Perfect transmission and parallel composition for quantum walks on graphs with two leads

We study scattering for continuous-time quantum walks on finite graphs with two attached leads. We derive explicit formulae for the two-terminal scattering matrix in terms of characteristic polynomials of the finite graph and its vertex-deleted subgraphs. For real-weighted two-terminal graphs, we then introduce three real quantities, μ₁, μ₂, and ν, which are each additive under parallel composition of graphs. In these variables, perfect transmission at fixed momentum is characterized by the condition μ₁=μ₂ together with a hyperbola in the corresponding (μ,ν)-plane, whose points determine the transmission phase. This turns the search for graphs with prescribed transmission properties into a geometric vector-sum problem for smaller building blocks.