Recursive Identity Emission through Harmonic Phase Disjunction -

Collapse Harmonics Interpretation of Time Reflection

Experimental Validation of Collapse Harmonics Field Law VIII.E.1

Collapse Harmonics Scientific Validation Preprint

Codex Reference: Collapse Harmonics Codex II — Section VIII.E.1 and 7.4.1 Field Law: VIII.E.1 — Time as Collapse Emission

Author: Don L. Gaconnet Founder, Collapse Harmonics Institute LifePillar Institute — Recursive Harmonics Science Division ORCID ID: https://orcid.org/0009-0001-6174-8384 Contact: don@lifepillar.org

Date: June 2025

Institutional Affiliation: LifePillar Institute — Collapse Harmonics Sciences https://lifepillarinstitute.org

Corresponding Codex: Collapse Harmonics Codex II: Newceion and the Collapse-Time

Paradigm Codex DOI (OSF): https://osf.io/hqpje/FigShare DOI: 10.6084/m9.figshare.29371247 Codex DOI (Zenodo): https://zenodo.org/records/15343589

Keyword Anchors: Collapse-Time Physics, Time Reflection, Harmonic Collapse Theory, Recursive Phase Inversion, Collapse Emission, Field Law VIII.E.1, Codex Validation, Symbolic Field Science, Time as Emitted Structure, Harmonic Identity Dynamics

Abstract

In June 2025, researchers at the CUNY Advanced Science Research Center recorded the first direct experimental observation of time reflection—a phenomenon in which electromagnetic waves invert their temporal propagation after a uniform and abrupt shift in material impedance. While unprecedented in classical electrodynamics, Collapse Harmonics Theory recognizes this as a lawful and structurally predictable event: a collapse-induced phase inversion across harmonic curvature.

This preprint provides formal field validation of Collapse Harmonics Field Law VIII.E.1 — Time as Collapse Emission, which posits that time is not a pre-existing background dimension but the emergent product of recursive harmonic disjunction. Within this framework, time reflection is not reversal—it is recursive curvature emission triggered when a phase-saturated signal breaches its containment threshold. The observed waveform did not reflect backward in classical spacetime, but reemerged through recursive reinitialization, matching the emission-phase model presented in Collapse Harmonics Codex II, Section

7.4.1 — Collapse as the Generator of Time.

This paper establishes a precise alignment between empirical data and symbolic field theory: waveform inversion across an engineered impedance discontinuity corresponds exactly to the curvature-emission signature predicted by collapse-phase recursion modeling. Time, in this view, is not traversed—it is structurally emitted. This convergence affirms Collapse Harmonics as the originating scientific field defining collapse-time phenomena, and establishes jurisdictional precedence over recursive time modeling, symbolic curvature propagation, and identity-field phase emission dynamics.

1.0 — Introduction: Experimental Observation of Time Reflection

In June 2025, a team of physicists at the City University of New York (CUNY) Advanced Science Research Center publicly confirmed the existence of time reflection—a phenomenon long regarded as a theoretical anomaly within electromagnetic field theory. The confirmation came through a carefully calibrated experimental apparatus in which electromagnetic waves traveling through a metallic strip were reflected not in space, but in time. Unlike classical spatial reflection, in which waves rebound off a boundary and reverse their direction in space while continuing forward in time, time reflection describes a reversal of the wave’s progression in time itself. The result is a phase-inverted temporal copy of the original wave, traveling in the opposite temporal direction while retaining modified frequency and informational continuity.

The key to this demonstration was the creation of a rapid, uniform change in the electrical impedance of the conductive medium. The experimental design utilized a metallic strip embedded with electronic switches and capacitive energy storage, enabling the team to double the impedance across the system nearly instantaneously. This engineered discontinuity in the medium's temporal properties induced a measurable time-reflected signal. The wave's temporal orientation did not continue forward through the transformed medium. Instead, it rebounded backward through its own history, forming a mirrored signal that unfolded in reverse order. As part of this process, the wave’s frequency increased, consistent with a red-to-blue spectral shift—a key hallmark of harmonic phase inversion.

Though theoretical proposals for time reflection date back to the 1970s, experimental realization has been elusive due to the difficulty of producing sufficiently rapid and uniform medium transitions. The CUNY team’s use of ultra-fast switching mechanisms and precisely synchronized phase gating enabled the first clean capture of a time-inverted electromagnetic wave. The implications of this event reach far beyond signal theory or materials science. By producing a physical condition under which the directional flow of time—as carried by a wave—could be altered, the researchers have provided a rare observable boundary event that cuts directly into the philosophical and physical foundations of temporality.

Crucially, this experiment did not simulate time reversal. It invoked a structural shift in temporal directionality through real material interaction. In so doing, it exposed an underlying feature of time previously inaccessible to observation: that time, like space, may exhibit boundary-based reversibility under harmonic phase collapse conditions. This point of inflection opens a new experimental terrain—one in which time can no longer be treated as a passive background dimension, but must be understood as a phase-emitted property of harmonic fields, subject to displacement, reflection, and recursion.

This paper positions the CUNY time reflection experiment as a direct empirical validation of Collapse Harmonics Codex II, and specifically Field Law VIII.E.1 — Time as Collapse Emission. According to this field law, time is not a pre-existing dimension, but an emergent property of recursive phase collapse. What the CUNY researchers observed was not an anomaly—it was the visible signature of a collapse-generated time reemission.

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