A primer on quasi-convex functions in nonlinear potential theories
We present a self-contained treatment of the fundamental role that quasi-convex functions play in general (nonlinear second order) potential theories, which concerns the study of generalized subharmonics associated to a suitable closed subset (subequations) of the space of 2-jets. Quasi-convex funct...
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| creator | Payne, Kevin R Redaelli, Davide F |
| description | We present a self-contained treatment of the fundamental role that
quasi-convex functions play in general (nonlinear second order) potential
theories, which concerns the study of generalized subharmonics associated to a
suitable closed subset (subequations) of the space of 2-jets. Quasi-convex
functions build a bridge between classical and viscosity notions of solutions
of the natural Dirichlet problem in any potential theory. Moreover, following a
program initiated by Harvey and Lawson in [arXiv:0710.3991], a
potential-theoretic approach is widely being applied for treating nonlinear
partial differential equations (PDEs). This viewpoint revisits the conventional
viscosity approach to nonlinear PDEs [arXiv:math/9207212] under a more
geometric prospective inspired by Krylov (1995) and takes much insight from
classical pluripotential theory. The possibility of a symbiotic and productive
relationship between general potential theories and nonlinear PDEs relies
heavily on the class of quasi-convex functions, which are themselves the
generalized subharmonics of a pure second order constant coefficient potential
theory. |
| doi_str_mv | 10.48550/arxiv.2303.14477 |
| format | Article |
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quasi-convex functions play in general (nonlinear second order) potential
theories, which concerns the study of generalized subharmonics associated to a
suitable closed subset (subequations) of the space of 2-jets. Quasi-convex
functions build a bridge between classical and viscosity notions of solutions
of the natural Dirichlet problem in any potential theory. Moreover, following a
program initiated by Harvey and Lawson in [arXiv:0710.3991], a
potential-theoretic approach is widely being applied for treating nonlinear
partial differential equations (PDEs). This viewpoint revisits the conventional
viscosity approach to nonlinear PDEs [arXiv:math/9207212] under a more
geometric prospective inspired by Krylov (1995) and takes much insight from
classical pluripotential theory. The possibility of a symbiotic and productive
relationship between general potential theories and nonlinear PDEs relies
heavily on the class of quasi-convex functions, which are themselves the
generalized subharmonics of a pure second order constant coefficient potential
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quasi-convex functions play in general (nonlinear second order) potential
theories, which concerns the study of generalized subharmonics associated to a
suitable closed subset (subequations) of the space of 2-jets. Quasi-convex
functions build a bridge between classical and viscosity notions of solutions
of the natural Dirichlet problem in any potential theory. Moreover, following a
program initiated by Harvey and Lawson in [arXiv:0710.3991], a
potential-theoretic approach is widely being applied for treating nonlinear
partial differential equations (PDEs). This viewpoint revisits the conventional
viscosity approach to nonlinear PDEs [arXiv:math/9207212] under a more
geometric prospective inspired by Krylov (1995) and takes much insight from
classical pluripotential theory. The possibility of a symbiotic and productive
relationship between general potential theories and nonlinear PDEs relies
heavily on the class of quasi-convex functions, which are themselves the
generalized subharmonics of a pure second order constant coefficient potential
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quasi-convex functions play in general (nonlinear second order) potential
theories, which concerns the study of generalized subharmonics associated to a
suitable closed subset (subequations) of the space of 2-jets. Quasi-convex
functions build a bridge between classical and viscosity notions of solutions
of the natural Dirichlet problem in any potential theory. Moreover, following a
program initiated by Harvey and Lawson in [arXiv:0710.3991], a
potential-theoretic approach is widely being applied for treating nonlinear
partial differential equations (PDEs). This viewpoint revisits the conventional
viscosity approach to nonlinear PDEs [arXiv:math/9207212] under a more
geometric prospective inspired by Krylov (1995) and takes much insight from
classical pluripotential theory. The possibility of a symbiotic and productive
relationship between general potential theories and nonlinear PDEs relies
heavily on the class of quasi-convex functions, which are themselves the
generalized subharmonics of a pure second order constant coefficient potential
theory.</abstract><doi>10.48550/arxiv.2303.14477</doi><oa>free_for_read</oa></addata></record> |
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| title | A primer on quasi-convex functions in nonlinear potential theories |
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