Singularity arises from the limitations in mathematical physics. Loop quantum gravity has temporarily solved the dilemma by the organic chemical flows with Penrose diagram [1]. It is a result of the reconciliation between Conformal Cyclic Cosmology (CCC) and the Fermi paradox [2]. Symmetries within the boundaries of the Higgs field have been the main physical source of the alternative construct with space-time to the questions of matter forms in the dark universe within the dimensions of Hamiltonian Zero in Riemann Zeta function [3-5].

Although advances in the field of physics, there lack certain clarities between quantum space-time and cosmology. The CCC has been an advancement in scope concerning Penrose process, however, the perceptions of negative energy still originated from the Type I error subjective bias in Riemann Zeta function with the lack of distinction between quantum space-time and cosmology [6, 7].

The distinction I regard to be an anthropological one. The popular expectations for utilities from science blur the introspective apparatus rationale from basic science. Even though the quantum realm cannot be reconstructed correctly without correspondence to cosmological realities, the interpretations of how human artifacts conceived from apparatus rationale correspond to scientific realities inelastic to human artifacts are key to the concept.

Popper (1935) acknowledged the limitations of objective epistemology being de facto inter subjective, and subjective biases in mass psychology are prone to occur with the evermore specialized community scatterings of science practitioners [8]. With the Penrose process’ relations to cosmology, super determinism provides a technological philosophy to its seeming contradictions with classical physics [9]. Quantum physics are stipulated by the instrumentation rationale in scaling the universe by the properties of light with a thermodynamic system. However, entropy should not have existed in cosmological phenomena if it weren’t the cosmic oscillations that determine the quantum geometry [10]. Even though what we observe in telescopes are real images, the thermodynamics of the light quanta from their cosmic origins are mirror images, where Freedman (1985) stated that “the Halo of the Galaxy as a storage volume for (at least) the electron component of the cosmic rays” [11]. This calls for a cosmological rationale in the interdisciplinary realm between quantum physics and data science. Further empirical analysis and theoretical reasoning will need a separate paper on how white hole gravities are possible with nuclear caloric curves.

Hossenfelder and Palmer (2020) proposed future input dependence for the stead of retro causality or teleology [9]. Retro causality partially describes the reversal trajectories of the light quanta stored as nucleons in data from detected states to their momenta upon emission from celestial sources, but is not accurate because the quantum particles do not compose a solid resized version of the sources. Teleology describes the visualization but not so much of the scientific significance. The wording future in normative usages implies the unidirectional course of human lives as to the largely cyclic celestial patterns; input implies the involvement of consciousness and human activities with instrumentation; and dependence implies the alignment of consciousness to higher order causalities from an exploratory paradigm. The description is in determinant in physical terms but determinant on the involvement of consciousness in the intersubjectivity of objective epistemology [8]. Therefore, the description of future input dependence is appropriate that the quantum measurement process was based on the input from causality to phenomenon. In another sense, the data become model in the quantum realm is just as the observed become the future in super determinism, regarding the debates in free will and free choice [9].

The method, although related to pure mathematics, was applied to my white hole observation experiment. Black hole activities have been taken as accretion in observational astronomy with the influence of the Big Bang cosmology. The cosmological theoretical background from the method suggests, even though accretion is not impossible, there is another activity of thermonuclear oscillation between a black hole and a white hole behind the phenomenon. The method hypothesized that the end phase of black hole accretion is the optimal timing for white hole observation. Experiment was conducted with the Harvard Smithsonian ground-based Micro Observatory between 2020 and 2021, with positive results. Albeit the main observation takes result from the limited spectral bands of the observatory in data processing, direct observational result was also obtained from the moon observation without spectral influence. In the series of observational data processing, particle-filtering from data sample points in different wavelength bands was conceived supplementary to the observational method. It was the multispectral research on NASA space-based telescope missions confirming the theory that informed the experiment design. The method takes a five-body approach to the observation, oscillating between the three-body and observational target two-body system. The method utilizes an alternative approach to Riemann Hypothesis in coordinate planes, to differentiate the subjective epistemology in observation and objective epistemology in data processing.

• The method takes a subjective epistemology to the three-body problem of the sun, the moon, and the earth in observation with the observational vantage point of earth
• The dimensional and coordinate analysis of the research method is dependent on the proof that Riemann Hypothesis is necessary but not sufficient
• Observational data from the research are animated to show the oscillation patterns from the results with nucleon heuristics to observational data analytic processing.

For Full Article, Please go through the Link: https://www.pubtexto.com/pdf/?white-hole-observation-quadrant-relations-in-riemann-hypothesis