In mathematics, an eigenform (meaning simultaneous Hecke eigenform with modular group SL(2,Z)) is a modular form which is an eigenvector for all Hecke operatorsTm, m = 1, 2, 3, ....
Eigenforms fall into the realm of number theory, but can be found in other areas of math and science such as analysis, combinatorics, and physics. A common example of an eigenform, and the only non-cuspidal eigenforms, are the Eisenstein series. Another example is the Δ Function.
There are two different normalizations for an eigenform (or for a modular form in general).
Algebraic normalizationedit
An eigenform is said to be normalized when scaled so that the q-coefficient in its Fourier series is one:
where q = e2πiz. As the function f is also an eigenvector under each Hecke operator Ti, it has a corresponding eigenvalue. More specifically ai, i ≥ 1 turns out to be the eigenvalue of f corresponding to the Hecke operator Ti. In the case when f is not a cusp form, the eigenvalues can be given explicitly.[1]
Analytic normalizationedit
An eigenform which is cuspidal can be normalized with respect to its inner product:
Existenceedit
The existence of eigenforms is a nontrivial result, but does come directly from the fact that the Hecke algebra is commutative.
Higher levelsedit
In the case that the modular group is not the full SL(2,Z), there is not a Hecke operator for each n ∈ Z, and as such the definition of an eigenform is changed accordingly: an eigenform is a modular form which is a simultaneous eigenvector for all Hecke operators that act on the space.
^Neal Koblitz (1984). "III.5". Introduction to Elliptic Curves and Modular Forms. ISBN9780387960296.
^Foerster, H. von (1981). Objects: tokens for (eigen-) behaviors. In Observing Systems (pp. 274 - 285). The Systems Inquiry Series. Seaside, CA: Intersystems Publications.
^Kauffman, L. H. (2003). Eigenforms: Objects as tokens for eigenbehaviors. Cybernetics and Human Knowing, 10(3/4), 73-90.
May 08, 2024
eigenform, mathematics, eigenform, meaning, simultaneous, hecke, eigenform, with, modular, group, modular, form, which, eigenvector, hecke, operators, fall, into, realm, number, theory, found, other, areas, math, science, such, analysis, combinatorics, physics. In mathematics an eigenform meaning simultaneous Hecke eigenform with modular group SL 2 Z is a modular form which is an eigenvector for all Hecke operators Tm m 1 2 3 Eigenforms fall into the realm of number theory but can be found in other areas of math and science such as analysis combinatorics and physics A common example of an eigenform and the only non cuspidal eigenforms are the Eisenstein series Another example is the D Function Contents 1 Normalization 1 1 Algebraic normalization 1 2 Analytic normalization 2 Existence 3 Higher levels 4 In cybernetics 5 ReferencesNormalization editThere are two different normalizations for an eigenform or for a modular form in general Algebraic normalization edit An eigenform is said to be normalized when scaled so that the q coefficient in its Fourier series is one f a 0 q i 2 a i q i displaystyle f a 0 q sum i 2 infty a i q i nbsp where q e2piz As the function f is also an eigenvector under each Hecke operator Ti it has a corresponding eigenvalue More specifically ai i 1 turns out to be the eigenvalue of f corresponding to the Hecke operator Ti In the case when f is not a cusp form the eigenvalues can be given explicitly 1 Analytic normalization edit An eigenform which is cuspidal can be normalized with respect to its inner product f f 1 displaystyle langle f f rangle 1 nbsp Existence editThe existence of eigenforms is a nontrivial result but does come directly from the fact that the Hecke algebra is commutative Higher levels editIn the case that the modular group is not the full SL 2 Z there is not a Hecke operator for each n Z and as such the definition of an eigenform is changed accordingly an eigenform is a modular form which is a simultaneous eigenvector for all Hecke operators that act on the space In cybernetics editIn cybernetics the notion of an eigenform is understood as an example of a reflexive system It plays an important role in the work of Heinz von Foerster 2 and is inextricably linked with second order cybernetics 3 References edit Neal Koblitz 1984 III 5 Introduction to Elliptic Curves and Modular Forms ISBN 9780387960296 Foerster H von 1981 Objects tokens for eigen behaviors In Observing Systems pp 274 285 The Systems Inquiry Series Seaside CA Intersystems Publications Kauffman L H 2003 Eigenforms Objects as tokens for eigenbehaviors Cybernetics and Human Knowing 10 3 4 73 90 Retrieved from https en wikipedia org w index php title Eigenform amp oldid 1165247074, wikipedia, wiki, book, books, library,
