Semi-Fredholm operator
Let 
and 
be two Banach spaces and let 
denote the Banach space of all continuous (bounded) operators from 
into 
(cf. also Banach space; Continuous operator). For an operator 
in 
, let 
be the set of all 
such that 
and let 
be the quotient space 
, where 
denotes the range of 
. By definition, 
is a semi-Fredholm operator if 
is closed (i.e. it is a normally-solvable operator) and at least one of the vector spaces 
and 
is of finite dimension. (The definition is partially redundant, since if the dimension of 
is finite, 
is closed.)
For a semi-Fredholm operator 
, its index, i.e.
 |
is uniquely determined either as an integer, or as plus or minus infinity. In the first case 
is a Fredholm operator. Cf. also Index of an operator.
The set 
of all semi-Fredholm operators in 
is open in 
and the index is constant on each connected component of 
. Moreover, if 
is a compact operator in 
and 
is in 
, then 
is also in 
and its index equals that of 
. Due to these properties, semi-Fredholm operators play an important role in linear and non-linear analysis. They were first explicitly considered by I.C. Gohberg and M.G. Krein [a1] and T. Kato [a2], who also treated the case when 
is unbounded.
References
| [a1] | I.C. Gohberg, M.G. Krein, "The basic propositions on defect numbers, root numbers and indices of linear operators" Transl. Amer. Math. Soc. (2) , 13 (1960) pp. 185–264 Uspekhi Mat. Nauk. , 12 (1957) pp. 43–118 |
| [a2] | T. Kato, "Perturbation theory for nullity, deficiency and other quantities of linear operators" J. d'Anal. Math. , 6 (1958) pp. 261–322 |
Semi-Fredholm operator. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Semi-Fredholm_operator&oldid=55448