Linear System of Differential Equations with a Quadratic Invariant as the Schrödinger Equation

Abstract: Linear systems of differential equations with an invariant in the form of a positive definite quadratic form in a real Hilbert space are considered. It is assumed that the system has a simple spectrum and the eigenvectors form a complete orthonormal system. Under these assumptions, the linear system can be represented in the form of the Schrödinger equation by introducing a suitable complex structure. As an example, we present such a representation for the Maxwell equations without currents. In view of these o… Show more

“…This construction is especially simple for operators with a discrete spectrum. These issues are discussed in [4] for real linear systems of differential equations with a quadratic invariant in a Hilbert space in order to represent them in the form of Schrödinger equations.…”

Symplectic Geometry of the Koopman Operator

“…This construction is especially simple for operators with a discrete spectrum. These issues are discussed in [4] for real linear systems of differential equations with a quadratic invariant in a Hilbert space in order to represent them in the form of Schrödinger equations.…”

Symplectic Geometry of the Koopman Operator