Biorthogonal system

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In mathematics, a biorthogonal system is a pair of topological vector spaces E and F that are in duality is a pair of indexed subsets

\tilde v_i in E and \tilde u_i in F

such that

<\tilde v_i | \tilde u_j>= \delta_{i,j}

with the Kronecker delta. This applies, for example, with E = F = H a Hilbert space; in which case this reduces to an orthonormal system. In L2[0,2π] the functions cos nx and sin nx form a biorthogonal system.

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[edit] Projection

Related to a biorthogonal system is the projection

P:= \sum_{i \in I} \tilde u_i \otimes \tilde v_i,

where \left( u \otimes v\right) (x):= u <v|x>; its image is the linear span of \{\tilde u_i: i \in I\}, and the kernel is \{<\tilde v_i|.>=0: i \in I  \}.

[edit] Construction

Given a possibly non-orthogonal set of vectors \mathbf{u}= (u_i) and \mathbf{v}= (v_i) the projection related is

P= \sum_{i,j} u_i \left( <\mathbf{v}|\mathbf{u}>^{-1}\right)_{j,i} \otimes v_j,

where <\mathbf{v}|\mathbf{u}> is the matrix with entries \left(<\mathbf{v}|\mathbf{u}>\right)_{i,j}= <v_i|u_j>.

  • \tilde u_i:= (I-P) u_i, and \tilde v_i:= \left(I-P \right)^* v_i then is an orthogonal system.

[edit] See also

[edit] Reference

  • Jean Dieudonné, On biorthogonal systems Michigan Math. J. 2 (1953), no. 1, 7–20 [1]
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