116 J.W. COGDELL, £-FUNCTIONS FOR GLn2.2.2. The global integrals
We now have the prerequisites for writing down a family of Eulerian integrals for
cusp forms <p on GLn twisted by automorphic forms on GLm form< n. Let <p E V1T
be a cusp form on GLn(A) and <p^1 E V1T' a cusp form on GLm(A). (Actually, we
could take <p^1 to be an arbitrary automorphic form on GLm(A).) Consider the
integralsI(s; <p, <p^1 ) = 1 lP'~t.p (~ ~) t.p'(h)I det(h)ls-^1 /^2 dh.
GLm(k)\ GLm(A)
The integral I(s; <p, t.p') is absolutely convergent for all values of the complex para-
meter s, uniformly in compact subsets, since the cusp forms are rapidly decreasing.
Hence it is entire and bounded in any vertical strip as before.
Let us now investigate the Eulerian properties of these integrals. We first
replace lP'~<p by its Fourier expansion.I(s;<p,<p^1 ) = 1 lP'~<p (~ IO ) t.p'(h)ldet(h)ls-^1 /^2 dh
GLm(k)\ GLm(A) n-m= J L w~ ((6 1 ° ) (~ 1 ° ))
GLm(k)\ GLm(A) -yENm(k)\ GLm(k) n-m n-m
<p^1 (h)I det(h)ls-(n-m)/^2 dh.
Since <p'(h) is automorphic on GLm(A) and I det(1)I = 1 for ')' E GLm(k) we
may interchange the order of summation and integration for Re( s) > > 0 and then
recombine to obtainI(s; <p, <p^1 ) = r w~ (h^0 ) <p^1 (h)I det(h)ls-(n-m)/^2 dh.
}Nm(k) \ GLm(A) Q In-m
This integral is absolutely convergent for Re(s) >> 0 by the gauge estimates of [40,
Section 13] and this justifies the interchange.
Let us now integrate first over Nm(k)\ Nm(A). Recall that for n E Nm(A) C
Nn(A) we have W~(ng) = 'l/i(n)W~(g). Hence we haveJ(s;<p,t.p') = { { W~ ((n I 0 ) (h 0 ))
jNm(A)\ GLm(A) j Nm(k)\ Nm(A) Q n-m Q ln-m
<p^1 (nh) dn I det(h)ls-(n-m)/^2 dh= l m(A)\ GLm(A) W~ (~ ln~m)
f 'l/i(n)t.p'(nh) dn I det(h)ls- cn-mi1^2 dh
}Nm(k)\ Nm(A)= f w~ (h o ) w~,(h)I det(h)ls-cn-mJ/^2 dh
}Nm(A)\ GLm(A) Q ln-m
= w(s; w~, w~,)where W~,(h) is the '¢'-^1 -Whittaker function on GLm(A) associated to <p^1 , i.e.,
w~,(h) = r t.p^1 (nh)'¢'(n) dn,
}Nm(k)\ N,,,(A)and we retain absolute convergence for Re(s) >> 0.