Compact operator
An operator 
defined on a subset 
of a topological vector space with values in a topological vector space 
, such that every bounded subset of 
is mapped by it into a pre-compact set (cf. Pre-compact space) of 
. If, in addition, the operator 
is continuous on 
, then it is called completely continuous on this set. In the case when 
and 
are Banach or, more generally, bornological spaces and the operator 
is linear, the concept of a compact and a completely-continuous operator are the same. If 
is a compact and 
is a continuous operator, then 
and 
are compact operators, so that the set of compact operators is a two-sided ideal in the ring of all continuous operators. In particular, a compact operator does not have a continuous inverse. The property of compactness plays an essential role in the theory of fixed points of an operator and in the study of its spectrum, which in this case has a number of "good" properties.
Examples of compact operators are the Fredholm integral operators (cf. Integral operator)
 |
the Hammerstein operator
 |
and the Urysohn (Uryson) operator
 |
in certain function spaces, under suitable restrictions on the functions 
, 
and 
.
References
| [1] | L.A. Lyusternik, V.I. Sobolev, "Elements of functional analysis" , Hindushtan Publ. Comp. (1974) (Translated from Russian) |
| [2] | K. Yosida, "Functional analysis" , Springer (1980) pp. Chapt. 8, §1 |
| [3] | W. Rudin, "Functional analysis" , McGraw-Hill (1973) |
| [4] | M.A. Krasnosel'skii, et al., "Integral operators and spaces of summable functions" , Noordhoff (1976) (Translated from Russian) |
Comments
References
| [a1] | A.E. Taylor, D.C. Lay, "Introduction to functional analysis" , Wiley (1980) |
| [a2] | N. Dunford, J.T. Schwartz, "Linear operators. General theory" , 1 , Interscience (1958) |
Compact operator. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Compact_operator&oldid=39922