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root/OpenMD/trunk/src/hydrodynamics/Ellipsoid.cpp
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Comparing trunk/src/hydrodynamics/Ellipsoid.cpp (file contents):
Revision 981 by gezelter, Mon Jun 5 18:24:45 2006 UTC vs.
Revision 1322 by gezelter, Mon Nov 24 22:01:56 2008 UTC

# Line 45 | Line 45 | namespace oopse {
45  
46   namespace oopse {
47    
48 <  Ellipsoid::Ellipsoid(Vector3d origin, RealType rMajor, RealType rMinor,Mat3x3d rotMat)
49 <    : origin_(origin), rMajor_(rMajor), rMinor_(rMinor), rotMat_(rotMat) {
50 <    
48 >  Ellipsoid::Ellipsoid(Vector3d origin, RealType rAxial, RealType rEquatorial,
49 >                       Mat3x3d rotMat) : origin_(origin), rAxial_(rAxial),
50 >                                         rEquatorial_(rEquatorial),
51 >                                         rotMat_(rotMat) {
52 >    if (rAxial_ > rEquatorial_) {
53 >      rMajor_ = rAxial_;
54 >      rMinor_ = rEquatorial_;
55 >    } else {
56 >      rMajor_ = rEquatorial_;
57 >      rMinor_ = rAxial_;
58 >    }          
59    }
60 +
61    bool Ellipsoid::isInterior(Vector3d pos) {
62      Vector3d r = pos - origin_;
63      Vector3d rbody = rotMat_ * r;
64 <    RealType xovera = rbody[0]/rMajor_;
65 <    RealType yovera = rbody[1]/rMajor_;
66 <    RealType zoverb = rbody[2]/rMinor_;
64 >
65 >    RealType xoverb = rbody[0]/rEquatorial_;
66 >    RealType yoverb = rbody[1]/rEquatorial_;
67 >    RealType zovera = rbody[2]/rAxial_;
68      
69      bool result;
70 <    if (xovera*xovera + yovera*yovera + zoverb*zoverb < 1)
70 >    if (xoverb*xoverb + yoverb*yoverb + zovera*zovera < 1)
71        result = true;
72      else
73        result = false;
# Line 69 | Line 79 | namespace oopse {
79      
80      std::pair<Vector3d, Vector3d>  boundary;
81      //make a cubic box
82 <    RealType rad  = rMajor_ > rMinor_ ? rMajor_ : rMinor_;
82 >    RealType rad  = rAxial_ > rEquatorial_ ? rAxial_ : rEquatorial_;
83      Vector3d r(rad, rad, rad);
84      boundary.first = origin_ - r;
85      boundary.second = origin_ + r;
86      return boundary;
87    }
88    
89 <  HydroProp* Ellipsoid::getHydroProp(RealType viscosity, RealType temperature) {
89 >  HydroProp* Ellipsoid::getHydroProp(RealType viscosity,
90 >                                     RealType temperature) {
91      
92 <    RealType a = rMinor_;
93 <    RealType b = rMajor_;
92 >    RealType a = rAxial_;
93 >    RealType b = rEquatorial_;
94      RealType a2 = a * a;
95 <    RealType b2 = b* b;
95 >    RealType b2 = b * b;
96      
97 <    RealType p = a /b;
97 >    RealType p = a / b;
98      RealType S;
99 <    if (p > 1.0) { //prolate
99 >    if (p > 1.0) {  
100 >      // Ellipsoid is prolate:
101        S = 2.0/sqrt(a2 - b2) * log((a + sqrt(a2-b2))/b);
102 <    } else { //oblate
102 >    } else {
103 >      // Ellipsoid is oblate:
104        S = 2.0/sqrt(b2 - a2) * atan(sqrt(b2-a2)/a);
105      }
106      
107 <    RealType P = 1.0/(a2 - b2) * (S - 2.0/a);
108 <    RealType Q = 0.5/(a2-b2) * (2.0*a/b2 - S);
107 >    RealType pi = NumericConstant::PI;
108 >    RealType XittA = 16.0 * pi * viscosity * (a2 - b2) /((2.0*a2-b2)*S -2.0*a);
109 >    RealType XittB = 32.0 * pi * viscosity * (a2 - b2) /((2.0*a2-3.0*b2)*S +2.0*a);
110 >    RealType XirrA = 32.0/3.0 * pi * viscosity *(a2 - b2) * b2 /(2.0*a -b2*S);
111 >    RealType XirrB = 32.0/3.0 * pi * viscosity *(a2*a2 - b2*b2)/((2.0*a2-b2)*S-2.0*a);
112      
97    RealType transMinor = 16.0 * NumericConstant::PI * viscosity * (a2 - b2) /((2.0*a2-b2)*S -2.0*a);
98    RealType transMajor = 32.0 * NumericConstant::PI * viscosity * (a2 - b2) /((2.0*a2-3.0*b2)*S +2.0*a);
99    RealType rotMinor = 32.0/3.0 * NumericConstant::PI * viscosity *(a2 - b2) * b2 /(2.0*a -b2*S);
100    RealType rotMajor = 32.0/3.0 * NumericConstant::PI * viscosity *(a2*a2 - b2*b2)/((2.0*a2-b2)*S-2.0*a);
113      
102    
114      Mat6x6d Xi, XiCopy, D;
115      
116 <    Xi(0,0) = transMajor;
117 <    Xi(1,1) = transMajor;
118 <    Xi(2,2) = transMinor;
119 <    Xi(3,3) = rotMajor;
120 <    Xi(4,4) = rotMajor;
121 <    Xi(5,5) = rotMinor;
116 >    Xi(0,0) = XittB;
117 >    Xi(1,1) = XittB;
118 >    Xi(2,2) = XittA;
119 >    Xi(3,3) = XirrB;
120 >    Xi(4,4) = XirrB;
121 >    Xi(5,5) = XirrA;
122 >
123 >    Xi *= OOPSEConstant::viscoConvert;    
124      
112    const RealType convertConstant = 6.023; //convert poise.angstrom to amu/fs
113    Xi *= convertConstant;    
114    
125      XiCopy = Xi;
126      invertMatrix(XiCopy, D);
127 <    RealType kt = OOPSEConstant::kB * temperature;
127 >    RealType kt = OOPSEConstant::kb * temperature; // in kcal mol^-1
128      D *= kt;
119    Xi *= OOPSEConstant::kb * temperature;
129    
130      HydroProp* hprop = new HydroProp(V3Zero, Xi, D);
131  

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