40 1. RICCI SOLITONS
With respect to the frame a(t), one obtains the identification
(~r4/3 o o )
9a(t) = 0 1r2/3 0.
0 0 lt-2/3The limit soliton metric is
9oo(t) = 3tga(t)·
EXAMPLE 1.64. Let (S, g, X) denote the sol^3 Ricci soliton structure of
Example 1.57. With respect to the frame (3 = (F1, F2, F3) constructed there,
regard the fixed metric g as the matrix
Yf=(H ~)
Now consider the time-dependent frame a(t) = (3A(t) given by
(0 _l 0 )
A(t) = a(t) 0
2
O ,
0 0 a(t)a(t) ={ft.
With respect to the frame a(t), one gets the identification
9cx(t) = 4 0 1 0.
(
1r1 o o )
o o lr 4 1
The limit soliton metric is9oo(t) = 4tga(t)·
Lott also discovered a 4-dimensional example [256]. We will describe
its (time-independent) Ricci soliton structure, leaving construction of the
corresponding Ricci fl.ow solution as an interesting exercise for the reader.EXAMPLE 1.65. Let N denote the simply-connected 4-dimensional nilpo-
tent Lie group nil^4 with bracket relations
and all other [Fi, Fj] = 0.
The frame field defined in standard coordinates (x1, x2, x3, x4) on JR^4 by
a a a a a a
F1=-
8, F2=-
8, F3=-
8, F4=x1-
8+x2-
8+-
X1 X2 X3 X2 X3^8 X4
realizes these relations. The connection 1-forms are(\lgF-) = ~ (-~4 -t
4
-~4 F1 ;_ F3).
- J 2 0 -F4 0 F2
- F2 F1 - F3 F2 0