Many-Worlds Interpretation of Quantum Mechanics

Name: Many-Worlds Interpretation of Quantum Mechanics
Brand: Princeton University Press
SKU: 9780691273679
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A priori probability

Axiom

Category=PHQ

Celestial mechanics

Classical mechanics

Classical physics

Commutative property

Degeneracy (mathematics)

Degrees of freedom (mechanics)

Degrees of freedom (physics and chemistry)

Density matrix

Eigenfunction

Eigenvalues and eigenvectors

Einstein notation

Elementary particle

eq_bestseller

eq_isMigrated=1

eq_isMigrated=2

eq_nobargain

eq_non-fiction

eq_science

Equation

Ergodic theory

Expectation value (quantum mechanics)

Experimental physics

Fermion

Heisenberg picture

Hidden variable theory

Hilbert space

Interpretations of quantum mechanics

Joint probability distribution

Many-worlds interpretation

Markov chain

Markov process

Massive particle

Maxwell-Boltzmann distribution

MaxwellBoltzmann distribution

Measurement

Measurement in quantum mechanics

Modern physics

Orthonormal basis

Orthonormality

Phase space

Photon

Physicist

Physics

Probability

Probability distribution

Probability interpretations

Probability measure

Probability theory

Psychophysical parallelism

Quantity

Quantum field theory

Quantum gravity

Quantum mechanics

Quantum realm

Quantum superposition

Quantum system

Random variable

Renormalization

Scale factor (cosmology)

Schrdinger equation

Schrodinger equation

Second law of thermodynamics

Shape of the universe

Special relativity

Spin (physics)

State function

Statistical ensemble (mathematical physics)

Statistical mechanics

Stochastic process

Superposition principle

Theoretical physics

Theory

Unitary transformation

Universal wavefunction

Variable (mathematics)

Wave function

Product details

ISBN 9780691273679
Dimensions: 178 x 254mm
Publication Date: 25 Mar 2025
Publisher: Princeton University Press
Publication City/Country: US
Product Form: Hardback

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A landmark book on the influential many-worlds interpretation of quantum mechanics

In 1957, Hugh Everett proposed a novel interpretation of quantum mechanics—a view that eventually became known as the many-worlds interpretation. This book presents Everett’s two landmark papers on the idea—“‘Relative State’ Formulation of Quantum Mechanics” and “The Theory of the Universal Wave Function”—as well as further discussion of the idea in papers from a number of other physicists: J. A. Wheeler, Bryce DeWitt, L. N. Cooper and D. Van Vechten, and Neill Graham.

In his interpretation, Everett denies the existence of a separate classical realm and asserts the propriety of considering a state vector for the whole universe. Because this state vector never collapses, reality as a whole is rigorously deterministic. This reality, which is described jointly by the dynamical variables and the state vector, isn’t the reality customarily perceived; rather, it’s a reality composed of many worlds. By virtue of the temporal development of the dynamical variables, the state vector decomposes naturally into orthogonal vectors, reflecting a continual splitting of the universe into a multitude of mutually unobservable but equally real worlds, in each of which every good measurement has yielded a definite result, and in most of which the familiar statistical quantum laws hold.

Bryce S. DeWitt (1923–2004) was a prize-winning theoretical physicist and professor emeritus of physics at the University of Texas at Austin. Neill Graham (1941–2015) was a physicist and writer.