Kato's conjecture
Kato's conjecture is a mathematical problem named after mathematician Tosio Kato, of the University of California, Berkeley. Kato initially posed the problem in 1953.[1] Kato asked whether the square roots of certain elliptic operators, defined via functional calculus, are analytic. The full statement of the conjecture as given by Auscher et al. is: "the domain of the square root of a uniformly complex elliptic operator [math]\displaystyle{ L =-\mathrm{div} (A\nabla) }[/math] with bounded measurable coefficients in Rn is the Sobolev space H1(Rn) in any dimension with the estimate [math]\displaystyle{ ||\sqrt{L}f||_{2} \sim ||\nabla f||_{2} }[/math]".[2]
The problem remained unresolved for nearly a half-century, until in 2001 it was jointly solved in the affirmative by Pascal Auscher, Steve Hofmann, Michael Lacey, Alan McIntosh, and Philippe Tchamitchian.[2]
References
- ↑ Kato, Tosio (1953). "Integration of the equation of evolution in a Banach space". J. Math. Soc. Jpn. 5 (2): 208–234. doi:10.2969/jmsj/00520208.
- ↑ 2.0 2.1 Auscher, Pascal; Hofmann, Steve; Lacey, Michael; McIntosh, Alan; Tchamitchian, Philippe (2002). "The solution of the Kato square root problem for second order elliptic operators on Rn". Annals of Mathematics 156 (2): 633–654. doi:10.2307/3597201.
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