- ANCIENT SOLUTIONS 31
shows p (0) = 1 and p' (0) = 0 if and only if
lim 'ljJ (z) = 0
z-+w and. w' (z)
Zlim -+W -(-) <{J Z = -1.
D3.3. The Rosenau solution. In Lemma 5.3, we will show that if g
and h are metrics on a surface M^2 conformally related by g = ev h, then
the scalar curvature R 9 of g is related to the scalar curvature Rh of h by
R 9 = e-v (-~hv +Rh)· In the case that
g = U· h
for u : M^2 ---+ ffi+, this formula becomes
(2.19) Rg = -~h (logu) +Rh.
u
Now if u is allowed to depend on time but h is regarded as fixed, g will
satisfy the Ricci fl.ow equation for a surface,if and only if8
EJtg=-R·g,
8u. h = (~hlogu - Rh)
EJt u g,hence if and only if u evolves by
EJu
EJt = ~h logu - Rh·In the special case that ( M^2 , h) is fl.at, this reduces toau I
(2.20)
8= ~h l<Dg u.
REMARK 2.11. There is a: interesL ng connection between equation
(2.20) and the porous media !low, wht h is the PDE(2.21) ~ u =~um.
UT I
When m = 1, this is just the ordinary linear heat equation. For all other
m > 0, it is nonlinear. When 0 < m < 1,lequation (2.21) appears in various
models in plasma physics. When m > I il, it models ionized gases at high
temperatures; and when m > 2, it models ideal gases fl.owing isentropically
in a homogeneous porous medium. (See [8].) If t ~ mT, then equation
(2.21) becomes I~u= ~~um.
EJt m