Knot Physics

A unification theory by Caltech alumni

A branched spacetime manifold enables a unified description of gravity and quantum mechanics.

A geometric theory of quarks results in asymptotic freedom, confinement, and gluons.

Electroweak unification is a consequence of including knot geometry in the description of the electromagnetic field.

An overview of the entire theory, from simple assumptions about the spacetime manifold through particles, quantum mechanics, and forces

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An overview of the entire theory, from simple assumptions about the spacetime manifold through particles, quantum mechanics, and forces

Learn more

In Knot Physics, a model of quantum gravity extends our knowledge of physics beyond the event horizon.

In Knot Physics, superfluidity results from the properties of the branched spacetime manifold.

At the center of physics is a conundrum that has persisted since the early days of quantum mechanics.

In Knot Physics, particles are knots in the spacetime manifold.

3:00

A 3-minute video on quantum mechanics, which results from a geometric model of spacetime

The papers cover theory fundamentals as well as a variety of topics, including entanglement and dark matter.

Topics covered include the double slit experiment, virtual particles, and spacetime curvature.

On developing a unification theory as independent researchers

Caltech astrophysics PhD and math alumnus now doing independent research

Assumptions, advantages, and features of the theory