source: sasview/sansmodels/src/sans/models/BEPolyelectrolyte.py @ cd3d15b

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Last change on this file since cd3d15b was 988130c6, checked in by Gervaise Alina <gervyh@…>, 16 years ago

self.fixed field added in models but need to change wrapper generator

  • Property mode set to 100644
File size: 4.7 KB
RevLine 
[829eee9]1#!/usr/bin/env python
2"""
3   
[3db3895]4    Provide F(x) = K*1/(4*pi*Lb*(alpha)^(2))*(q^(2)+k2)/(1+(r02)^(2))*(q^(2)+k2)\
[829eee9]5                       *(q^(2)-(12*h*C/b^(2)))
6    BEPolyelectrolyte as a BaseComponent model
7"""
8
9from sans.models.BaseComponent import BaseComponent
10import math
11
12class BEPolyelectrolyte(BaseComponent):
13   
14    """
15        Class that evaluates a BEPolyelectrolyte.
16       
[3db3895]17        F(x) = K*1/(4*pi*Lb*(alpha)^(2))*(q^(2)+k2)/(1+(r02)^(2))*(q^(2)+k2)\
[829eee9]18                       *(q^(2)-(12*h*C/b^(2)))
19       
20        The model has Eight parameters:
21            K        =  Constrast factor of the polymer
22            Lb       =  Bjerrum length
23            H        =  virial parameter
24            B        =  monomer length
25            Cs       =  Concentration of monovalent salt
26            alpha    =  ionazation degree
27            C        = polymer molar concentration
28            bkd      = background
29    """
30       
31    def __init__(self):
32        """ Initialization """
33       
34        # Initialize BaseComponent first, then sphere
35        BaseComponent.__init__(self)
36       
37        ## Name of the model
38        self.name = "BEPolyelectrolyte"
[96672c0]39        self.description="""
40        F(x) = K*1/(4*pi*Lb*(alpha)^(2))*(q^(2)+k2)/(1+(r02)^(2))*(q^(2)+k2)\
41                       *(q^(2)-(12*h*C/b^(2)))
42        The model has Eight parameters:
43        K        =  Constrast factor of the polymer
44        Lb       =  Bjerrum length
45        H        =  virial parameter
46        B        =  monomer length
47        Cs       =  Concentration of monovalent salt
48        alpha    =  ionazation degree
49        C        = polymer molar concentration
50        bkd      = background
51        """
[829eee9]52        ## Define parameters
53        self.params = {}
[3db3895]54        self.params['k']    = 10
55        self.params['lb']   = 7.1
56        self.params['h']    = 12
57        self.params['b']    = 10
58        self.params['cs']   = 0.0
[829eee9]59        self.params['alpha']= 0.05
[3db3895]60        self.params['c']    = 0.7
61        self.params['background']  = 0.0
[829eee9]62       
63
64        ## Parameter details [units, min, max]
65        self.details = {}
[3db3895]66        self.details['k']    = ['barns', None, None]
67        self.details['lb'] = ['A', None, None]
68        self.details['h']   = ['A-3', None, None]
69        self.details['b']    = ['A', None, None]
70        self.details['cs'] = ['mol/L', None, None]
[829eee9]71        self.details['alpha']   = ['', None, None]
[3db3895]72        self.details['c']    = ['mol/L', None, None]
73        self.details['background'] = ['cm-1', None, None]
[988130c6]74        #list of parameter that cannot be fitted
75        self.fixed= []
[829eee9]76               
77    def _BEPoly(self, x):
78        """
79            Evaluate 
[3db3895]80            F(x) = K*1/(4*pi*Lb*(alpha)^(2))*(q^(2)+k2)/(1+(r02)^(2))*(q^(2)+k2)\
[829eee9]81                       *(q^(2)-(12*h*C/b^(2)))
82       
83            has 3 internal parameters :
84                   The inverse Debye Length: K2 = 4*pi*Lb*(2*Cs+alpha*C)
85                   r02 =1/alpha/Ca^(0.5)*(B/(48*pi*Lb)^(0.5))
[3db3895]86                   Ca = C*6.022136e-4
[829eee9]87        """
[3db3895]88        Ca = self.params['c'] * 6.022136e-4
[829eee9]89       
[3db3895]90        K2 = 4.0 * math.pi * self.params['lb'] * (2*self.params['cs'] + \
91                 self.params['alpha'] * Ca)
[829eee9]92       
[3db3895]93        r02 = 1.0/self.params['alpha']/math.sqrt(Ca) * \
94                (self.params['b']/math.sqrt((48.0*math.pi *self.params['lb'])))
[829eee9]95       
[3db3895]96        return self.params['k']/( 4.0 * math.pi * self.params['lb'] * self.params['alpha']**2 ) \
97               * ( x**2 + K2 ) / ( 1.0 + r02**2 * ( x**2 + K2 ) \
98                    * (x**2 - ( 12.0 * self.params['h'] \
99                    * Ca/(self.params['b']**2) ))) \
100                    + self.params['background']
[829eee9]101       
102   
103    def run(self, x = 0.0):
104        """ Evaluate the model
[3db3895]105            @param x: input q-value (float or [float, float] as [r, theta])
[829eee9]106            @return: (debye value)
107        """
108        if x.__class__.__name__ == 'list':
[a55fac1]109            return self._BEPoly(x[0])
[829eee9]110        elif x.__class__.__name__ == 'tuple':
111            raise ValueError, "Tuples are not allowed as input to BaseComponent models"
112        else:
113            return self._BEPoly(x)
114   
115    def runXY(self, x = 0.0):
116        """ Evaluate the model
[3db3895]117            @param x: input q-value (float or [float, float] as [qx, qy])
[829eee9]118            @return: debye value
119        """
120        if x.__class__.__name__ == 'list':
[a55fac1]121            q = math.sqrt(x[0]**2 + x[1]**2)
122            return self._BEPoly(q)
[829eee9]123        elif x.__class__.__name__ == 'tuple':
124            raise ValueError, "Tuples are not allowed as input to BaseComponent models"
125        else:
[3db3895]126            return self._BEPoly(x)
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