- CONSTRUCTING THE BRYANT STEADY SOLITON 23
for some c between a and b. Letting b-+ +oo gives g'(c)/h'(c) = g(a)/h(a).
Substituting in from (1.56) gives:z (x~~-a~) +Jn~ - X ls=c =
2
:z ls=a.
Multiplying through by X^2 - aX (evaluated at c) and taking a -+ +oo
(which forces c-+ +oo) gives-++oo lim y~ +a= 0.
However, to get zero on the right-hand side, we need to first know thatX/Y^2 is bounded as s -+ +oo.
We know that X/Y^2 ;:::: 0. To obtain an upper bound, we use the differ-
ential equation_!,__ ds ( y2 X ) = a - y2 X (X^2 - 2aX + 1).
Since the trajectory approaches the origin in the XY-plane exponentially,there exists a k > 0 such that
- ds d ( -y2 X ) < - ( y2 -X - a ) ( e-ks - 1 ) + ae-ks.
Comparing with the solution of the ODE
du/ds = u(e-ks - 1) + ae-ksshows that X/Y^2 is bounded above. In particular, for s;:::: so
:Z (s):::; u (s) = e-(te-ks+s) (1: ete-ks+sae-k^8 ds + e-t :Z (so)).
The second limit, which gives the next term in the power series expansion
of X in terms of Y near the origin, follows by applying the same arguments
to the equations
:s ( X ~~y
2) = (-1-3X^2 + 4aX) ( X ~~Y
2
)- ; 2 (X^2 - 2aX)
andfs (X -aY
2) = (X -aY
2
) ( -1 )-4.y4 ds y4 4 (X^2 - aX)
a X^3- 2Y^2 + 4Y^4 (X^2 - aX).
D
EXERCISE 1.34. Verify the second limit.