406 W.-C. W. LI, RAMANUJAN GRAPHS AND RAMANUJAN HYPERGRAPHSWhen used as communication networks, Ramanujan graphs transmit informa-
tion efficiently; they are good expanders. These graphs have diverse applications
in computer science and real world.
The terminology of Ramanujan graph , originally coined by Lubotzky-Phillips-
Sarnak in [25], is motivated by its connection with the Ramanujan- Petterson
conjecture on the classical cusp forms, as we shall discuss in the next section. Here
we want to point out its connection with another very important topic in number
theory, the Riemann hypothesis.
Ihara introduced the following zeta function attached to a k-regular graph X:Zx(s) =IT (1-q-si(P))-l'
p
where q = k - 1, P runs through the prime geodesic cycles in X , and C(P) is the
length of P. He showed that, by letting u = q-s, the zeta function h as the form(1 - u2)X
Zx(u)= det(l-Au+qu^2 ) 'where x = -~ IX I is the Euler characteristic of the graph X. Note that the poles
of Z x ( s) in the vertical strip 0 < ~( s) < 1 all fall on the line ~( s) = ~, that is,
the Riemann hypothesis holds, if and only if X is Ramanujan. This is analogous
to the situation with the Selberg zeta function.1.2. Explicit construction of Ramanujan graphs and automorphic
formsTo explicitly compute the eigenvalues of a graph is not practical when the graph
size is large. Thus it would be desirable to have explicit constructions of graphs for
which the nontrivial eigenvalues are guaranteed to have small absolute values. Here
we exhibit three explicit constructions of Ramanujan graphs. The first gives infinite
families of k-regular Ramanujan graphs with fixed k, while the second and third
only construct finitely many k-regular Ramanujan graphs with fixed k. The families
from the first construction have applications as good expanders: the graphs from
the second and third constructions are in fact related to the first construction, and
their spectra are explicitly given as character sums, which lead to the construction
of automorphic forms whose Fourier coefficients are character sums arising from
eigenvalues of Ramanujan graphs.
Let K be either Q or a function field of one variable with finitely many elements
in its field of constants. Fix a place oo of K, which is the archimedean place if
K = Q. Fix another place v of K different from oo. Let H be a quaternion algebra
over K which is ramified at oo and unramified at v. Write D for the multiplicative
group of H divided by its center, and regard it as an algebraic group.
The vertices of our graph is a double coset space of the adelic points of D:Hereafter, for a place w of K, denote by Kw the completion of Kat w , and if w is
nonarchimedean, denote by Ow the ring of integers of Kw· The group IC is an open