Name | Description | Category | Upload Date | Author | Score | Verified |
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Rectangular Prism | # rectangular_prism model # Note: model title and parameter table are inserted automatically This model provides the form factor, $P(q)$, for a rectangular prism. Note that this model is almo... | Parallelepiped | 07 Sep 2017 | sasview | 0 | |

Core Shell Parallelepiped | Definition Calculates the form factor for a rectangular solid with a core-shell structure. The thickness and the scattering length density of the shell or "rim" can be different on each (pair... | Parallelepiped | 07 Sep 2017 | sasview | 0 | |

Parallelepiped | # parallelepiped model # Note: model title and parameter table are inserted automatically Definition This model calculates the scattering from a rectangular solid (`parallelepiped-image`). If... | Parallelepiped | 07 Sep 2017 | sasview | 0 | |

Hollow Rectangular Prism | # rectangular_prism model # Note: model title and parameter table are inserted automatically Definition This model provides the form factor, $P(q)$, for a hollow rectangular parallelepiped wi... | Parallelepiped | 07 Sep 2017 | sasview | 0 | |

Hollow Rectangular Prism Thin Walls | # rectangular_prism model # Note: model title and parameter table are inserted automatically Definition This model provides the form factor, $P(q)$, for a hollow rectangular prism with inf... | Parallelepiped | 07 Sep 2017 | sasview | 0 | |

Core shell cuboid | Output: P(q) = \frac{\text{scale}}{V_{cs}} \int_{0}^{\pi}\int_{0}^{2\pi} f^2(q,\theta_Q,\phi_Q) \sin(\theta_Q) d\theta_Q d\phi_Q + \text{background} where f(q,\theta_Q,\phi_Q) = ( \rho... | Parallelepiped | 02 Aug 2019 | p3scmr | 0 |

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