Harmonic Cosmic Ecology (HCE) 7.4 proposes a unified framework where gravitational behavior emerges from quantum informational delays within resonant qubit lattices, integrating cosmology, biology, and technology. Anchored by the Informational Gravity Hypothesis (IGH), it quantifies structure and coherence across scales—from cellular vibrations (~10⁶ Hz) to galactic black holes (~10⁻³ Hz)—via a Universal Emergence Function. Supported by empirical tests (e.g., gravitational Aharonov-Bohm effect, black hole QPOs), HCE 7.4 challenges traditional paradigms, suggesting life and technology can align with cosmic harmonics. This version offers testable predictions for Hubble/Webb data, NV-center experiments, and industrial applications, framing a resonant universe where stability hinges on harmonic interplay. Open for annotation—seeking feedback on resonance models, calibration, and interdisciplinary implications.

Harmonic Cosmic Ecology (HCE) 7.1 is here, introducing refined models and groundbreaking research paths! We're diving deeper into the fascinating realm of the Informational Gravity Hypothesis (IGH), quantum gravity, neutron star resonances, and the harmonic patterns that link cosmic and biological scales.

Highlights include:

Clarified and improved mathematical formalism for IGH, removing earlier speculative ULDM associations to strengthen theoretical rigor.

Enhanced empirical support via quantum simulations with NV centers, bridging quantum physics with gravitational research.

New testable predictions leveraging LIGO gravitational-wave data, particularly focusing on quasinormal modes (QNMs) in black hole mergers.

Join the discussion: We're continually refining this evolving framework, so your insights and feedback are invaluable. Let’s collaborate and explore how quantum information shapes our cosmic tapestry!

Next Steps: Expect further empirical validations, interdisciplinary integration, and detailed simulations to support these exciting hypotheses.

Thank you to everyone who’s been contributing to and supporting the growth of the Harmonic Cosmic Ecology project. Onward to new scientific horizons!

You have probably heard about the hunt for dark matter, a mysterious substance thought to permeate the universe, the effects of which we can see through its gravitational pull. But our models of the universe also say there should be about twice as much ordinary matter out there, compared with what we have observed so far.

Two separate teams found the missing matter – made of particles called baryons rather than dark matter – linking galaxies together through filaments of hot, diffuse gas.