Nicolas Behr

Latest

• Convolution Products on Double Categories and Categorification of Rule Algebras
• Tracelet Hopf algebras and decomposition spaces
• Fundamentals of Compositional Rewriting Theory
• Rewriting theory for the life sciences: A unifying theory of CTMC semantics
• Concurrency Theorems for Non-linear Rewriting Theories
• Fusion of interfaces in Landau-Ginzburg models: a functorial approach
• Compositionality of Rewriting Rules with Conditions
• On Stochastic Rewriting and Combinatorics via Rule-Algebraic Methods
• Stochastic Graph Transformation For Social Network Modeling
• Efficient Computation of Graph Overlaps for Rule Composition: Theory and Z3 Prototyping
• Tracelets and Tracelet Analysis Of Compositional Rewriting Systems
• Combinatorial Conversion and Moment Bisimulation for Stochastic Rewriting Systems
• Rule Algebras for Adhesive Categories (invited extended jounral version)
• Rewriting Theory for the Life Sciences: A Unifying Theory of CTMC Semantics
• Sesqui-Pushout Rewriting: Concurrency, Associativity and Rule Algebra Framework
• Dual Numbers and Operational Umbral Methods
• Operator Ordering and Solution of Pseudo-Evolutionary Equations
• Operational Methods in the Study of Sobolev-Jacobi Polynomials
• Rule Algebras for Adhesive Categories
• Explicit formulae for all higher order exponential lacunary generating functions of Hermite polynomials
• Combinatorics of chemical reaction systems
• The algebras of graph rewriting
• Stochastic mechanics of graph rewriting
• Holography as a highly efficient renormalization group flow. II. An explicit construction
• Holography as a highly efficient renormalization group flow. I. Rephrasing gravity
• Matrix factorisations for rational boundary conditions by defect fusion
• Renormalization and redundancy in 2d quantum field theories
• Variable transformation defects
• New solid state lens for reflective neutron focusing
• D-branes and matrix factorisations in supersymmetric coset models
• Optical Antenna Properties of Scanning Probe Tips: Plasmonic Light Scattering, Tip-Sample Coupling, and Near-Field Enhancement
• Reply to ``Comment on `Scanning-probe Raman spectroscopy with single-molecule sensitivity' ''
• Scanning-probe Raman spectroscopy with single-molecule sensitivity
• Ultrahigh resolution scattering near-field vibrational microscopy with single molecule sensitivity