Cell Theory Conifold as Word

Cell Theory

Continuation of Quantum Theory for Language

Conifold as Word

　　　TANAKA Akio

1 Conifold is presented by the following.

n-dimensional complex projective space that has homogeneous coordinates (z₁, z₂, … , z_n+1) is given the following condition.

|z₁|² +| z₂| ²+ … + | z_n+1|² = r    r>0

There emerges 2n+1-dimensional sphere S²ⁿ⁺¹.

On arbitrary θ, when identification is done with the polar coordinate representation, Pⁿ is presented.

(z₁, z₂, …, z_n+1) ~ (e^iθz₁, e^iθz₂, … , e^iθz_n+1)

P¹ that has line bundle’s direct sum O(-1)  ⊕ O(-1) is conifold.

P¹ has homogeneous coordinates  (z₁, z₂) and line bundle coordinates (z₃, z₄).

Conifold that is also called local P¹ is defined by the following.

|z₁|² +| z₂| ²- | z₃|² - | z₄|² = r 

When | z₃|² = | z₄|² = 0,  |z₁|² +| z₂| ² = r  is given as 2-dimensional sphere S² that is called resolved conifold.

When complexification of parameter r becomes 0, there emerges conifold with singularity.

From here, deformed conifold is given by the blowing up resolved conifold.

Deformed conifold has 3-dimensional sphere S³ that wraps D6 brane.

Here  S³ is identificated to word. Brane is identificated to grammar.

Further now topology R⁴ ×S³ is presented.

This topology is identificated to sentence.      

[Reference]

Cell Theory / From Cell to Manifold  / Tokyo June 2, 2007

Tokyo June 9, 2007

Sekinan Research Field of Languagewww.sekinan.org