Basics Of Functional Analysis With Bicomplex Sc... ❲HIGH-QUALITY❳

Every bicomplex number has a unique :

This decomposition is the of the theory: every bicomplex functional analytic result follows from applying complex functional analysis to each idempotent component. 4. Bicomplex Linear Operators Let ( X, Y ) be bicomplex Banach spaces. A map ( T: X \to Y ) is bicomplex linear if: [ T(\lambda x + \mu y) = \lambda T(x) + \mu T(y), \quad \forall \lambda, \mu \in \mathbbBC, \ x,y \in X. ] Basics of Functional Analysis with Bicomplex Sc...

Any bicomplex Banach space ( X ) is isomorphic (as a real Banach space) to ( X_1 \oplus X_2 ), where ( X_1, X_2 ) are complex Banach spaces, and bicomplex scalars act by: [ (z_1 + z_2 \mathbfj) (x_1 \mathbfe_1 + x_2 \mathbfe_2) = (z_1 - i z_2) x_1 \mathbfe_1 + (z_1 + i z_2) x_2 \mathbfe_2. ] Every bicomplex number has a unique : This