## Covered functionality » History » Version 70

Version 69
*(celine, 31 Mar 2015 12:38)*
→
Version 70/74
*(celine, 17 Apr 2015 14:00)*

h1. Covered IsGISAXS functionality

h3. IsGISAXS examples

Examples from IsGISAXS software package bundle - 15 examples, 26 tests totally.

|_.Example |_. Description |_. N tests |_.Status|

|=. ex-1 |^. Two types of islands (cylinder, prism3) on top of substrate.

No interference function |=. 1/1 |=. OK |

|=. ex-2 |^. Bimodal cylinders on top of substrate.

Two gaussian size cylinder distribution |=. 1/1 |=. OK |

|=. ex-3 |^. Cylinder formfactor in BA and DWBA

. |=. 4/5 |=. OK |

|=. ex-4 |^. 1D and 2D paracrystal

. |=. 2/2 |=. OK |

|=. ex-5 |^. 1D paracrystal fit example

. |=. 1/1 |=. OK |

|=. ex-6 |^. 2D lattice with different disorder

. |=. 4/4 |=. OK |

|=. ex-7 |^. Mixture of different particles defined in morphology file

. |=. 1/1 |=. OK |

|=. ex-8 |^. 2DDL paracrystal

. |=. 2/2 |=. OK |

|=. ex-9 |^. Pyramids on top of substrate

Rotated pyramids on top of substrate |=. 2/2 |=. OK |

|=. ex-10 |^. Cylinders with interference on top of substrate

. |=. 1/1 |=. OK |

|=. ex-11 |^. Core shell nano particles

. |=. 1/1 |=. OK |

|=. ex-12 |^. Constrained fit example

Mixture of two cylinder types |=. 1/1 |=. OK |

|=. ex-13 |^. Simulated annealing fit example

. |=. 0/1 |=. OK |

|=. ex-14 |^. Layered spheres on graded interface

. |=. 0/2 |=. |

|=. ex-15 |^. Size spacing correlation approximation

. |=. 1/1 |=. OK |

h3. IsGISAXS form factors

Status: 19 out of 21

|_. |_. Form factor |_.Status |_.Comments|

|=. 1 |^. Anisotropic Pyramid |=.OK |=. |

|=. 2 |^. Box |=.OK |=. |

|=. 3 |^. Cone |=.OK |=. |

|=. 4 |^. Cone6 |=.OK |=. |

|=. 5 |^. Cuboctahedron |=.OK |=. |

|=. 6 |^. Cylinder |=.OK |=. |

|=. 7 |^. Ellipsoidal Cylinder |=.OK |=. |

|=. 8 |^. Full Sphere |=.OK |=. |

|=. 9 |^. Full Spheroid |=.OK |=. |

|=. 10 |^. Hemi Ellipsoid |=.OK |=. |

|=. 11 |^. Infinitely Long Box |=.OK |=. |

|=. 12 |^. Infinitely Long Ripple1 |=.~ |=. |

|=. 13 |^. Infinitely Long Ripple2 |=.~ |=. |

|=. 14 |^. Prism3 |=.OK |=. |

|=. 15 |^. Prism6 |=.OK |=. |

|=. 16 |^. Pyramid |=.OK |=. |

|=. 17 |^. Ripple1 |=.OK |=. |

|=. 18 |^. Ripple2 |=.OK |=. |

|=. 19 |^. Tetrahedron |=.OK |=. |

|=. 20 |^. Truncated Cube |=.OK |=. |=. |

|=. 20 |^. Truncated Sphere |=.OK |=. |

|=. 21 |^. Truncated Spheroid |=.OK |=. |

h3. Interference functions

|_. |_. Description |_.Status |_.Comments|

|=. 1 |^. No interference |=.OK |=. |

|=. 1 |^. decoupling approximation |=.OK |=. |

|=. 1 |^. local mono disperse approximation |=.OK |=. |

|=. 1 |^. size spacing approximation |=.OK |=. |

h3. Pair correlation functions

|_. |_. Description |_.Status |_.Comments|

|=. 1 |^. The Debye hard core |=. |=. |

|=. 2 |^. The gaussian |=. |=. |

|=. 3 |^. The Lennard-Jonnes |=. |=. |

|=. 4 |^. The gate pair correlation |=. |=. |

|=. 5 |^. The Debye hard core with power-law decrease |=. |=. |

|=. 6 |^. The Zhu pair correlation function |=. |=. |

|=. 7 |^. The Venables pair correlation function |=. |=. |

|=. 8 |^. The bidimensional hard core pair function. |=. |=. |

h3. Other IsGISAXS features

|_. |_. form factor |_.Status |_.Comments|

|=. 1 |^. Polarization |=. |=. |

|=. 1 |^. DWBA on the graded interface |=. |=. |

|=. 1 |^. Linear interpolation of data before fitting |=. |=. |

|=. 1 |^. Correlation of H,R,W size of particles |=. |=. |

|=. 1 |^. Ability to average over beam spread |=. |=. |

h3. Found IsGISAXS bugs

* Ex-14, form factor of sphere

For factor of Sphere with H=2R should be exactly as formfactor of FullSphere, it is not so.

Probably due to numeric instability during integration

h3. IsGISAXS examples

Examples from IsGISAXS software package bundle - 15 examples, 26 tests totally.

|_.Example |_. Description |_. N tests |_.Status|

|=. ex-1 |^. Two types of islands (cylinder, prism3) on top of substrate.

No interference function |=. 1/1 |=. OK |

|=. ex-2 |^. Bimodal cylinders on top of substrate.

Two gaussian size cylinder distribution |=. 1/1 |=. OK |

|=. ex-3 |^. Cylinder formfactor in BA and DWBA

. |=. 4/5 |=. OK |

|=. ex-4 |^. 1D and 2D paracrystal

. |=. 2/2 |=. OK |

|=. ex-5 |^. 1D paracrystal fit example

. |=. 1/1 |=. OK |

|=. ex-6 |^. 2D lattice with different disorder

. |=. 4/4 |=. OK |

|=. ex-7 |^. Mixture of different particles defined in morphology file

. |=. 1/1 |=. OK |

|=. ex-8 |^. 2DDL paracrystal

. |=. 2/2 |=. OK |

|=. ex-9 |^. Pyramids on top of substrate

Rotated pyramids on top of substrate |=. 2/2 |=. OK |

|=. ex-10 |^. Cylinders with interference on top of substrate

. |=. 1/1 |=. OK |

|=. ex-11 |^. Core shell nano particles

. |=. 1/1 |=. OK |

|=. ex-12 |^. Constrained fit example

Mixture of two cylinder types |=. 1/1 |=. OK |

|=. ex-13 |^. Simulated annealing fit example

. |=. 0/1 |=. OK |

|=. ex-14 |^. Layered spheres on graded interface

. |=. 0/2 |=. |

|=. ex-15 |^. Size spacing correlation approximation

. |=. 1/1 |=. OK |

h3. IsGISAXS form factors

Status: 19 out of 21

|_. |_. Form factor |_.Status |_.Comments|

|=. 1 |^. Anisotropic Pyramid |=.OK |=. |

|=. 2 |^. Box |=.OK |=. |

|=. 3 |^. Cone |=.OK |=. |

|=. 4 |^. Cone6 |=.OK |=. |

|=. 5 |^. Cuboctahedron |=.OK |=. |

|=. 6 |^. Cylinder |=.OK |=. |

|=. 7 |^. Ellipsoidal Cylinder |=.OK |=. |

|=. 8 |^. Full Sphere |=.OK |=. |

|=. 9 |^. Full Spheroid |=.OK |=. |

|=. 10 |^. Hemi Ellipsoid |=.OK |=. |

|=. 11 |^. Infinitely Long Box |=.OK |=. |

|=. 12 |^. Infinitely Long Ripple1 |=.~ |=. |

|=. 13 |^. Infinitely Long Ripple2 |=.~ |=. |

|=. 14 |^. Prism3 |=.OK |=. |

|=. 15 |^. Prism6 |=.OK |=. |

|=. 16 |^. Pyramid |=.OK |=. |

|=. 17 |^. Ripple1 |=.OK |=. |

|=. 18 |^. Ripple2 |=.OK |=. |

|=. 19 |^. Tetrahedron |=.OK |=. |

|=. 20 |^. Truncated Cube |=.OK |=. |=. |

|=. 20 |^. Truncated Sphere |=.OK |=. |

|=. 21 |^. Truncated Spheroid |=.OK |=. |

h3. Interference functions

|_. |_. Description |_.Status |_.Comments|

|=. 1 |^. No interference |=.OK |=. |

|=. 1 |^. decoupling approximation |=.OK |=. |

|=. 1 |^. local mono disperse approximation |=.OK |=. |

|=. 1 |^. size spacing approximation |=.OK |=. |

h3. Pair correlation functions

|_. |_. Description |_.Status |_.Comments|

|=. 1 |^. The Debye hard core |=. |=. |

|=. 2 |^. The gaussian |=. |=. |

|=. 3 |^. The Lennard-Jonnes |=. |=. |

|=. 4 |^. The gate pair correlation |=. |=. |

|=. 5 |^. The Debye hard core with power-law decrease |=. |=. |

|=. 6 |^. The Zhu pair correlation function |=. |=. |

|=. 7 |^. The Venables pair correlation function |=. |=. |

|=. 8 |^. The bidimensional hard core pair function. |=. |=. |

h3. Other IsGISAXS features

|_. |_. form factor |_.Status |_.Comments|

|=. 1 |^. Polarization |=. |=. |

|=. 1 |^. DWBA on the graded interface |=. |=. |

|=. 1 |^. Linear interpolation of data before fitting |=. |=. |

|=. 1 |^. Correlation of H,R,W size of particles |=. |=. |

|=. 1 |^. Ability to average over beam spread |=. |=. |

h3. Found IsGISAXS bugs

* Ex-14, form factor of sphere

For factor of Sphere with H=2R should be exactly as formfactor of FullSphere, it is not so.

Probably due to numeric instability during integration