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1. In quantum field theory, the operator product expansion (OPE) is used as an axiom to define the product of fields as a sum over the same fields.^[1]
2. In general, the operator product expansion may not separate into holomorphic and anti-holomorphic parts, especially if there are log ⁡ z {\displaystyle \log z} terms in the expansion.^[1]
3. For conformal field theory and specifically for 2d CFT the operator product expansion is well understood, is neatly captured by the concept of vertex operator algebras.^[2]
4. This is equivalent to calculating operator product expansions in two-dimensional conformal field theory.^[3]
5. Nature of problem: Calculate operator product expansions (OPEs) of composite fields in 2d conformal field theory.^[3]
6. The Wilson-Zimmermann short distance operator product expansion is presented and some hints are given on its understanding, with particular emphasis on power counting.^[4]
7. An example of an operator product expansion is worked out for the .^[5]
8. We study the operator product expansion (OPE) for scalar conformal defects of any codimension in CFT.^[6]
9. Operator product expansion algebra S. Hollands based on joint work with M. Frb, J. Holland and Ch.^[7]
10. In general, the operator product expansion may not separate into holormorphic and anti holomorphic parts, especially if there are log z terms in the expansion.^[8]
11. We study how to compute the operator product expansion coefficients in the exact renormalization group formalism.^[9]
12. Hollands S., A general PCT theorem for the operator product expansion in curved spacetime, Comm.^[10]
13. Further, we can also calculate OPEs of currents expressed by vertex operators.^[11]
14. The coefficients of the expansion appear as a byproduct of the operator product expansion for the correlators of the operators W(E) with the chiral primaries of the theory.^[12]
15. An operator product expansion (OPE) for the long distance mutual information written in terms of these correlators is then provided.^[12]
16. The operator product expansion has been applied to various problems in quantum theory with varying degree of rigour.^[13]
17. To apply the operator product expansion in QCD, one is of course faced with the problem of extending it to non-perturbative dynamics.^[13]
18. Secondly, some information about the behaviour of the operator product expansion in the complex Q2 plane away from euclidean region, along all rays passing through the origin, is necessary.^[13]
19. While Wilsons operator product expansion is originally formulated in the Euclidean domain, its applications are mostly related to quantities of the Minkowski nature.^[13]
20. Operator product expansion expresses the product of two elds as the sum of single elds.^[14]
21. Do they also satisfy an operator product expansion of the from ij are particularly ?^[14]
22. The vertex operator algebra W(2, 33) is C2-conite and the nonmeromorphic operator product expansion exists.^[14]
23. Modify the operator product expansion to account for new scale Summary 1.^[15]
24. Modify the operator product expansion to account for new scale Looking forward 1.^[15]

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