A Hausendorf state is a norm-state that involves a set of first-ordered point particles that exist as a half-parabollic surface of which is supplementally norm to another set of first-ordered point particles that exist as a reversely concave organization of point partilces that form another half-parabollic surface. So, if the concavity of one of such previously mentioned half-parabollic surfaces is relatvely concave up, then the described surface that is supplementally norm to the originally mentioned surface will be relatively concave down.
So, if the concavity of one of such previously mentioned half-parabollic surfaces is relatively concave down, then the described surface that is supplementally norm to the prior mentioned half-parabollic surface is relatively concave up. When the so called bottoms of the two covariant half-parabollic surfaces face each other when these exist supplementally norm to each other as a Hausendorf state, then their orientation is said to be be based on a norm to holomorphic disposition. Yet, when the so called interiors of the two covariant half-parabollic surfaces face each other when these exist supplementally norm to each other as a Hausendorf state, then the orientation here is said to be based on a norm to antiholomorphic disposition. The holomorphism of forward-moving time particles is reverse to the holomorphism of backward-moving time particles. Such surfaces are interconnected via mini-string. As an ansantz, the norm holomorphic Laplacian conditions of the two half-parabollic surfaces that comprise any Hausendorf state are reverse in holomorphism in and of themselves. The reason for my prior defining of what type of Hausendorf state is based on norm to holomorphic under a given Laplacian condition and what type of Hausendorf state is based on norm to antiholomorphic under a given Laplacian condition is based on the condition of the relatively norm to forward holomorphic half-parabollic surface existing in a relatively concave up geometrical configuration. So, such a geometric configuration in terms of the relatively norm to holomorphic half-parabollic surface that describes a Hausendorf state that is considered a Laplacian-based antiholomorphic norm-state is based on the concavity of such a half-parabollic surface to be relatively concave down. So, such a geometric configuration in terms of the relatively norm to holomorphic half-parabollic surface that describes a Hausendorf state that is considered a Laplacian-based holomorphic norm-state is based on the concavity of such a half-parabollic surface to be relatively concave up.
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