Aluthge transform
In mathematics and more precisely in functional analysis, the Aluthge transformation is an operation defined on the set of bounded operators of a Hilbert space. It was introduced by Ariyadasa Aluthge to study p-hyponormal linear operators.[1]
Definition
Let be a Hilbert space and let be the algebra of linear operators from to . By the polar decomposition theorem, there exists a unique partial isometry such that and , where is the square root of the operator . If and is its polar decomposition, the Aluthge transform of is the operator defined as:
More generally, for any real number , the -Aluthge transformation is defined as
Example
For vectors , let denote the operator defined as
An elementary calculation[2] shows that if , then
Notes
- Aluthge, Ariyadasa (1990). "On p-hyponormal operators for 0 < p < 1". Integral Equations Operator Theory. 13 (3): 307–315. doi:10.1007/bf01199886.
- Chabbabi, Fadil; Mbekhta, Mostafa (June 2017). "Jordan product maps commuting with the λ-Aluthge transform". Journal of Mathematical Analysis and Applications. 450 (1): 293–313. doi:10.1016/j.jmaa.2017.01.036.
References
- Antezana, Jorge; Pujals, Enrique R.; Stojanoff, Demetrio (2008). "Iterated Aluthge transforms: a brief survey". Revista de la Unión Matemática Argentina. 49: 29–41.
External links
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