Nonlinear embeddings: Applications to analysis, fractals and polynomial root finding

We introduce Bκ-embeddings, nonlinear mathematical structures that connect, through smooth paths parameterized by κ, a finite or denumerable set of objects at κ=0 (e.g. numbers, functions, vectors, coefficients of a generating function...) to their ordinary sum at κ → ∞. We show that Bκ-embeddings can be used to design nonlinear irreversible processes through this connection. A number of examples of increasing complexity are worked out to illustrate the possibilities uncovered by this concept. These include not only smooth functions but also fractals on the real line and on the complex plane. As an application, we use Bκ-embeddings to formulate a robust method for finding all roots of a univariate polynomial without factorizing or deflating the polynomial. We illustrate this method by finding all roots of a polynomial of 19th degree.