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• Functional_calculus abstract "In mathematics, a functional calculus is a theory allowing one to apply mathematical functions to mathematical operators. It is now a branch (more accurately, several related areas) of the field of functional analysis, connected with spectral theory. (Historically, the term was also used synonymously with calculus of variations; this usage is obsolete, but see functional derivative. Sometimes it is used in relation to types of functional equations, or in logic for systems of predicate calculus.)If f is a function, say a numerical function of a real number, and M is an operator, there is no particular reason why the expressionf(M)should make sense. If it does, then we are no longer using f on its original function domain. In the tradition of operational calculus, algebraic expressions in operators are handled irrespective of their meaning. This passes nearly unnoticed if we talk about 'squaring a matrix', though, which is the case of f(x) = x2 and M an n×n matrix. The idea of a functional calculus is to create a principled approach to this kind of overloading of the notation. The most immediate case is to apply polynomial functions to a square matrix, extending what has just been discussed. In the finite-dimensional case, the polynomial functional calculus yields quite a bit of information about the operator. For example, consider the family of polynomials which annihilates an operator T. This family is an ideal in the ring of polynomials. Furthermore, it is a nontrivial ideal: let n be the finite dimension of the algebra of matrices, then {I, T, T2...Tn} is linearly dependent. So ∑ αi Ti = 0 for some scalars αi, not all equal to 0. This implies that the polynomial ∑ αi xi lies in the ideal. Since the ring of polynomials is a principal ideal domain, this ideal is generated by some polynomial m. Multiplying by a unit if necessary, we can choose m to be monic. When this is done, the polynomial m is precisely the minimal polynomial of T. This polynomial gives deep information about T. For instance, a scalar α is an eigenvalue of T if and only if α is a root of m. Also, sometimes m can be used to calculate the exponential of T efficiently. The polynomial calculus is not as informative in the infinite-dimensional case. Consider the unilateral shift with the polynomials calculus; the ideal defined above is now trivial. Thus one is interested in functional calculi more general than polynomials. The subject is closely linked to spectral theory, since for a diagonal matrix or multiplication operator, it is rather clear what the definitions should be.For technical accounts see:holomorphic functional calculuscontinuous functional calculusBorel functional calculus.".
• Functional_calculus wikiPageID "965348".
• Functional_calculus wikiPageRevisionID "598869608".
• Functional_calculus hasPhotoCollection Functional_calculus.
• Functional_calculus id "F/f042030".
• Functional_calculus title "Functional calculus".
• Functional_calculus subject Category:Functional_calculus.
• Functional_calculus comment "In mathematics, a functional calculus is a theory allowing one to apply mathematical functions to mathematical operators. It is now a branch (more accurately, several related areas) of the field of functional analysis, connected with spectral theory. (Historically, the term was also used synonymously with calculus of variations; this usage is obsolete, but see functional derivative.".
• Functional_calculus label "Calcul fonctionnel".
• Functional_calculus label "Functional calculus".
• Functional_calculus label "Functionele calculus".
• Functional_calculus label "Funktionalkalkül".
• Functional_calculus label "汎函数計算".
• Functional_calculus sameAs Funktionalkalkül.
• Functional_calculus sameAs Calcul_fonctionnel.
• Functional_calculus sameAs 汎函数計算.
• Functional_calculus sameAs Functionele_calculus.
• Functional_calculus sameAs m.03t_k4.
• Functional_calculus sameAs Q1474584.
• Functional_calculus sameAs Q1474584.
• Functional_calculus wasDerivedFrom Functional_calculus?oldid=598869608.
• Functional_calculus isPrimaryTopicOf Functional_calculus.