# Measures of Noncompactness and Condensing Operators

Part of the Operator Theory: Advances and Applications book series (OT, volume 55)

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Part of the Operator Theory: Advances and Applications book series (OT, volume 55)

A condensing (or densifying) operator is a mapping under which the image of any set is in a certain sense more compact than the set itself. The degree of noncompactness of a set is measured by means of functions called measures of noncompactness. The contractive maps and the compact maps [i.e., in this Introduction, the maps that send any bounded set into a relatively compact one; in the main text the term "compact" will be reserved for the operators that, in addition to having this property, are continuous, i.e., in the authors' terminology, for the completely continuous operators] are condensing. For contractive maps one can take as measure of noncompactness the diameter of a set, while for compact maps can take the indicator function of a family of non-relatively com pact sets. The operators of the form F( x) = G( x, x), where G is contractive in the first argument and compact in the second, are also condensing with respect to some natural measures of noncompactness. The linear condensing operators are characterized by the fact that almost all of their spectrum is included in a disc of radius smaller than one. The examples given above show that condensing operators are a sufficiently typical phenomenon in various applications of functional analysis, for example, in the theory of differential and integral equations. As is turns out, the condensing operators have properties similar to the compact ones.

addition character compactness equation form function functional functional analysis functions integral Integral equation mapping measure operator sets

- DOI https://doi.org/10.1007/978-3-0348-5727-7
- Copyright Information Birkhäuser Basel 1992
- Publisher Name Birkhäuser, Basel
- eBook Packages Springer Book Archive
- Print ISBN 978-3-0348-5729-1
- Online ISBN 978-3-0348-5727-7
- Series Print ISSN 0255-0156
- Series Online ISSN 2296-4878
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