Bergman kernel

In the mathematical study of several complex variables, the Bergman kernel, named after Stefan Bergman, is a reproducing kernel for the Hilbert space of all square integrable holomorphic functions on a domain D in Cn.

In detail, let L2(D) be the Hilbert space of square integrable functions on D, and let L2,h(D) denote the subspace consisting of holomorphic functions in D: that is,

L^{2,h}(D) = L^2(D)\cap H(D)

where H(D) is the space of holomorphic functions in D. Then L2,h(D) is a Hilbert space: it is a closed linear subspace of L2(D), and therefore complete in its own right. This follows from the fundamental estimate, that for a holomorphic square-integrable function ƒ in D

\sup_{z\in K} |f(z)| \le C_K\|f\|_{L^2(D)}

 

 

 

 

(1)

for every compact subset K of D. Thus convergence of a sequence of holomorphic functions in L2(D) implies also compact convergence, and so the limit function is also holomorphic.

Another consequence of (1) is that, for each z  D, the evaluation

\operatorname{ev}_z : f\mapsto f(z)

is a continuous linear functional on L2,h(D). By the Riesz representation theorem, this functional can be represented as the inner product with an element of L2,h(D), which is to say that

\operatorname{ev}_z f = \int_D f(\zeta)\overline{\eta_z(\zeta)}\,d\mu(\zeta).

The Bergman kernel K is defined by

K(z,\zeta) = \overline{\eta_z(\zeta)}.

The kernel K(z,ζ) holomorphic in z and antiholomorphic in ζ, and satisfies

f(z) = \int_D K(z,\zeta)f(\zeta)\,d\mu(\zeta).

One key observation about this picture is that L2,h(D) may be identified with the space of L^2 holomorphic (n,0)-forms on D, via multiplication by dz^1\wedge \cdots \wedge dz^n. Since the L^2 inner product on this space is manifestly invariant under biholomorphisms of D, the Bergman kernel and the associated Bergman metric are therefore automatically invariant under the automorphism group of the domain.

See also

References

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