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G4CrystalUnitCell.hh
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31 // G4CrystalUnitCell
32 //
33 // Class Description:
34 //
35 
36 
37 #ifndef G4CrystalUnitCell_H
38 #define G4CrystalUnitCell_H 1
39 
40 #include "globals.hh"
41 #include <vector>
42 #include "G4ThreeVector.hh"
45 //#include "sginfo.h"
46 
48 {
49 public:
51  G4double sizeB,
52  G4double sizeC,
54  G4double beta,
55  G4double gamma,
56  G4int spacegroup);
57 
58  virtual ~G4CrystalUnitCell();
59 
60 private:
62 public:
63  inline G4int GetSpaceGroup() const {return theSpaceGroup;};
64  inline void SetSpaceGroup(G4int aInt) {theSpaceGroup=aInt;};
65 
66 private:
69 
70 public:
73  }
76  }
77 
78 private:
79  //T_SgInfo SgInfo;
82 private:
86 
87  //
88  // Size and angles of the crystalline unit cell
89  //
90 protected:
92 
93  G4ThreeVector theSize; // cell sizes
94  G4ThreeVector theAngle; // cell angles
95  G4ThreeVector theUnitBasis[3]; // Basis unit vectors in direct orientation
96  G4ThreeVector theBasis[3]; // Basis vectors in direct orientation
97 
98 public:
99  const G4ThreeVector& GetBasis(G4int idx) const;
100  const G4ThreeVector& GetUnitBasis(G4int idx) const;
101  inline G4ThreeVector GetSize() const {return theSize;}
102  inline G4ThreeVector GetAngle() const {return theAngle;}
103 
104  G4ThreeVector GetUnitBasisTrigonal(); // return theUnitBase[2] vector
105  //
106  // Reciprocal size and angles of the crystalline unit cell
107  //
108 protected:
109  G4ThreeVector theRecSize; // reciprocal cell sizes
110  G4ThreeVector theRecAngle; // reciprocal cell angles
111  G4ThreeVector theRecUnitBasis[3]; // Basis unit vectors in reciprocal orientation
112  G4ThreeVector theRecBasis[3]; // Basis vectors in reciprocal orientation
113 
114 public:
115  const G4ThreeVector& GetRecBasis(G4int idx) const;
116  const G4ThreeVector& GetRecUnitBasis(G4int idx) const;
117  inline G4ThreeVector GetRecSize() const {return theRecSize;}
118  inline G4ThreeVector GetRecAngle() const {return theRecAngle;}
119 
120  //
121  // Methods to populate atom position in the lattice from the basis
122  // and the unit basis
123  //
124 public:
125  G4bool FillAtomicUnitPos(G4ThreeVector& pos, std::vector<G4ThreeVector>& vecout);
126  G4bool FillAtomicPos(G4ThreeVector& pos, std::vector<G4ThreeVector>& vecout);
127 
128  //
129  // Methods to populate elasticity and reduced elasticity tensors
130  //
131 public:
132  G4bool FillElReduced(G4double Cij[6][6]);
133 private:
134  G4bool FillAmorphous(G4double Cij[6][6]) const;
135  G4bool FillCubic(G4double Cij[6][6]) const;
136  G4bool FillTetragonal(G4double Cij[6][6]) const;
137  G4bool FillOrthorhombic(G4double Cij[6][6]) const;
138  G4bool FillRhombohedral(G4double Cij[6][6]) const;
139  G4bool FillMonoclinic(G4double Cij[6][6]) const;
140  G4bool FillTriclinic(G4double Cij[6][6]) const;
141  G4bool FillHexagonal(G4double Cij[6][6]) const;
142 
143  G4bool ReflectElReduced(G4double Cij[6][6]) const;
144 
145  //
146  // The volumes of the cell
147  //
148 public:
149  G4double ComputeCellVolume(); //compute and store the volume
150 
151  inline G4double GetVolume() const {return theVolume;} //get the stored volume
152  inline G4double GetRecVolume() const {return theRecVolume;} //get the stored volume
153 
154 private:
155  G4double theVolume; // the cell volume
156  G4double theRecVolume; // the cell volume
157 
158  //
159  // Squared Reciprocal and direct interplanar spacing
160  //
161 public:
163  G4int k,
164  G4int l); // squared interplanar spacing
165 
167  G4int k,
168  G4int l); // squared reciprocal interplanar spacing
169 
171  G4int k1,
172  G4int l1,
173  G4int h2,
174  G4int k2,
175  G4int l2); // cosine of the angle between two planes
176 
177 };
178 
179 #endif
180 
G4ThreeVector theBasis[3]
G4double GetRecVolume() const
G4bool ReflectElReduced(G4double Cij[6][6]) const
G4int GetSpaceGroup() const
G4double GetIntSp2(G4int h, G4int k, G4int l)
static const G4double pos
G4ThreeVector theUnitBasis[3]
G4bool FillAtomicPos(G4ThreeVector &pos, std::vector< G4ThreeVector > &vecout)
G4bool FillRhombohedral(G4double Cij[6][6]) const
G4double GetIntCosAng(G4int h1, G4int k1, G4int l1, G4int h2, G4int k2, G4int l2)
theBravaisLatticeType GetBravaisLattice()
theLatticeSystemType GetLatticeSystem()
void SetSpaceGroup(G4int aInt)
G4ThreeVector theRecBasis[3]
Double_t beta
G4ThreeVector theAngle
G4bool FillHexagonal(G4double Cij[6][6]) const
double G4double
Definition: G4Types.hh:76
bool G4bool
Definition: G4Types.hh:79
G4ThreeVector theSize
G4double GetVolume() const
G4ThreeVector GetRecAngle() const
G4bool FillMonoclinic(G4double Cij[6][6]) const
G4ThreeVector theRecUnitBasis[3]
const G4ThreeVector & GetUnitBasis(G4int idx) const
static const G4double alpha
G4ThreeVector GetAngle() const
const G4ThreeVector & GetRecUnitBasis(G4int idx) const
G4bool FillCubic(G4double Cij[6][6]) const
const G4ThreeVector & GetRecBasis(G4int idx) const
G4bool FillTriclinic(G4double Cij[6][6]) const
G4ThreeVector theRecSize
G4CrystalUnitCell(G4double sizeA, G4double sizeB, G4double sizeC, G4double alpha, G4double beta, G4double gamma, G4int spacegroup)
TH1F * h2
G4ThreeVector theRecAngle
G4bool FillElReduced(G4double Cij[6][6])
int G4int
Definition: G4Types.hh:78
G4ThreeVector nullVec
const G4ThreeVector & GetBasis(G4int idx) const
G4ThreeVector GetSize() const
G4bool FillOrthorhombic(G4double Cij[6][6]) const
TH1F * h1
theLatticeSystemType
G4ThreeVector GetRecSize() const
G4double GetRecIntSp2(G4int h, G4int k, G4int l)
G4bool FillTetragonal(G4double Cij[6][6]) const
G4bool FillAmorphous(G4double Cij[6][6]) const
G4double ComputeCellVolume()
G4ThreeVector GetUnitBasisTrigonal()
G4bool FillAtomicUnitPos(G4ThreeVector &pos, std::vector< G4ThreeVector > &vecout)