Linear Operators: Spectral operators |
From inside the book
Results 1-3 of 44
Page 2163
The proof will involve Riemann integrals of the type ( i ) F ( $ ) E ( DE ) , JO ( T )
where E is the resolution of the identity for T and F is an operator valued function
defined on o ( T ) continuous in the uniform operator topology , and for which ( ii )
...
The proof will involve Riemann integrals of the type ( i ) F ( $ ) E ( DE ) , JO ( T )
where E is the resolution of the identity for T and F is an operator valued function
defined on o ( T ) continuous in the uniform operator topology , and for which ( ii )
...
Page 2265
( ii ) If En # 0 , En has uniform multiplicity n . PROOF . We show first that each
nonzero Ee B bounds a nonzero Ge B of uniform multiplicity . Let no = min { m ( F
) | 0 EF SE } . Since the cardinals are well ordered , there exists a projection G SE
...
( ii ) If En # 0 , En has uniform multiplicity n . PROOF . We show first that each
nonzero Ee B bounds a nonzero Ge B of uniform multiplicity . Let no = min { m ( F
) | 0 EF SE } . Since the cardinals are well ordered , there exists a projection G SE
...
Page 2283
Then a projection E in B has finite uniform multiplicity n if and only if its adjoint E *
in B * has finite uniform multiplicity n . PROOF . It is sufficient to suppose E and E
* satisfy the countable chain condition . Also since each projection is the union ...
Then a projection E in B has finite uniform multiplicity n if and only if its adjoint E *
in B * has finite uniform multiplicity n . PROOF . It is sufficient to suppose E and E
* satisfy the countable chain condition . Also since each projection is the union ...
What people are saying - Write a review
We haven't found any reviews in the usual places.
Contents
SPECTRAL OPERATORS | 1924 |
An Operational Calculus for Bounded Spectral | 1941 |
Part | 1950 |
Copyright | |
9 other sections not shown
Other editions - View all
Common terms and phrases
adjoint operator analytic apply arbitrary assume B-space Banach space Boolean algebra Borel sets boundary conditions bounded bounded operator Chapter clear closed commuting compact complex consider constant contained continuous converges Corollary corresponding countably additive defined Definition denote dense determined differential operator discrete domain elements equation equivalent established example exists extension fact finite follows formal formula given gives Hence Hilbert space hypothesis identity inequality integral invariant inverse Lemma limit linear linear operator Math Moreover multiplicity norm positive preceding present problem projections PROOF properties proved range regular resolution resolvent respectively restriction Russian satisfies scalar type seen sequence shown shows similar spectral measure spectral operator spectrum subset subspace sufficiently Suppose Theorem theory topology unbounded uniform uniformly unique valued vector weakly zero
Bibliographic information
| Title | Linear Operators: Spectral operators Part 3 of Linear Operators, Jacob T. Schwartz Volume 7 of Pure & Applied Mathematics : a Wiley-interscience series of texts, monographs & tracts Volume 7 of Pure and applied mathematics : a series of texts and monographs Volume 7 of Pure and applied mathematics Interscience Press Pure and applied mathematics, ISSN 0079-8185 Wiley classics library |
| Authors | Nelson Dunford, Jacob T. Schwartz, William G. Bade, Robert G. Bartle |
| Editors | William G. Bade, Robert G. Bartle |
| Contributor | Karreman Mathematics Research Collection |
| Edition | reprint |
| Publisher | Interscience Publishers, 1958 |
| Original from | the University of Michigan |
| Digitized | 2 Feb 2010 |
| ISBN | 0471226394, 9780471226390 |
| Length | 2592 pages |
| Export Citation | BiBTeX EndNote RefMan |