曲面上的曲率在理论物理中的一些应用

收稿日期:2023-08-25 出版日期:2023-09-30 发布日期:2023-09-30
通讯作者: YANG Yi-song (1958-), male, born in Beijing, professor of New York University, Ph.D., interests in partial differential equations and mathematical physics. E-mail:yisongyang@gmail.com
作者简介: YANG Yi-song (1958-), male, born in Beijing, professor of New York University, Ph.D., interests in partial differential equations and mathematical physics.
基金资助:
Supported by National Natural Science Foundation of China (Grant No. 11471100).

Received:2023-08-25 Online:2023-09-30 Published:2023-09-30
Contact: YANG Yi-song (1958-), male, born in Beijing, professor of New York University, Ph.D., interests in partial differential equations and mathematical physics. E-mail:yisongyang@gmail.com
About author: YANG Yi-song (1958-), male, born in Beijing, professor of New York University, Ph.D., interests in partial differential equations and mathematical physics.
Supported by:
Supported by National Natural Science Foundation of China (Grant No. 11471100).

摘要： In this survey article, we present two applications of surface curvatures in

theoretical physics. The first application arises from biophysics in the study of the shape of

cell vesicles involving the minimization of a mean curvature type energy called the Helfrich

bending energy. In this formalism, the equilibrium shape of a cell vesicle may present itself

in a rich variety of geometric and topological characteristics. We first show that there is

an obstruction, arising from the spontaneous curvature, to the existence of a minimizer of

the Helfrich energy over the set of embedded ring tori. We then propose a scale-invariant

anisotropic bending energy, which extends the Canham energy, and show that it possesses

a unique toroidal energy minimizer, up to rescaling, in all parameter regime. Furthermore,

we establish some genus-dependent topological lower and upper bounds, which are known

to be lacking with the Helfrich energy, for the proposed energy. We also present the

shape equation in our context, which extends the Helfrich shape equation. The second

application arises from astrophysics in the search for a mechanism for matter accretion in

the early universe in the context of cosmic strings. In this formalism, gravitation may

simply be stored over a two-surface so that the Einstein tensor is given in terms of the

Gauss curvature of the surface which relates itself directly to the Hamiltonian energy

density of the matter sector. This setting provides a lucid exhibition of the interplay of

the underlying geometry, matter energy, and topological characterization of the system.

In both areas of applications, we encounter highly challenging nonlinear partial differential

equation problems. We demonstrate that studies on these equations help us to gain

understanding of the theoretical physics problems considered.

关键词: Mean curvature, Gauss curvature, Bending energy, Cell vesicles, Topological bounds, Shape equations, Einstein tensor, Cosmic strings, Harmonic map model;
Nirenberg’s problem, Conical singularities, Deficit angle, Conformal metric

Abstract:

In this survey article, we present two applications of surface curvatures in