Korbinian Münster scite author profile

Korbinian Münster

4Publications

127Citation Statements Received

354Citation Statements Given

How they've been cited

126

How they cite others

131

350

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Publications

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Quantum Open-Closed Homotopy Algebra and String Field Theory

Münster¹,

Sachs²

2012

Commun. Math. Phys.

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We reformulate the algebraic structure of Zwiebach's quantum open-closed string field theory in terms of homotopy algebras. We call it the quantum open-closed homotopy algebra (QOCHA) which is the generalization of the open-closed homotopy algebra (OCHA) of Kajiura and Stasheff. The homotopy formulation reveals new insights about deformations of open string field theory by closed string backgrounds. In particular, deformations by Maurer Cartan elements of the quantum closed homotopy algebra define consistent quantum open string field theories.

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Type II superstring field theory: geometric approach and operadic description

Jurčo

Münster²

2013

J. High Energ. Phys.

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Abstract:We outline the construction of type II superstring field theory leading to a geometric and algebraic BV master equation, analogous to Zwiebach's construction for the bosonic string. The construction uses the small Hilbert space. Elementary vertices of the non-polynomial action are described with the help of a properly formulated minimal area problem. They give rise to an infinite tower of superstring field products defining a N = 1 generalization of a loop homotopy Lie algebra, the genus zero part generalizing a homotopy Lie algebra. Finally, we give an operadic interpretation of the construction.

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Modular operads and the quantum open-closed homotopy algebra

Doubek

Jurčo

Münster³

2015

J. High Energ. Phys.

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Homotopy Classification of Bosonic String Field Theory

Münster¹,

Sachs²

2014

Commun. Math. Phys.

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We prove the decomposition theorem for the loop homotopy algebra of quantum closed string field theory and use it to show that closed string field theory is unique up to gauge transformations on a given string background and given S-matrix. For the theory of open and closed strings we use results in open-closed homotopy algebra to show that the space of inequivalent open string field theories is isomorphic to the space of classical closed string backgrounds. As a further application of the openclosed homotopy algebra we show that string field theory is background independent and locally unique in a very precise sense. Finally we discuss topological string theory in the framework of homotopy algebras and find a generalized correspondence between closed strings and open string field theories.

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