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A construction of the quantum Steenrod squares and their algebraic relations

Nicholas Wilkins

2020Geometry & Topology17 citationsDOIOpen Access PDF

Abstract

We construct a quantum deformation of the Steenrod square construction on closed monotone symplectic manifolds, based on the work of Fukaya, Betz and Cohen. We prove quantum versions of the Cartan and Adem relations. We compute the quantum Steenrod squares for all [math] and give the means of computation for all toric varieties. As an application, we also describe two examples of blowups along a subvariety, in which a quantum correction of the Steenrod square on the blowup is determined by the classical Steenrod square on the subvariety.

Topics & Concepts

MathematicsQuantumSymplectic geometryMonotone polygonSquare (algebra)Pure mathematicsAlgebraic numberConstruct (python library)Scheme (mathematics)Quantum algorithmSteenrod algebraQuantum operationComputationType (biology)Algebra over a fieldQuantum systemAlgebraic topologyQuantum cohomologyWork (physics)Eigenvalues and eigenvectorsHomotopy and Cohomology in Algebraic TopologyGeometric and Algebraic TopologyAdvanced Combinatorial Mathematics
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