source: sasview/src/sas/perspectives/invariant/media/invariant_help.rst @ a8d882a

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[ec392464]1.. invariant_help.rst
2
3.. This is a port of the original SasView html help file to ReSTructured text
4.. by S King, ISIS, during SasView CodeCamp-III in Feb 2015.
5
[0721c3d]6.. |Ang| unicode:: U+212B
7.. |pi| unicode:: U+03C0
8.. |bigdelta| unicode:: U+0394
9.. |rho| unicode:: U+03C1
10.. |phi| unicode:: U+03C6
11
[ec392464]12Invariant Calculation Perspective
13=================================
14
15Scattering_Invariant_
16
[0721c3d]17How_to_Use_
18
[ec392464]19Volume_Fraction_
20
21Specific_Surface_Area_
22
23Reference_
24
25.. ZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZ
26
27.. _Scattering_Invariant:
28
[0721c3d]29Scattering (Porod) Invariant
30----------------------------
[ec392464]31
[0721c3d]32The scattering, or Porod, invariant (Q*\) is a model-independent quantity that
33can be easily calculated from scattering data.
[ec392464]34
[0721c3d]35For two phase systems, the scattering invariant is defined as the integral of
36the square of the wave transfer (Q) multiplied by the scattering cross section
37over the full range of Q from zero to infinity, that is
[ec392464]38
39.. image:: image001.gif
40
[0721c3d]41where *g = Q* for pinhole geometry (SAS) and *g = Qv* (the slit height) for 
42slit geometry (USAS).
[ec392464]43
[0721c3d]44The worth of Q*\  is that it can be used to determine the volume fraction and
45the specific area of a sample. Whilst these quantities are useful in their own
46right they can also be used in further analysis.
[ec392464]47
[0721c3d]48The difficulty with using Q*\  arises from the fact that experimental data is
49never measured over the range 0 =< *Q* =< infinity. At best, combining USAS and
50WAS data might cover the range 1e-5 =< *Q* =< 10 1/\ |Ang| . Thus it is usually
51necessary to extrapolate the experimental data to low and high *Q*. For this
[ec392464]52
[0721c3d]53High-*Q* region (>= *Qmax* in data)
[ec392464]54
[0721c3d]55*  The power law function *C*/*Q*\ :sup:`4` is used where the constant
56   *C* (= 2.\ |pi|\ .(\ |bigdelta|\ |rho|\ ).\ *Sv*\ ) is to be found by fitting part of data
57   within the range *Q*\ :sub:`N-m` to *Q*\ :sub:`N` (where m < N).
[ec392464]58
[0721c3d]59Low-*Q* region (<= *Qmin* in data)
[ec392464]60
[0721c3d]61*  The Guinier function *I0.exp(-Rg*\ :sup:`2`\ *Q*\ :sup:`2`\ */3)* where *I0* 
62   and *Rg* are obtained by fitting as for the high-*Q* region above.
63   Alternatively a power law can be used.
[ec392464]64
[0721c3d]65.. ZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZ
[ec392464]66
[0721c3d]67.. _How_to_Use:
[ec392464]68
[0721c3d]69How to Use
70----------
71
721) Select *Invariant* from the *Analysis* menu on the SasView toolbar.
73
742) Load some data with the *Data Explorer*.
75
763) Select a dataset and use the *Send To* button on the *Data Explorer* to load
77   the dataset into the *Invariant* perspective.
78
794) Use the *Customised Input* boxes on the *Invariant* perspective to subtract
80   any background, specify the contrast (i.e. difference in SLDs - this must be
81   specified for the eventual value of Q*\  to be on an absolute scale), or to
82   rescale the data.
[ec392464]83
[0721c3d]845) Adjust the extrapolation range as necessary. In most cases the default
85   values will suffice.
[ec392464]86
[0721c3d]876) Click the *Compute* button.
[ec392464]88
[0721c3d]897) To include a lower and/or higher Q range, check the relevant *Enable
90   Extrapolate* check boxes.
91   
92   If power law extrapolations are chosen, the exponent can be either held
93   fixed or fitted. The number of points, Npts, to be used for the basis of the
94   extrapolation can also be specified.
[ec392464]95
[0721c3d]968) If the value of Q*\  calculated with the extrapolated regions is invalid, a
97   red warning will appear at the top of the *Invariant* perspective panel.
[ec392464]98
[0721c3d]99   The details of the calculation are available by clicking the *Details* 
100   button in the middle of the panel.
[ec392464]101
[0721c3d]102.. image:: image005.gif
[ec392464]103
104.. ZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZ
105
106.. _Volume_Fraction:
107
108Volume Fraction
109---------------
110
[0721c3d]111The volume fraction |phi| is related to Q*\  by
112
[ec392464]113.. image:: image002.gif
114
[0721c3d]115where |bigdelta|\ |rho| is the SLD contrast.
[ec392464]116
117.. image:: image003.gif
118
119.. ZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZ
120
121.. _Specific_Surface_Area:
122
123Specific Surface Area
124---------------------
125
[0721c3d]126The specific surface area *Sv* is related to Q*\  by
[ec392464]127
[0721c3d]128.. image:: image004.gif
[ec392464]129
[0721c3d]130where *Cp* is the Porod constant.
[ec392464]131
132.. ZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZ
133
134.. _Reference:
135
136References
137----------
138
[0721c3d]139O. Glatter and O. Kratky
140Chapter 2 in *Small Angle X-Ray Scattering*
141Academic Press, New York, 1982
[ec392464]142
143http://physchem.kfunigraz.ac.at/sm/
144
[0721c3d]145.. ZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZ
[ec392464]146
[0721c3d]147.. note::  This help document was last changed by Steve King, 19Feb2015
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