Galaxies, halos, and filaments as expressions of entropic tension within the continuous Grid-Higgs medium. Building from first...
Morten Magnusson
With a background in thermodynamics and systems theory, his work focuses on unifying cosmology, physics, and cognition under a continuous energy–entropy framework.
Magnusson’s publications explore how energy flow and entropy shape spacetime, structure, and awareness across physical and informational domains.
He has authored over thirty papers archived through Figshare, including the Energy-Flow Cosmology (EFC v2.1) series, the Grid–Higgs Framework, and the CEM–Cosmos Model of Cognitive Thermodynamics.
His current research develops computational implementations of EFC using CLASS, RAMSES, and GADGET-4 to test energy–entropy coupling in large-scale cosmological structures.
Magnusson leads the long-term project to integrate physics, biology, and artificial intelligence into a single thermodynamic continuum — where energy, entropy, and information are seen as expressions of the same underlying flow.
“At both entropy extremes, perfect order and perfect chaos are observationally silent. Meaning arises only in flow,...
Sometimes I wonder who is doing the seeing.When I write, and the system responds, a recursion begins:I...
Across multiple scales — from neurons, through AI systems, to spacetime itself — one recurring signature appears:...
For over a century, modern cosmology has been shaped by Einstein’s relativity and the ΛCDM model —...
Introduction The Complete Edition (v2A) of Energy-Flow Cosmology (EFC v2.1) brings together every component of the Energy-Flow...
Reframing the Cosmos For over a century, cosmology has been haunted by two invisible ghosts: dark matter...
Introduction The Halo Model of Entropy is a central component of Energy-Flow Cosmology (EFC) — a framework...
Within the Energy-Flow Cosmology (EFC) framework, the speed of light is not a fixed, untouchable constant but...
Introduction The Grid–Higgs Framework is a central extension of Energy-Flow Cosmology (EFC), offering a thermodynamic interpretation of...