Conditional quantum entropy: Difference between revisions

Browse history interactively

← Previous edit

Content deleted Content added

VisualWikitext

Revision as of 18:01, 28 October 2017 edit XOR'easter (talk \| contribs) Extended confirmed users 33,333 edits reference work Tag: Visual edit ← Previous edit		Latest revision as of 09:24, 6 February 2023 edit undo 134.99.64.105 (talk) B was right Tag: Manual revert
(9 intermediate revisions by 7 users not shown)
Line 1: {{Short description\|Measure of relative information in quantum information theory}} The '''conditional quantum entropy''' is an [[entropy measure]] used in [[quantum information theory]]. It is a generalization of the [[conditional entropy]] of [[classical information theory]]. For a bipartite state <math>\rho^{AB}</math>, the conditional entropy is written <math>S(A\|B)_\rho</math>, or <math>H(A\|B)_\rho</math>, depending on the notation being used for the [[von Neumann entropy]]. The quantum conditional entropy was defined in terms of a conditional density operator <math> \rho_{A\|B} </math> by [[Nicolas Cerf]] and [[Chris Adami]],<ref>{{Cite journal\|~~last~~last1=Cerf\|~~first~~first1=N. J.\|last2=Adami\|first2=C.\|date=1997\|title=Negative Entropy and Information in Quantum Mechanics~~\|url=https://link.aps.org/doi/10.1103/PhysRevLett.79.5194~~\|journal=[[Physical Review Letters]]\|volume=79\|issue=26\|pages=5194–5197\|doi=10.1103/physrevlett.79.5194\|~~via~~arxiv=quant-ph/9512022\|bibcode=1997PhRvL..79.5194C\|s2cid=14834430}}</ref><ref>{{Cite journal\|~~last~~last1=Cerf\|~~first~~first1=N. J.\|last2=Adami\|first2=C.\|date=1999-08-01\|title=Quantum extension of conditional probability~~\|url=https://link.aps.org/doi/10.1103/PhysRevA.60.893~~\|journal=[[Physical Review A]]\|volume=60\|issue=2\|pages=893–897\|doi=10.1103/PhysRevA.60.893\|~~via~~arxiv=quant-ph/9710001\|bibcode=1999PhRvA..60..893C\|s2cid=119451904 }}</ref> who showed that quantum conditional entropies can be negative, something that is forbidden in classical physics. The negativity of quantum conditional entropy is a sufficient criterion for quantum [[Separable state\|non-separability]]. In what follows, we use the notation <math>S(\cdot)</math> for the [[von Neumann entropy]], which will simply be called "entropy". Line 10: By analogy with the classical conditional entropy, one defines the conditional quantum entropy as <math>S(A\|B)_\rho \ \stackrel{\mathrm{def}}{=}\ S(AB)_\rho - S(B)_\rho</math>. An equivalent operational definition of the quantum conditional entropy (as a measure of the [[quantum communication]] cost or surplus when performing [[quantum state]] merging) was given by [[Michał Horodecki]], [[Jonathan Oppenheim]], and [[Andreas Winter]].<ref>{{Cite journal\|~~last~~last1=Horodecki\|~~first~~first1=Michał\|last2=Oppenheim\|first2=Jonathan\|last3=Winter\|first3=Andreas~~\|date=~~\|title=Partial quantum information~~\|url=http://www.nature.com/doifinder/10.1038/nature03909~~\|journal=Nature\|volume=436\|issue=7051\|pages=673–676\|arxiv=quant-ph/0505062\|doi=10.1038/nature03909\|~~via~~bibcode=2005Natur.436..673H\|year=2005\|pmid=16079840\|s2cid=4413693}}</ref> ==Properties== Line 18: ==References== {{reflist}} * {{Cite book\|title=[[Quantum Computation and Quantum Information ~~(book)\|Quantum Computation and Quantum Information]]~~\|last1=Nielsen\|first=Michael A.\|last2=Chuang\|first2=Isaac L.\|publisher=Cambridge University Press\|year=2010\|isbn=978-1-107-00217-3\|edition=2nd\|___location=Cambridge~~\|pages=~~\|oclc=844974180\|author-link=Michael Nielsen\|author-link2=Isaac Chuang\|title-link=Quantum Computation and Quantum Information (book)}} {{citation\|first=Mark M.\|last=Wilde\|arxiv=1106.1445\|title=Quantum Information Theory\|pages=xi-xii\|year=2017\|publisher=Cambridge University Press\|bibcode = 2011arXiv1106.1445W \|doi=10.1017/9781316809976.001\|chapter=Preface to the Second Edition\|isbn=9781316809976\|s2cid=2515538 }} {{cite book ~~\| first = Mark~~ ~~\| last = Wilde~~ ~~\| title = Quantum Information Theory~~ ~~\| url= https://www.amazon.com/Quantum-Information-Theory-Mark-Wilde/dp/1107034256~~ ~~\| publisher = Cambridge University Press~~ ~~\| year = 2013~~ ~~\|isbn=978-1107034259\|___location=Cambridge\|pages=\|oclc=824182607}}~~ [[Category:Quantum mechanical entropy]]