Giraud conditions
Conditions for the solvability in the classical sense of the fundamental boundary value problems for second-order linear elliptic equations. Suppose that the following elliptic equation is given in a bounded 
-dimensional domain 
(
) with boundary 
:
 | (*) |
It is required to find a function 
that: 1) lies in the class 
; 2) satisfies condition (*) in 
; and 3) satisfies the condition 
on 
(the first boundary value problem, or Dirichlet problem), or the condition
 |
(the second boundary value problem, or Neumann problem), or else the condition
 |
(the third boundary value problem). Here 
is the direction of the conormal, with direction cosines
 |
 |
is the outward normal to 
, 
is any direction such that 
for all 
, and the sign 
means that the limit value is taken from within 
.
The Giraud conditions for the solvability of the boundary value problems indicated consist of the following. If the coefficients 
, 
, 
of 
are of class 
in 
, if the right-hand side 
, if the boundary conditions 
(for the second and third boundary value problems), if 
(for the third boundary value problem), and if the boundary 
of 
is of class 
, then the Fredholm alternative holds for the first, second and third boundary value problems. That is, either the corresponding homogeneous problem has only the trivial solution, and then the inhomogeneous problem has a unique solution for arbitrary 
and 
, or else the homogeneous problem has 
linearly independent solutions 
, 
, and then the inhomogeneous problem has a solution only if 
linear functionals in 
and 
vanish. If this last condition is satisfied, the inhomogeneous problem has infinitely-many solutions, and if 
is one of them, then the general solution can be written in the form 
, where the 
are arbitrary constants. In the case where the coefficients of 
are smoother (
, 
), so that the adjoint operator 
can be considered, the requirement that the linear functionals in 
and 
vanish reduces to the orthogonality of 
and 
with all 
linearly independent solutions of the adjoint homogeneous problem. The conditions were obtained by G. Giraud [1]–[3].
References
| [1] | G. Giraud, "Existence de certaines dérivées des functions de Green; consequences pour les problèmes du type de Dirichlet" C.R. Acad. Sci. Paris , 202 (1936) pp. 380–382 |
| [2a] | G. Giraud, "Généralisation des problèmes sur les opérateurs du type elliptique" Bull. Sci. Math. , 56 (1932) pp. 248–272 |
| [2b] | G. Giraud, "Généralisation des problèmes sur les opérateurs du type elliptique" Bull. Sci. Math. , 56 (1932) pp. 281–312 |
| [2c] | G. Giraud, "Généralisation des problèmes sur les opérateurs du type elliptique" Bull. Sci. Math. , 56 (1932) pp. 316–352 |
| [3] | G. Giraud, "Nouvelle méthode pour traité certains problèmes relatifs aux équations du type elliptique" J. Math. Pures. Appl. , 18 (1939) pp. 111–143 |
| [4] | C. Miranda, "Partial differential equations of elliptic type" , Springer (1970) (Translated from Italian) |
Giraud conditions. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Giraud_conditions&oldid=38915