The Riesz Representation Theorem is a foundational result in functional analysis, particularly in Hilbert Space theory. It establishes a correspondence between linear functionals and elements of a Hilbert space, providing a way to “represent” each continuous linear functional as an inner product with a unique vector in the space.

Statement

Let be a Hilbert space over or . For every continuous linear functional (where is or ), there exists a unique vector such that for all ,

The vector is uniquely determined and satisfies , where denotes the operator norm of the functional .

Intuition

The theorem tells us that every continuous linear functional on a Hilbert space can be represented as taking the inner product with a fixed vector in . In other words, functionals in (the dual space of ) can be identified with elements of itself, allowing us to treat and its dual space as isometrically isomorphic.

Properties and Implications

  1. Isomorphism Between and : The map given by is an isometric isomorphism. Thus, and are essentially the same in the sense of normed spaces.

  2. Norm Preservation: The norm of the functional equals the norm of its corresponding vector , i.e., .

  3. Self-Duality: In a Hilbert space, this theorem allows us to “represent” every continuous linear functional as an element of the space itself, unlike in general Banach spaces.

Applications

  • Solution to Optimization Problems: This theorem provides the foundation for various optimization techniques, such as finding the best approximation in least squares problems.
  • Weak Convergence: It allows for an inner product-based characterization of weak convergence in Hilbert spaces.
  • Spectral Theory: The theorem is instrumental in developing the spectral theory of operators on Hilbert spaces by connecting functionals and vectors.

Proof Sketch

  1. Define Candidate Vector: For a given , if , let . Otherwise, use the Hilbert space structure to find a vector such that for all .

  2. Uniqueness and Norm Preservation: Uniqueness of follows from the properties of inner products, and norm preservation is verified using theCauchy–Schwarz Inequality and properties of .

The Riesz Representation Theorem elegantly bridges the structure of a Hilbert space and its dual, making it one of the most powerful tools in functional analysis.