Difference sche1nes as operator equations. General for1nulations 123Exa1nple 3. Non-self-adjoint operators. Let wh = { X; = i h' i =
0, 1, ... , N , h = 1 / N} be a. grid on the segn1ent 0 < x < 1 and let the
difference operators(14) A- y = Y-' x A+ y = -y_, x
0
!napping the set Qh of grid functions defined on wh and vanishing for i = 0
and i = N into Qh, be such thatZ• --^1 '
i = 2, 3, ... , N - 1,i = 1, 2, ... , N - 2,
i=N-l.These forn1ulae show that the operators A - and A+ can be treated under
such an approach as operators from Qh into Qh·
Let (y, v) = L;:~^1 Yi vi h be the inner product in Qh and Qh· It seems
clear that the operators A- and A+ are mutually adjoint:(15) for anyIndeed, by the summation by parts formula we have -(y, vx) = (Y:t' v) if
y = v = 0 for i = 0 and i = N. This just implies the fact that A- and A+
are operators adjoint to each other. We note in passing thatA-+ A+= -( Yx - Y-) x = -h Ay,
where A y = y_ xx , that is, A- +A+ = -h A. Therefore, the operators A_
and A+ are positive definite:. h h
(A-y, y) =(A+ y, y) = 2 (-Ay, y) = 2 llvvll^2 > 4hll Yll2.
The last inequality holds true on account of Lemma 3 in Section 3.4.
(16)Later we will deal with operators fr0111 Qh into Qh of the structure1
R 1 y = -h Y-, x1
Ri = h A-,1
R2 y = h ( -yx ) ,1
R2 = h A+