The Local Energy of the Spacetime Æther

For anyone new to Neoclassical Physics and Quantum Gravity (𝗡𝗣𝗤𝗚), please be aware that 𝗡𝗣𝗤𝗚 is entirely compatible with general relativity (GR) and quantum mechanics (QM). 𝗡𝗣𝗤𝗚 is a physical model of nature. 𝗡𝗣𝗤𝗚 is the flip side of both GR and QM.

For anyone new to the Neoclassical Physics and Quantum Gravity (𝗡𝗣𝗤𝗚) model of nature, please be aware that 𝗡𝗣𝗤𝗚 is entirely compatible with general relativity (GR) and quantum mechanics (QM). 𝗡𝗣𝗤𝗚 is a physical model of nature, and is sandwiched between GR and QM. That’s me in the middle, Morris the cat. Which pup is GR and which pup is QM? Ha!

Image result for dog cat sandwich

In this post, let’s discuss the local energy of spacetime æther. Einstein’s spacetime is not some abstract curvable geometry, but rather a æther of particles at various energies, but skewed towards low energy particles.

Inertial mass is shown in upper left of each box. Credit: CERN

In 𝗡𝗣𝗤𝗚, every particle in the spacetime æther has mass, because general relativity applies in the spacetime æther and every particle has energy. The inertial masses of standard model particles are known. Masses of atoms are provided in the periodic table of the elements. Neutrinos typically have very low masses. Photons are believed to have zero or near zero mass. In 𝗡𝗣𝗤𝗚, photon mass is non-zero, and is given by the energy-momentum equation. However, for most experimental observations, photon mass is undetectable. The spacetime æther contains many extremely low energy photons, neutrinos and perhaps axion like particles. The particles in the spacetime æther gas have near zero mass with their 2.7K black body radiation curve, i.e., the cosmic microwave background (CMB).

Nature has the ability to seamlessly transition through many orders of magnitude of scale. To understand nature you need to think in terms of the Lorentz factor, and think logarithmically. What intelligent individuals perceive or define as 0 or 1 may sometimes be nature at 0.000…001 or 0.999…999. The Lorentz factor helps us understand the relationship of photon speed and energy as observed from 4D Euclidean space and time.

Note: Photon speed also depends on energy-mass flux. Energy-mass flux depends on local permittivity and permeability, which control the ability of local spacetime æther to exchange electromagnetic energy.

In 𝗡𝗣𝗤𝗚, the highest and lowest temperatures (energies), at the ends of the scale, are where phase changes occur. The highest temperatures occur in the core of dense objects, such as supermassive black holes, or in high energy mergers. When the Planck temperature is reached, standard matter (including the spacetime æther) will have become Planck particles with Planck energy. Planck temperature or energy is where the velocity of the constituent electrino and positrino particles have reached local speed of light. The tricky part there is that local speed of light in a Planck core is zero! This makes sense if you consider that no more electromagnetic energy can be absorbed. In other words the permittivity and permeability are both infinite.

I imagine a Planck core as a lattice of electrino/positrino pairs. The core can breach via rupture or jet under particular conditions. The jets of active galactic nuclei (AGN) supermassive black hole (SMBH) can be Planck plasma. Scientists may consider other high energy objects or mergers and whether they produce Planck plasma, i.e., BH-BH mergers, BH, BH-NS mergers, NS-NS mergers (BH=black hole, NS=neutron star). The image below shows the mid-range of the electromagnetic energy scale.


𝗡𝗣𝗤𝗚 models the ε⊖/ε⊕ pair particle as a tau neutrino when a free particle. Remember that an electron neutrino is 3ε⊖/3ε⊕. It seems that nature strips away part of the electron neutrino shell as energy increases. Isn’t it odd to think about taking something away to increase energy and mass?

General relativity does not apply at the Planck energy. This is where the singularity occurs in general relativity math. The singularity has led to many imaginative ideas, including wormholes, infinite compression and more. However, reality is much more mundane – a Planck scalenpoint charge core forms and it can escape black holes, and of course anything else, under certain conditions, presumably through rupture or jet. Galaxy-local inflation ensues. Inflationary redshift occurs. Galaxy dynamics are impacted.

General relativity does not apply at zero Kelvin. In 𝗡𝗣𝗤𝗚, zero Kelvin represents a state or phase where energy is zero. If this state can be reached, then there is a surface of our Universe’s spacetime æther bubble. Beyond the bubble in “frozen” spacetime æther, the only arrangement I can currently imagine is a static pattern that results from charge separation of the electrinos and positrinos.

We need physicists to theorize and test the composition of spacetime æther by energy and by neighborhood. What are the energy distributions? That sounds like a whole new physics sub-field. There are ample green field research topics with 𝗡𝗣𝗤𝗚.


  • Neutrinos and photons may become shells that capture a payload to create standard matter leptons and quarks.
  • It is known that the cosmic microwave background is modeled very well by a 2.7K black body spectrum. The cosmic microwave background is caused by the temperature of spacetime æther.
  • General relativity applies in spacetime æther phase between 0 energy (0 Kelvin) and the Planck energy and temperature, but not at the two extremes.


Astronomers and cosmologists interpret observations that are both far-away and long-ago as either early universe or location based on the theoretical purpose. This is a big issue! Time or space? It is anthropocentric to assume that observations far away represent a vastly different chronological period of “early time” after the big bang.

J Mark Morris : San Diego : California : June 22, 2019

By J Mark Morris

I am imagining and reverse engineering a model of nature and sharing my journey via social media. Join me! I would love to have collaborators in this open effort. To support this research please donate:

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