics / Theoretical computer science / Quantum computing / Mathematical formulation of quantum mechanics / Expected value / Quantum circuit / Quantum potential

International Journal of Theoretical Physics, VoL 21, Nos. 6/7, 1982 Simulating Physics with Computers Richard P. Feynman Department of Physics, California Institute of Technology, Pasadena, CaliforniaReceived Ma

DocID: 1r9tJ - View Document