Qubit Field Theory

Qubit Field Theory

A Qubit Field Theory is a quantum field theory in which the canonical commutation relations involved in the quantisation of pairs of observables are relaxed. Specifically it is a quantum field theory in which, unlike most other quantum field theories, the pair of observables is not required to always commute.

In many ordinary quantum field theories, constraining one observable to a fixed value results in the uncertainty of the other observable being infinite (c.f. Uncertainty Principle), and as a consequence there potentially being an infinite amount of information involved. In the situation of the standard position-momentum commutation (in which the Uncertainty Principle is most known), this implies that a fixed, finite, volume of space has an infinite capacity to store information. However, Bekenstein's bound hints that the information storage capacity ought to be finite, and so Qubit Field Theory seeks to resolve this issue by removing the commutation restriction in order to make the capacity to store information a finite value; hence the name "Qubit", which derives from "Quantum-bit" or "Quantised-bit".

David Deutsch has presented a group of "Qubit Field Theories" which, despite not requiring commutation of certain observables, still presents the same observable results as ordinary Quantum Field Theory.

External links

* [http://arxiv.org/abs/quant-ph/0401024 Qubit Field Theory] by David Deutsch


Wikimedia Foundation. 2010.

Игры ⚽ Поможем написать реферат

Look at other dictionaries:

  • List of mathematical topics in quantum theory — This is a list of mathematical topics in quantum theory, by Wikipedia page. See also list of functional analysis topics, list of Lie group topics, list of quantum mechanical systems with analytical solutions. Contents 1 Mathematical formulation… …   Wikipedia

  • David Deutsch — Born 1953 (age 58) Haifa, Israel Fields Theoretical physics Quantum information science …   Wikipedia

  • Quantum decoherence — Quantum mechanics Uncertainty principle …   Wikipedia

  • EPR paradox — In quantum mechanics, the EPR paradox is a thought experiment which challenged long held ideas about the relation between the observed values of physical quantities and the values that can be accounted for by a physical theory. EPR stands for… …   Wikipedia

  • Relational quantum mechanics — This article is intended for those already familiar with quantum mechanics and its attendant interpretational difficulties. Readers who are new to the subject may first want to read the introduction to quantum mechanics. Relational quantum… …   Wikipedia

  • Physics — (Greek: physis φύσις), in everyday terms, is the science of matter [R. P. Feynman, R. B. Leighton, M. Sands (1963), The Feynman Lectures on Physics , ISBN 0 201 02116 1 Hard cover. p.1 1 Feynman begins with the atomic hypothesis.] and its motion …   Wikipedia

  • Many-worlds interpretation — The quantum mechanical Schrödinger s cat paradox according to the many worlds interpretation. In this interpretation every event is a branch point; the cat is both alive and dead, even before the box is opened, but the alive and dead cats are in… …   Wikipedia

  • No-cloning theorem — Quantum mechanics Uncertainty principle …   Wikipedia

  • Quantum state — In quantum physics, a quantum state is a mathematical object that fully describes a quantum system. One typically imagines some experimental apparatus and procedure which prepares this quantum state; the mathematical object then reflects the… …   Wikipedia

  • Physical Sciences — ▪ 2009 Introduction Scientists discovered a new family of superconducting materials and obtained unique images of individual hydrogen atoms and of a multiple exoplanet system. Europe completed the Large Hadron Collider, and China and India took… …   Universalium

Share the article and excerpts

Direct link
Do a right-click on the link above
and select “Copy Link”