Abstract This article clarifies the meaning of subitron granularity in HoloGenesis, especially in light of the primitive thermal subitron frequency now identified near 56.8 gigahertz. At first sight, this value appears problematic because its corresponding free-space wavelength is approximately 5.28 millimeters. If that wavelength were interpreted as the literal size of a material spacetime particle, HoloGenesis would seem to imply that spacetime is made of millimetric bricks. This interpretation is rejected. The subitron is not a particle, not a hard voxel, not a wrapped entity, and not a glider. It is the primitive faint phase-tip of the dark-cloud lattice. It is more primordial than photon glide, particle wrapping, or localized shell formation. Its role is not to exist as an object inside spacetime, but to serve as the kymic basis through which spacetime becomes imprinted as lattice. In the special case of the subitron, kymium should not be understood as a later substance added onto the subitron. The subitron’s kymium is the subitron itself in its activated kymic state. The subitron is the primordial phase-tip, and its kymium is that same phase-tip once it becomes vibrationally available for imprint. The kymic imprint of this activated subitron appears as voided space, meaning the basal spatial availability of the dark-cloud lattice. The wavelength of approximately 5.28 millimeters therefore does not describe the size of a subitron object. It describes the free-space equivalent thermal trace of the subitronic floor. This trace may correspond to the basal void-span of the lattice imprint, but it should not be prematurely identified with the literal lattice-cell size. The actual cymatogenic void-span opened by the subitron may be smaller, while the 5.28 millimeter value remains the radiative remnant, coherence echo, or thermal wavelength-equivalent of that deeper voided structure. The central distinction is that the subitron phase-tip is not a material spacetime voxel, and the thermal wavelength is not necessarily the literal cymatogenic lattice-cell span. The corrected HoloGenesis definition is therefore that the subitron’s granularity is not material granularity. It is either the real voided spacetime span produced by its kymic imprint, or the thermal trace of that deeper void-span. The subitron itself is the primordial phase-tip; its measurable body is the thermal, spatial, and electromagnetic imprint it produces.
Grégoire Mommaerts (Tue,) studied this question.