#### Simulations

# Computer Simulation Gallery

## A series of simulations of the Model G reaction system

Simulations carried out by Matt Pulver.

## Particle Creation

**3D simulation showing a subatomic particle forming from an X potential ZPE fluctuation**

This is a one-dimensional cross section of a spherically symmetric particle extending radially in three dimensions. Simulation parameters: Reaction volume radius = 50 spatial units, vacuum boundary conditions, X potential seed fluctuation: 1 sigma in space, 3 sigma in time.

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**3D simulation showing subatomic particle autogenesis (vertically expanded view)**

This is a one-dimensional cross section of a spherically symmetric particle extending radially in three dimensions. Simulation parameters: Reaction volume radius = 50 spatial units, vacuum boundary conditions, X potential seed fluctuation: 1 sigma in space, 3 sigma in time.

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**3D simulation showing particle with higher core diffusion coefficient**

This is a one-dimensional cross section of a spherically symmetric particle extending radially in three dimensions. Simulation parameters: Reaction volume: 3D, Radius = 50 spatial units, vacuum boundary conditions, X potential seed fluctuation: 1 sigma in space, 3 sigma in time. Diffusion coefficient = 2 at center and decreases to 1 with sigma = 1.5 spatial units.

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**3D simulation showing particle with lower core diffusion coefficient**

This is a one-dimensional cross section of a spherically symmetric particle extending radially in three dimensions. Simulation parameters: Reaction volume radius = 50 spatial units, vacuum boundary conditions, X potential seed fluctuation: 1 sigma in space, 3 sigma in time. Diffusion coefficient = 0.5 at center and increases to 1 with sigma = 1.5 spatial units.

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**2D simulation showing a subatomic particle forming from an X potential ZPE fluctuation**

This is a one-dimensional cross section of circularly symmetric particle extending radially in two dimensions. Simulation parameters: Reaction volume radius = 50 spatial units, vacuum boundary conditions, X potential seed fluctuation: 1 sigma in space, 3 sigma in time.

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**1D simulation showing a subatomic particle forming from an X potential ZPE fluctuation**

This is a one-dimensional plot of a particle formed in a one-dimensional reaction volume. Simulation parameters: Reaction volume radius = 50 spatial units, vacuum boundary conditions, X potential seed fluctuation: 1 sigma in space, 3 sigma in time.

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**1D simulation showing a subatomic particle forming from a G and X potential ZPE fluctuation**

This is a one-dimensional plot of a particle formed in a one-dimensional reaction volume. Simulation parameters: Reaction volume radius = 50 spatial units, vacuum boundary conditions, X potential seed fluctuation: 1 sigma in space, 3 sigma in time.

Next Page: Particle Bound States