Formalized Functional Analysis with Semilinear Maps

Formalized Functional Analysis with Semilinear Maps

Semilinear maps are a generalization of linear maps between vector spaces where we allow the scalar action to be twisted by a ring homomorphism such as complex conjugation. In particular, this generalization unifies the concepts of linear and conjugate-linear maps. We implement this generalization i...

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Veröffentlicht in:Journal of automated reasoning 2024-06, Vol.68 (2), p.10, Article 10
Hauptverfasser: Dupuis, Frédéric, Lewis, Robert Y., Macbeth, Heather
Format: Artikel
Sprache:eng
Schlagworte:
Artificial Intelligence
Computer Science
Conjugation
Functional analysis
Hilbert space
Homomorphisms
Libraries
Linear algebra
Mathematical Logic and Formal Languages
Mathematical Logic and Foundations
Mathematics
Operators (mathematics)
Selected Extended Papers of ITP 2022
Symbolic and Algebraic Manipulation
Theorems
Vector spaces
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Zusammenfassung:Semilinear maps are a generalization of linear maps between vector spaces where we allow the scalar action to be twisted by a ring homomorphism such as complex conjugation. In particular, this generalization unifies the concepts of linear and conjugate-linear maps. We implement this generalization in Lean’s mathlib library, along with a number of important results in functional analysis which previously were impossible to formalize properly. Specifically, we prove the Fréchet–Riesz representation theorem and the spectral theorem for compact self-adjoint operators generically over real and complex Hilbert spaces, additionally developing the Fourier theory needed to state and prove Parseval’s identity. We also show that semilinear maps have applications beyond functional analysis by formalizing the one-dimensional case of a theorem of Dieudonné and Manin that classifies the isocrystals over an algebraically closed field with positive characteristic.
ISSN:0168-7433
1573-0670
DOI:10.1007/s10817-024-09696-4