source: sasview/sansview/perspectives/fitting/sldCalculator.py @ 8d78399

ESS_GUIESS_GUI_DocsESS_GUI_batch_fittingESS_GUI_bumps_abstractionESS_GUI_iss1116ESS_GUI_iss879ESS_GUI_iss959ESS_GUI_openclESS_GUI_orderingESS_GUI_sync_sascalccostrafo411magnetic_scattrelease-4.1.1release-4.1.2release-4.2.2release_4.0.1ticket-1009ticket-1094-headlessticket-1242-2d-resolutionticket-1243ticket-1249ticket885unittest-saveload
Last change on this file since 8d78399 was 6c5239c, checked in by Gervaise Alina <gervyh@…>, 15 years ago

sld calculation description

  • Property mode set to 100644
File size: 3.7 KB
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1"""
2    This module intends to compute the neutron scattering length density of molecule
3    @author: Gervaise B. Alina
4"""
5
6import periodictable
7from periodictable import formula
8from periodictable.xsf import xray_energy, xray_sld_from_atoms
9from periodictable.constants import avogadro_number
10import periodictable.nsf
11neutron_sld_from_atoms= periodictable.nsf.neutron_sld_from_atoms
12
13class SldCalculator(object):
14    """
15        compute neutron SLD and related parameters
16    """
17    def __init__(self):
18        self.wavelength  = 6.0
19        self.coherence   = 0.0
20        self.absorption  = 0.0
21        self.incoherence = 0.0
22        self.sld_formula = None
23        self.volume = 0.0
24        self.density = None
25        self.length= 0.0
26       
27       
28    def setValue(self,user_formula, density, wavelength=6.0):
29        """
30            Store values of density and wavelength into the calculator
31            and compute the volume
32        """
33        self.wavelength = wavelength
34        self.density    = float(density)
35        self.sld_formula = formula(str(user_formula), density= self.density)
36        if self.density==0:
37            raise ZeroDivisionError,"integer division or modulo by zero for density"
38            return 
39        self.volume = (self.sld_formula.mass /self.density)/avogadro_number*1.0e24   
40       
41       
42    def calculateXRaySld(self, element):
43        """
44            Get an element and compute the corresponding SLD for a given formula
45            @param element:  elementis a string of existing atom
46        """
47        myformula = formula(str (element))
48        if len(myformula.atoms)!=1:
49            return 
50        element= myformula.atoms.keys()[0] 
51        energy = xray_energy(element.K_alpha)
52        atom = self.sld_formula.atoms
53        atom_reel, atom_im = xray_sld_from_atoms( atom,
54                                              density= self.density,
55                                              energy= energy )
56        return atom_reel, atom_im
57     
58       
59    def calculateNSld(self):
60        """
61            Compute the neutron SLD for a given molecule
62            @return absorp: absorption
63            @return coh: coherence cross section
64            @return inc: incoherence cross section
65        """
66        if self.density ==0:
67            raise ZeroDivisionError,"integer division or modulo by zero for density"
68            return 
69        atom = self.sld_formula.atoms
70        coh,absorp,inc = neutron_sld_from_atoms(atom,self.density,self.wavelength)
71        #Don't know if value is return in cm or  cm^(-1).assume return in cm
72        # to match result of neutron inc of Alan calculator
73        self.incoherence = inc*1/10
74        #Doesn't match result of Alan calculator for absorption factor of 2
75        #multiplication of 100 is going around
76        self.absorption = absorp*2*100
77        self.coherence  = coh
78        return self.coherence, self.absorption, self.incoherence
79   
80   
81    def calculateLength(self):
82        """
83            Compute the neutron 1/e length
84        """
85        self.length= (self.coherence+ self.absorption+ self.incoherence)/self.volume
86        return self.length
87       
88       
89    def calculateAbsorptionIm(self):
90        """
91            Compute imaginary part of the absorption
92        """
93        atom = self.sld_formula.atoms
94        #im: imaginary part of neutron SLD
95        im=0
96        for el, count in atom.iteritems():
97            if el.neutron.b_c_i !=None:
98                im += el.neutron.b_c_i*count
99        if self.volume !=0:
100            im = im/self.volume
101        else:
102            raise ZeroDivisionError,"integer division or modulo by zero for volume"
103        return im
104       
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