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In mathematics, plurisubharmonic functions (sometimes abbreviated as psh, plsh, or plush functions) form an important class of functions used in complex analysis. On a Kähler manifold, plurisubharmonic functions form a subset of the subharmonic functions. However, unlike subharmonic functions (which are defined on a Riemannian manifold) plurisubharmonic functions can be defined in full generality on Complex analytic spaces.

Formal definition

A function

f:G{},

with domain Gn is called plurisubharmonic if it is upper semi-continuous, and for every complex line

{a+bzz}n with a,bn

the function zf(a+bz) is a subharmonic function on the set

{za+bzG}.

In full generality, the notion can be defined on an arbitrary complex manifold or even a Complex analytic space X as follows. An upper semi-continuous function

f:X{}

is said to be plurisubharmonic if and only if for any holomorphic map φ:ΔX the function

fφ:Δ{}

is subharmonic, where Δ denotes the unit disk.

Differentiable plurisubharmonic functions

If f is of (differentiability) class C2, then f is plurisubharmonic, if and only if the hermitian matrix Lf=(λij), called Levi matrix, with entries

λij=2fziz¯j

is positive semidefinite.

Equivalently, a C2-function f is plurisubharmonic if and only if 1¯f is a positive (1,1)-form.

History

Plurisubharmonic functions were defined in 1942 by Kiyoshi Oka [1] and Pierre Lelong. [2]

Properties

  • if f is a plurisubharmonic function and c>0 a positive real number, then the function cf is plurisubharmonic,
  • if f1 and f2 are plurisubharmonic functions, then the sum f1+f2 is a plurisubharmonic function.
  • Plurisubharmonicity is a local property, i.e. a function is plurisubharmonic if and only if it is plurisubharmonic in a neighborhood of each point.
  • If f is plurisubharmonic and ϕ: a monotonically increasing, convex function then ϕf is plurisubharmonic.
  • If f1 and f2 are plurisubharmonic functions, then the function f(x):=max(f1(x),f2(x)) is plurisubharmonic.
  • If f1,f2, is a monotonically decreasing sequence of plurisubharmonic functions

then so is f(x):=limnfn(x).

  • Every continuous plurisubharmonic function can be obtained as a limit of monotonically decreasing sequence of smooth plurisubharmonic functions. Moreover, this sequence can be chosen uniformly convergent.[3]
  • The inequality in the usual semi-continuity condition holds as equality, i.e. if f is plurisubharmonic then
lim supxx0f(x)=f(x0)

(see limit superior and limit inferior for the definition of lim sup).

supxDf(x)=f(x0)

for some point x0D then f is constant.

Applications

In complex analysis, plurisubharmonic functions are used to describe pseudoconvex domains, domains of holomorphy and Stein manifolds.

Oka theorem

The main geometric application of the theory of plurisubharmonic functions is the famous theorem proven by Kiyoshi Oka in 1942. [1]

A continuous function f:M is called exhaustive if the preimage f1(],c]) is compact for all c. A plurisubharmonic function f is called strongly plurisubharmonic if the form 1(¯fω) is positive, for some Kähler form ω on M.

Theorem of Oka: Let M be a complex manifold, admitting a smooth, exhaustive, strongly plurisubharmonic function. Then M is Stein. Conversely, any Stein manifold admits such a function.

References

  • Steven G. Krantz. Function Theory of Several Complex Variables, AMS Chelsea Publishing, Providence, Rhode Island, 1992.
  • Robert C. Gunning. Introduction to Holomorphic Functions in Several Variables, Wadsworth & Brooks/Cole.

External links

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Notes

  1. 1.0 1.1 K. Oka, Domaines pseudoconvexes, Tohoku Math. J. 49 (1942), 15–52. Cite error: Invalid <ref> tag; name "oka" defined multiple times with different content
  2. P. Lelong, Definition des fonctions plurisousharmoniques, C. R. Acd. Sci. Paris 215 (1942), 398–400.
  3. R. E. Greene and H. Wu, C-approximations of convex, subharmonic, and plurisubharmonic functions, Ann. Scient. Ec. Norm. Sup. 12 (1979), 47–84.