Reversion Analysis Theory / 8 June 2008

Reversion Analysis Theory

TANAKA Akio

1

Complex n-dimensional open ball is presented. Abbreviation is n open ball. The notation is B ( a, R )

R > 0

Open set { z∈Cⁿ | | z-a | < R }

2

Open set of Cⁿ     Ω

Map fromΩ to open set of Cⁿ, Ω’     F = (f₁, f₂, …, f_n )

Element of F     f_j

When f_j is normal function over Ω, F is called holomorphic map.

Composition of holomorphic map is also holomorphic map.

3

Set of all the holomorphic functions over Ω     A (Ω )

f ∈A (Ω ) ⇒ 1/ f ∈A (Ω ╲ f ^-1(0) )

Holomorphic map that has holomorphic inverse map is called biholomorphic map

When there exists biholomorphic function from Ω to Ω is called biholomorphic equivalent.

Bijective holomorphic map is biholomorphic.

Biholomorphic map from Ω to Ω is called holomorphic automorphism that becomes group by product as composition.

The group is called holomorphic automorphism group. The notation is Aut Ω.

4

Each n open ball is holomorphic equivalent.

B ( (0,0, …, 0 ) is notated as B ⁿ.

5

All the locally 2 powered integrable functions     L²_loc (Ω)

A (Ω ) = {f ∈ L²_loc (Ω) | ∂f /∂ _j = 0, j = 0, 1, …, n }

6

n open ball     B (a, R ) ⊆ Ω

Volume element of ∂B (a, R )     dS

Vol ( ∂B (a, R ) ) : = ∫_{∂B (a, R )}dS = 2πⁿR^2n-1/(n-1)!

A (Ω ) is closed subspace on topology of L²convergence .

A (Ω ) and A (Ω )² is separable.

7

Domain     Ω

Point     a

z ∈Ω
ζ∈(∂B)ⁿ

For arbitrary z∈Ω and ζ∈(∂B)ⁿ, when (a₁+ζ₁・(z₁-a₁), …, a_n+ζ_n・(z_n-a_n) ) ∈Ω is satisfied, Ω is called Reinhardt domain centered by a.

For arbitrary z∈Ω and ζ∈∂Bⁿ, when (a₁+ζ₁・(z₁-a₁), …, a_n+ζ_n・(z_n-a_n) ) ∈Ω is satisfied, Ω is complete Reinhardt domain centered by a.

n open ball B (a, R ) is complete Reinhardt domain.

8

n dimensional complex ball that has center 0    D = B ⁿ   
D’s logarithm image log D is defined by the next.

log D = {x∈(R∪{-∞})ⁿ | e^x : = (e^x1, …, e^xn) ∈D }

When dialog image is convex, D is logarithm convex.

Outer point of D     a

Monomial m_a(z)  

sup_z∈D | m_a(z) | < m_a(a) = 1

Word, meaning element and distance are defined by the next at simplified level.

Word : = B ⁿ ( = complete Reinhardt domain centered by 0 )  

Meaning element : = a ( = Outer point of D)

Distance : = sup_z∈D | m_a(z) | of monomial m_a(z)

9

Word, meaning element and distance are considered in connection with Cauchy-Riemann equation.

[References]

<Distance>

Distance Theory / Tokyo May 5, 2004

Mirror Theory / Tokyo June 5, 2004

Reversion Theory / Tokyo September 27, 2004

Functional Analysis / Note 4 Functional / 3 Distance of Hypersurface / Tokyo May 23, 2008

Tokyo June 8, 2008

Sekinan Research Field of Language

www.sekinan.org

[Postscript June 19]

On holomorphic, refer to the next.

Holomorphic Meaning Theory / Tokyo June 15

Holomorphic Meaning Theory 2 / Tokyo June 19