In a new study, Chris Jeynes and Michael Parker pose the question: How does nature produce such stunning symmetry and order in many systems observed across enormous scales? Under the microscope, a snowflake shows intricate patterning and remarkable symmetry, and in a telescope the same is observed for spiral galaxies up to half a million light years across.

Both of these systems are made of innumerable subunits (be they water molecules or stars and planets) which should behave completely oblivious to the overall configuration of the conglomerate. That is to say, the behavior of these systems at the scales that matter—the fundamental units of which they are composed— should be completely random aside from some formative causation arising from intermolecular or inter-gravitational interactions, which are not long-range.

The question then becomes what is the causative ordering parameters that results in chaotically interacting many-body systems coming together in spectacular symmetry and ordered geometrical configurations? The physics that describes the micro-scale ordering of a system is known as entropy, so obviously this is where we must turn.

When we talk about entropy, we have to remember that the idea of entropy was derived assuming an isolated or closed system where an increase of entropy is essentially an increase in the amount of “lost” energy. Thermodynamically speaking, the system will be tending towards a state of thermal equilibrium – a state where no more work can be done on the system, unless from external sources – this is the state of maximal entropy.

Historically, and even in some modern-day compelling theories, the causative ordering force was postulated to be a morphogenic field—a field that shaped the morphogenesis of objects much like a magnetic field would do to iron filings. Such a notion was swiftly dismissed by scientists as it was presumed to require some kind of magical force to exert the ordering influence, a force not known to physics.

### Holomorphic Info-Entropy

Now, however, researchers Jeynes and Parker have mathematically described the morphogenic field and identified the force carrier—an entropic force. The researchers describe a new concept linking information and entropy together, through the system’s elemental parts, in what they term *holomorphic info-entropy*—much like the linking of space and time into the unitary manifold of spacetime or electricity and magnetism into electromagnetism. And just like in the latter terms, where the change in state of one results in a change in state of the other—like coupled oscillating electric and magnetic fields—a change in information or entropy results in the same reciprocal influence.

We showed that entropy and information can be treated as a field and that they are related to geometry. Think of the two strands of the DNA double helix winding around each other. Light waves have the same structure, where the two strands are the electric and magnetic fields. We showed mathematically that the relationship between information and entropy can be visualised using just the same geometry.

–Chris Jeynes and Michael Parker

Using the info-entropy theoretic, the researchers studied one particularly prevalent geometric configuration, the double helix and double logarithmic spiral.

Their analysis shows that double helical and double logarithmic spiral trajectories in space-time are maximum entropy states. That is to say that among all possible ways the system can be configured, the spiral and double helix maximize entropy, and a system will always go to the state that maximizes entropy, making this configuration the most stable or equilibrium condition available to the system, and hence the ubiquity of these structures in nature.

### Spirals Everywhere

The double helix is well known from the geometrical configuration of polymerized nucleic acids: the iconic DNA double helix spiral. Since the researchers had now devised a means to calculate the info-entropy of such a configuration, they used their method to calculate the exact energy difference between two configurations of DNA, the canonical B-form, and a less well-known yet still physiologically salient structure the P-form DNA. The P-DNA form is interesting in that each helical turn occurs each 2.62 bases, while in B-form each turn occurs every 10.4 turns. So, there is a lot of potential energy (info-entropy) stored in the P-form, and Jeynes and Parker were able to exactly calculate this energy difference, agreeing with the precise measurements of Bryant et al. (2003).

### Holographic Temperature and Superfluous Dark Matter

Extending this analysis to an astronomically larger scale, the researchers then looked at spiral galaxies—noting that spiral galaxies are double spirals just as DNA is a double helix – mathematically speaking they have similar geometries.

“It is not surprising that the same entropic treatment applies from the nano-scale to the cosmic, since entropy is intrinsically scaleless.”

To test their theory, they started with our very own galaxy – the Milky Way – and set about calculating its mass.

Roger Penrose was able to show that the entropy of a galaxy is dominated by its central super-massive black hole. So, utilizing the famous Hawking and Bekenstein entropy equation, the entropy was calculated for the 4.3 million solar mass super-massive black hole. As discovered by Hawking, a temperature for the black hole event horizon was also calculated. The product of this temperature and the entropy can then be calculated as an energy, from which a mass can be determined using Einstein’s famous equation.

According to Jeynes and Parker, if you can assign a temperature to the black hole event horizon, then it follows that you can assign a temperature to a galaxy surface horizon. Utilizing their holomorphic info-entropy equations, they calculated the galactic radius and what they term the *holographic temperature*. Now, with the *holographic temperature* and the entropy of the Milky Way, they were able to calculate its mass, which came out to approximately 0.94 trillion solar masses—remarkably close to the virial mass of the galaxy (about 1.3 trillion solar masses). Note that the observable mass of the Milky Way is only around 250 billion solar masses (give or take a 100 billion); however, the virial mass is the mass determined from the observed asymptotic velocity curve, which cannot be accounted for by the visible mass of the galaxy, hence the postulation of dark matter.

What their calculations show is that the postulation of dark matter (which has failed every attempt of detection) is superfluous. The entropic force that pushes the galaxy into a double logarithmic geometry is accounting for the additional energy causing the anomalous velocity profiles of galaxies. There is therefore a veritable morphogenic field that is the source of causative formation via an emergent entropic force.

“The stars in the galaxy are simply choreographed by an entropic force to line up into a pair of such spirals to maximise entropy.”

This work follows a similar approach to the unified physics approach, which is essentially a scale invariant model from the quantum to the biological and the cosmological scale. Like the generalized holographic approach offered by Nassim Haramein, Jaynes and Parker see the entropy of the system as the guiding force behind the structure, size and mass of the system. In their work they are focusing on the surface entropy of a helical structure, where the size is governed by the changing volume relative to the Planck scale – not surprisingly they find a result approximately equal (differing by a factor of 5) to that found by Haramein’s generalized holographic approach.

By William Brown and Dr Amira Val Baker

What are the mathematical foundations of all these theories?

Did you publish them? Where?

Congratulations!

best regards

Luis

Hi Luis,

This article is on the work of Parker and Jeynes which was published in Nature https://www.nature.com/articles/s41598-019-46765-w

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