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{{technical|date=December 2024}}
{{short description|A mathematical operator used in theoretical physics and topology}} {{short description|A mathematical operator used in theoretical physics and topology}}
'''Yang-Baxter operators''' are ] ] ] with applications in ] and ]. These operators are particularly notable for providing solutions to the quantum ], which originated in ], and for their use in constructing ] of ], links, and three-dimensional ].<ref name="Baxter1982">Baxter, R. (1982). "Exactly solved models in statistical mechanics". Academic Press. ISBN 978-0-12-083180-7.</ref><ref name="Yang1967">Yang, C.N. (1967). "Some exact results for the many-body problem in one dimension with repulsive delta-function interaction". Physical Review Letters. 19: 1312–1315.</ref><ref name="Kauffman1991">Kauffman, L.H. (1991). "Knots and physics". Series on Knots and Everything. 1. World Scientific. ISBN 978-981-02-0332-1.</ref> '''Yang-Baxter operators''' are ] ] ] with applications in ] and ] named after ] ] and ]. These ] are particularly notable for providing solutions to the quantum ], which originated in ], and for their use in constructing ] of ], links, and three-dimensional ].<ref name="Baxter1982">Baxter, R. (1982). "Exactly solved models in statistical mechanics". Academic Press. ISBN 978-0-12-083180-7.</ref><ref name="Yang1967">Yang, C.N. (1967). "Some exact results for the many-body problem in one dimension with repulsive delta-function interaction". Physical Review Letters. 19: 1312–1315.</ref><ref name="Kauffman1991">Kauffman, L.H. (1991). "Knots and physics". Series on Knots and Everything. 1. World Scientific. ISBN 978-981-02-0332-1.</ref>


== Definition == == Definition ==
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An important relationship exists between the quantum Yang-Baxter equation and the ]. If <math>R</math> satisfies the quantum Yang-Baxter equation, then <math>B = \tau_{V,V}R</math> satisfies <math>B_{12}B_{23}B_{12} = B_{23}B_{12}B_{23}</math>.<ref name="Joyal1993">Joyal, A.; Street, R. (1993). "Braided tensor categories". Advances in Mathematics. 102: 20–78.</ref> An important relationship exists between the quantum Yang-Baxter equation and the ]. If <math>R</math> satisfies the quantum Yang-Baxter equation, then <math>B = \tau_{V,V}R</math> satisfies <math>B_{12}B_{23}B_{12} = B_{23}B_{12}B_{23}</math>.<ref name="Joyal1993">Joyal, A.; Street, R. (1993). "Braided tensor categories". Advances in Mathematics. 102: 20–78.</ref>

== Applications ==
Yang-Baxter operators have applications in ] and ].<ref name="Zamolodchikov1975">Zamolodchikov, A.B.; Zamolodchikov, A.B. (1975). "Factorized S-matrices in two dimensions as the exact solutions of certain relativistic quantum field theory models". Annals of Physics. 120: 253–291.</ref><ref name="Jimbo1985">Jimbo, M. (1985). "A q-difference analogue of U(g) and the Yang-Baxter equation". Letters in Mathematical Physics. 10: 63–69.</ref><ref name="Reshetikhin1991">Reshetikhin, N.Yu.; Turaev, V.G. (1991). "Invariants of 3-manifolds via link polynomials and quantum groups". Inventiones Mathematicae. 103: 547–597.</ref>


== See also == == See also ==
* ] * ]
* ] * ]
* ]
* ]
* ]
* ]


== References == == References ==

Latest revision as of 09:09, 29 December 2024

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A mathematical operator used in theoretical physics and topology

Yang-Baxter operators are invertible linear endomorphisms with applications in theoretical physics and topology named after theoretical physicists Yang Chen-Ning and Rodney Baxter. These operators are particularly notable for providing solutions to the quantum Yang-Baxter equation, which originated in statistical mechanics, and for their use in constructing invariants of knots, links, and three-dimensional manifolds.

Definition

In the category of left modules over a commutative ring k {\displaystyle k} , Yang-Baxter operators are k {\displaystyle k} -linear mappings R : V k V V k V {\displaystyle R:V\otimes _{k}V\rightarrow V\otimes _{k}V} . The operator R {\displaystyle R} satisfies the quantum Yang-Baxter equation if

R 12 R 13 R 23 = R 23 R 13 R 12 {\displaystyle R_{12}R_{13}R_{23}=R_{23}R_{13}R_{12}}

where

R 12 = R k 1 {\displaystyle R_{12}=R\otimes _{k}1} ,
R 23 = 1 k R {\displaystyle R_{23}=1\otimes _{k}R} ,
R 13 = ( 1 k τ V , V ) ( R k 1 ) ( 1 k τ V , V ) {\displaystyle R_{13}=(1\otimes _{k}\tau _{V,V})(R\otimes _{k}1)(1\otimes _{k}\tau _{V,V})}

The τ U , V {\displaystyle \tau _{U,V}} represents the "twist" mapping defined for k {\displaystyle k} -modules U {\displaystyle U} and V {\displaystyle V} by τ U , V ( u v ) = v u {\displaystyle \tau _{U,V}(u\otimes v)=v\otimes u} for all u U {\displaystyle u\in U} and v V {\displaystyle v\in V} .

An important relationship exists between the quantum Yang-Baxter equation and the braid equation. If R {\displaystyle R} satisfies the quantum Yang-Baxter equation, then B = τ V , V R {\displaystyle B=\tau _{V,V}R} satisfies B 12 B 23 B 12 = B 23 B 12 B 23 {\displaystyle B_{12}B_{23}B_{12}=B_{23}B_{12}B_{23}} .

Applications

Yang-Baxter operators have applications in statistical mechanics and topology.

See also

References

  1. Baxter, R. (1982). "Exactly solved models in statistical mechanics". Academic Press. ISBN 978-0-12-083180-7.
  2. Yang, C.N. (1967). "Some exact results for the many-body problem in one dimension with repulsive delta-function interaction". Physical Review Letters. 19: 1312–1315.
  3. Kauffman, L.H. (1991). "Knots and physics". Series on Knots and Everything. 1. World Scientific. ISBN 978-981-02-0332-1.
  4. Joyal, A.; Street, R. (1993). "Braided tensor categories". Advances in Mathematics. 102: 20–78.
  5. Zamolodchikov, A.B.; Zamolodchikov, A.B. (1975). "Factorized S-matrices in two dimensions as the exact solutions of certain relativistic quantum field theory models". Annals of Physics. 120: 253–291.
  6. Jimbo, M. (1985). "A q-difference analogue of U(g) and the Yang-Baxter equation". Letters in Mathematical Physics. 10: 63–69.
  7. Reshetikhin, N.Yu.; Turaev, V.G. (1991). "Invariants of 3-manifolds via link polynomials and quantum groups". Inventiones Mathematicae. 103: 547–597.
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