The small dispersion limit of the Korteweg‐de Vries equation. III

In Parts I and II we have derived explicit formulas for the distribution limit u of the solution of the KdV equation as the coefficient of uxxx tends to zero. This formula contains n parameters β1, …, βn whose values, as well as whose number, depends on x and t. In Section 4 we have shown that for t<tb, n=1, and the value of β, was determined. In Section 5 we have shown that the parameters βi satisfy a nonlinear system of partial differential equations. In Part III, Section 6 we show that for t large, n=3, and we determine the asymptotic behavior of β1, β2, β3, and of u and u2, for t large. The explicit formulas show that u and u2 are O(t−1) and O(t-2) respectively (see formulas (6.2) and (6.24)). In Section 7 we study initial data whose value tends to zero as x+∞, and to -1 as x−∞. If one accepts some plausible guesses about the behavior of solutions with such initial data, we derive an explicit formula for the solution and determine the large scale asymptotic behavior of the solution: . The function s(ζ) is expressible in terms of complete elliptic integrals; a similar formula is derived for U2. In Section 8 we indicate how to extend the treatment of this series of papers to multihumped (but still negative) initial data.