Polarisation as Torsion Mode Selection

Polarisation as Torsion Mode Selection

An AMS Interpretation

Polarisation is usually explained as a property of electromagnetic waves.
In AMS, polarisation is something simpler — and deeper.

It is torsion mode selection.

This article maps classical polarisation directly onto torsional behavior in the aether.

Rotational Freedom vs Rotational Constraint

In AMS, propagating light patterns possess rotational freedom around their direction of travel.

This means:

  • The internal structure of the wave can rotate
  • No single orientation is preferred
  • The pattern is symmetric

This is what classical physics calls unpolarised light.

What Polarisation Really Means

Polarisation occurs when rotational freedom is reduced.

Not blocked.
Not filtered.
Constrained.

The wave is forced to express itself through a preferred torsional plane.

In AMS terms:

Polarisation is the loss of rotational degrees of freedom.

The Sky as a Torsion-Selecting Medium

When solar light propagates through the atmosphere:

  • The aether is already under a global torsional influence from the Sun
  • The atmospheric medium introduces directional constraint
  • Certain torsional expressions are suppressed
  • Others are preferentially re-expressed

The result is not random.
It is geometrically determined.

Why Polarisation Peaks at 90 Degrees

At right angles to the solar direction:

  • Torsional shear is maximized
  • Rotational constraint is strongest
  • Polarisation contrast is highest

This is not an optical coincidence.
It is the geometry of torsion interacting with propagation.

The sky becomes a torsion map, centered on the Sun.

Polarisation Lines as Torsion Isocurves

The familiar polarisation “circles” around the Sun are:

  • Paths of equal torsional constraint
  • Not intensity contours
  • Not brightness gradients

They are torsion isocurves in the aether.

This is why:

  • Any patch of sky encodes solar direction
  • The Sun need not be visible
  • The pattern persists through cloud cover

Biological and Mechanical Detection

A polarisation-sensitive system does not “see” brightness.

It detects:

  • Directional stiffness
  • Rotational asymmetry
  • Constraint orientation

Such a system is effectively a torsion compass.

Whether implemented biologically or mechanically, the function is the same:

Determine orientation by reading constraint, not light.

Mapping to Dot Classes

Polarisation involves interaction between:

  • Class I dots (propagating light patterns)
  • Class II dots (torsional structures in the environment)

The observed effect is a projection of torsion onto propagation.

No particles are exchanged.
No charges are involved.
Only structure interacting with structure.

Final Thought

Polarisation is not a trick of optics.

It is the aether briefly revealing how it is twisted.

Once you see polarisation this way,
you stop asking how bees learned it —
and start asking why we ever forgot it.

Comments

Post a Comment

Popular posts from this blog

Validation vs. Valuation

Validation vs. Valuation I recently found myself reflecting on the difference between validation and valuation , and I realised that although the words are often used interchangeably, they point to very different things. Validation, at its simplest and most innocent, is a form of support in the moment. It says: you’re seen , you’re heard , you’re not alone right now . In practical terms, validation is important — we validate work to ensure it’s safe, correct, or fit for purpose. In relationships, it can be reassuring and kind. But validation has a shadow side. When validation becomes something I need in order to feel whole — when my sense of self depends on it — it quietly shifts from support into something corrosive. In its more sinister form, validation can become manipulation, or an inadvertent tapping into a core wound: without your approval, I don’t exist . At that point, validation no longer supports identity — it erodes it. Valuation is something else entirely. Valuation ...
Read more

AMS Guide Part 1 — Charter and Purpose

AMS Guide Part 1 — Charter and Purpose 1. What This Guide Is This document is a companion guide to the Aetheric Magnetic Substrate (AMS) Ontology . Its purpose is to: explain the ontology in plain but accurate language reduce cognitive load for readers encountering the ideas for the first time provide intuition, metaphors, and narrative scaffolding allow readers to grasp what the ontology is doing without needing to adopt its formal vocabulary immediately The guide is not the ontology itself. It does not replace formal definitions or axioms. It exists to make them understandable . 2. Intended Audience Primary Audience Readers with: a genuine interest in science and how the physical world works some familiarity with scientific ideas and language curiosity rather than professional obligation A good mental model is: A regular reader of a BBC science magazine, Scientific American–style articles, or long-form popular science writing. This reader: is not a practi...
Read more

Newton, Einstein, and Gravity Revisited Through the Aetheric Magnetic Substrate

Newton, Einstein, and Gravity Revisited Through the Aetheric Magnetic Substrate I recently watched a video titled “There Is Something Faster Than Light.” The specifics of the argument aren’t the point here. What caught my attention was the familiar framing that followed: Newton versus Einstein, non-local versus local gravity, classical intuition versus modern physics. This framing is common. It’s also misleading. What follows is not a critique of either Newton or Einstein, but an attempt to understand what they were actually observing , why their descriptions differed, and how those observations can be unified under a single, coherent ontology — the Aetheric Magnetic Substrate (AMS) . Newton: Gravity as Non-Local Action Newton’s law of gravitation is often caricatured as “action at a distance,” and historically, Newton himself was uneasy with that implication. From a modern perspective, Newtonian gravity is described as non-local : Two masses influence one another instantly N...
Read more