Detection of the Generated Observer Subjectivity O3 under Five Energy Star Structural Resonance

Contemporary consciousness science and physical science have been constructed

by taking observable physical quantities as their theoretical starting point. In con-

trast, subjectivity itself as the observing subject has not been explicitly defined as

an internal structural component of theory. As a result, the conditions under which

subjectivity intersects, transitions, coheres, and gives rise to an observable state

have remained theoretically and empirically undefined.

Under this assumption, relationships previously reported between electroen-

cephalographic (EEG) signals and quantum measurement series have been treated

as inexplicable exceptions or accidental alignments, primarily due to the absence

of a physical causal pathway. This study demonstrates that such difficulties do

not arise from weak correlations or insufficient measurement precision, but rather

from the theoretical premise itself, namely, the failure to define subjectivity as a

structural entity.

From the standpoint that subjectivity is not a psychological state or an infor-

mational quantity but a structural condition under which physical observables are

generated through intersection, this study introduces the Five Energy Star (FES),

a five-dimensional phase-symmetric energy structure. FES constitutes a structural

theory that rigorously specifies the conditions under which subjectivity undergoes

intersection, non-intersection, and selective concentration, within which meaning,

transition, and evolution are syntactically generated.

Furthermore, this study demonstrates that EEG and quantum measurement se-

ries can be independently mapped into a shared syntactic space using the Hazama

Engine, a fixed algorithmic implementation of FES. The Hazama Engine performs

no learning, prediction, or arbitrary parameter optimization. Instead, node, en-

ergy, attribute, and grammar components are uniquely reconstructed from each 

series through a five-dimensional phase-symmetric structure combined with nonlin-

ear weighting operations based on the golden ratio.

As an internal validation, we confirm that the syntactic coherence index C com-

puted from EEG data exhibits an extremely high correspondence with a purely

geometric phase-concentration index based on the same five-string phase structure,

namely the FSRT index κ(r≈0.91, N = 150). This result demonstrates that syn-

tactic coherence is not an arbitrary construct, but a structural mapping of physical

phase concentration.

On this measurement basis, the Hazama Engine was independently applied to

EEG data and quantum rotation experiment data. The results reveal that both se-

ries intrinsically share the same five-dimensional subjectivity structure. Specifically,

when searching over five-dimensional gauge permutations and temporal lags on the

quantum side, conditions that maximize syntactic coherence are selected exclusively

along the intersection energy axis defined by the Five Energy Star, and statistical

significance is preserved after search correction (MAX-STAT) (e.g., match rate 0.61,

N = 23, pperm ≈10−4).

In contrast, under the same conditions, other syntactic components such as node,

attribute, and grammar maintain their intrinsic syntactic organization without man-

ifesting corresponding alignment. This decomposition indicates that EEG–quantum

correspondence is governed not by signal amplitude or component similarity, but

by the selection of structural conditions under which syntactic intersection is estab-

lished.

Furthermore, this study demonstrates that a third observable, O3 (Hazama),

emerges as a conditionally generated quantity only when the syntactic intersection

condition (A = 1) is satisfied. Defining the observation coordinate as the string k

with the maximum amplitude in each task,

O3(t) = Ek(t)×Qk(t),

we find that O3 is significantly generated only under the A= 1 condition, with per-

mutation tests consistently yielding p≪0.01 (e.g., p≈0.0016). This effect cannot

be reproduced by addition, averaging, or phase-stability measures, indicating that

physical observables are generated only when syntactic intersection is established.

Taken together, these results demonstrate that EEG–quantum relationships are

not reducible to simple signal correlations, but instead arise from structural condi-

tions defined by the Five Energy Star under which physical observables are gener-

ated. This study presents a framework in which subjectivity is transformed from an

interpretive notion into a formally defined and empirically testable generative struc-

ture, providing a fundamental extension to consciousness science and the quantum

measurement problem.