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arxiv: 0905.3869 · v1 · pith:JJWV6CG6new · submitted 2009-05-24 · 🧮 math.DG

Entire self-similar solutions to Lagrangian Mean curvature flow

classification 🧮 math.DG
keywords potentialcurvatureentireexpandingflowfunctionhessianinfinity
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We consider self-similar solutions to mean curvature evolution of entire Lagrangian graphs. When the Hessian of the potential function $u$ has eigenvalues strictly uniformly between -1 and 1, we show that on the potential level all the shrinking solitons are quadratic polynomials while the expanding solitons are in one-to-one correspondence to functions of homogenous of degree 2 with the Hessian bound. We also show that if the initial potential function is cone-like at infinity then the scaled flow converges to an expanding soliton as time goes to infinity.

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  1. A Bernstein Theorem for the Self-Shrinking $J$-Equation and Some Generalizations

    math.DG 2026-06 unverdicted novelty 6.0

    Every entire smooth plurisubharmonic solution of the self-shrinking J-equation on C^n is a quadratic polynomial, with the method extending to a broad class of fully nonlinear elliptic operators.