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Index of an operator

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The difference between the dimensions of the deficiency subspaces (cf. Deficiency subspace) of a linear operator $A\colon L_0\to L_1$, that is, between those of its kernel $\operatorname{Ker}A=A^{-1}(0)$ and its cokernel $\operatorname{Coker}A=L_1/A(L_0)$, if these spaces are finite-dimensional. The index of an operator is a homotopy invariant that characterizes the solvability of the equation $Ax=b$.

Comments

The index defined above is also called the analytic index of $A$, cf. Index formulas.

An important case, in which the index is well defined and is a homotopy invariant, is that of elliptic partial differential operators acting on sections of vector bundles over compact manifolds.

One can also define the index of, e.g., a linear Fredholm operator between Banach spaces, of an elliptic boundary value problem and of an "almost" pseudo-differential operator (cf. also [a1]).

References

[a1] L.V. Hörmander, "The analysis of linear partial differential operators" , 3 , Springer (1985)
How to Cite This Entry:
Index of an operator. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Index_of_an_operator&oldid=12681