Linear Operators, Part 1 |
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Page 430
Weak Compactness We have already introduced and employed the concepts of
weak sequential compactness ( II.3.25 ) and compactness in the X * ( or weak ) ...
There is at least one other type of weak compactness that is occasionally of use .
Weak Compactness We have already introduced and employed the concepts of
weak sequential compactness ( II.3.25 ) and compactness in the X * ( or weak ) ...
There is at least one other type of weak compactness that is occasionally of use .
Page 477
strong , and the weak operator topologies in B ( X , Y ) . It is evident that the
uniform operator topology is stronger than the strong operator topology , and that
the strong operator topology is stronger than the weak operator topology . With its
...
strong , and the weak operator topologies in B ( X , Y ) . It is evident that the
uniform operator topology is stronger than the strong operator topology , and that
the strong operator topology is stronger than the weak operator topology . With its
...
Page 511
A set AC B ( X , Y ) is compact in the weak operator topology if and only if it is
closed in the weak operator topology and the weak closure of Ax is weakly
compact for each x € X. A set AC B ( X , Y ) is compact in the strong operator
topology if ...
A set AC B ( X , Y ) is compact in the weak operator topology if and only if it is
closed in the weak operator topology and the weak closure of Ax is weakly
compact for each x € X. A set AC B ( X , Y ) is compact in the strong operator
topology if ...
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Contents
Preliminary Concepts | 1 |
The VitaliHahnSaks Theorem and Spaces of Measures | 7 |
B Topological Preliminaries | 10 |
Copyright | |
87 other sections not shown
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