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Understanding Black Hole Quantum Dynamics (compilation)

CCCRdg Note:

Electromagnetic Light Waves…Gravitational Wave Oscillation…

At the quantum Q bit level, gravitational wave dynamics reflect the repeating Tesla vortical propulsion cycling produced through Fibo60 solar light signaling communication. Timed with the 1/17.28. (0.0578703703… m) Universal Solar Codec, each electromagnetic instructional cycle utilizes two balancing halves of one whole numbers system to encode the specific geometric mathematical light frequency (THz) communication required to maintain balanced wave form within each corresponding rotas oscillation.

Hyper harmonic tuning balance within and between each oscillation ensures clear, steady stream energy flow passing through the vortical tunnel stream. By attuning our detection equipment to correct universal light speed precision at 300,000,000 m/s. c, we will not only be able to fully understand black hole quantum dynamics at a celestial systems level, we’ll be able to eliminate all spurious decoherence and harness gravitational control once again.

We are all light wave form expressions within ONE electromagnetic quantum network. One moves, All moves.

Black Holes May Be Covered in Vortex Structures According to New Study

Anton Petrov @whatdamath

“In order to learn more about quantum physics and to try to understand how things work in the universe, while studying these BECs [Bose Einstein Condensate singular macroscopic wave function] not so long ago, I guess around six years ago back in 2016, the sites discovered a new feature of these unusual BECs, specifically the ones that tend to spin really fast. So in classical physics for any kind of a spinning liquid or a spinning gas we can generally predict exactly what’s going to happen to it as it spins faster and faster as a matter of fact hydrodynamics and aerodynamics explain a lot of different spinning water and gas particles with extreme Precision. But for these Quantum particles, for these BECs things are very very different. A typical BEC as it starts spinning around, starts exhibiting entirely different structures and entirely different properties, something that nobody could predict until the scientists started to do it. They actually start producing what the scientists refer to as vortices, but even here, they’re not at all similar to the ones we find in the water. They don’t act like this at all. Here is a microscopic image of what they really look like this right here is a spinning back spinning balls Einstein condensate and each of those tiny dots you see those are tiny vortices that appear inside the condense, but here we’re talking about a kind of a quantized Vortex that’s formed with very unusual patterns all almost resembling a crystal. Here are some other examples from similar experiments but with the back of different sizes and so, as you can see this phenomenon seems to appear in any kind of quantum material that starts to spin, and when analyzed this particular lattice sort of looks like this it has a very specific order and it does seem to have its own physics that it obeys using quantum mechanics today. The scientists believe that these vortices can actually help us explain different phenomena such as super fluidity and superconductivity but even though the scientists have been studying them for many years they’re not there just yet…”

Evidence Mounts for Hierarchical Black Hole Mergers

July 6, 2026

Simona J. Miller, Department of Physics, Caltech, Pasadena, CA, US

Physics 19, 96

“Different analyses of gravitational-wave observations are converging on evidence for a distinct population of massive black hole binaries produced through repeated mergers…[…]…Throughout the Universe, pairs of orbiting black holes emit ripples in spacetime that propagate across the cosmos. These gravitational waves carry away orbital energy, causing the black holes to slowly spiral closer together. “

The First Sounds of Merging Black Holes

February 11, 2016•  Physics 9, 17

Emanuele Berti2

Department of Physics and Astronomy, The University of Mississippi, University, Mississippi 38677, USA

CENTRA, Departamento de Física, Instituto Superior Técnico, Universidade de Lisboa, Avenida Rovisco Pais 1, 1049 Lisboa, Portugal

“Advanced” LIGO, as the recently upgraded version of the experiment is called, consists of two detectors, one in Hanford, Washington, and one in Livingston, Louisiana. Each detector is a Michelson interferometer, consisting of two 4-km-long optical cavities, or “arms,” that are arranged in an L shape. The interferometer is designed so that, in the absence of gravitational waves, laser beams traveling in the two arms arrive at a photodetector exactly 180° out of phase, yielding no signal. A gravitational wave propagating perpendicular to the detector plane disrupts this perfect destructive interference. During its first half-cycle, the wave will lengthen one arm and shorten the other; during its second half-cycle, these changes are reversed (see Video 1). These length variations alter the phase difference between the laser beams, allowing optical power—a signal—to reach the photodetector. With two such interferometers, LIGO can rule out spurious signals (from, say, a local seismic wave) that appear in one detector but not in the other.”

https://physics.aps.org/articles/v9/17

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