78{
79
80
81
82
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85
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87
88
89
90 double dx( ( xv1 - m_xv ).mag() );
91 double dp( ( pv1 - m_pv ).mag() );
92 double p2( m_pv.mag2() );
93 double p_abs( sqrt(
p2 ) );
94
95 double p_inv;
96 if( p_abs > Small && pv1.mag() > Small ){
97 p_inv = 1.0 / p_abs;
98 } else {
99 p_inv = Infinite;
100 return 0;
101 }
102
103 double ms_coeff( 2.557 * chi_cc );
104 bool with_B( (
B.mag() > Small ) ? 1 : 0 );
105 double p2inv( p_inv * p_inv );
106 double p3inv( p2inv * p_inv );
107 double fdx( dx * p3inv );
108 double cx( 100.*m_q *
C * fdx );
109 double fdp( dp * p_inv );
110
111 double px( m_pv.x() );
112 double py( m_pv.y() );
113 double pz( m_pv.z() );
114 double px2( px * px );
115 double py2( py * py );
116 double pz2( pz * pz );
117 double pxy( px * py );
118 double pyz( py * pz );
119 double pzx( pz * px );
123
124 m_xp_jcb( 1, 1 ) = 1.0;
125 m_xp_jcb( 1, 4 ) = fdx * ( py2 + pz2 );
126 m_xp_jcb( 1, 5 ) = - fdx * pxy;
127 m_xp_jcb( 1, 6 ) = - fdx * pzx;
128
129 m_xp_jcb( 2, 2 ) = 1.0;
130 m_xp_jcb( 2, 4 ) = - fdx * pxy;
131 m_xp_jcb( 2, 5 ) = fdx * ( pz2 + px2 );
132 m_xp_jcb( 2, 6 ) = - fdx * pyz;
133
134 m_xp_jcb( 3, 3 ) = 1.0;
135 m_xp_jcb( 3, 4 ) = - fdx * pzx;
136 m_xp_jcb( 3, 5 ) = - fdx * pyz;
137 m_xp_jcb( 3, 6 ) = fdx * ( px2 + py2 );
138
139 m_xp_jcb( 4, 4 ) = 1.0 - fdp;
140 m_xp_jcb( 5, 5 ) = 1.0 - fdp;
141 m_xp_jcb( 6, 6 ) = 1.0 - fdp;
142
143 if( with_B && m_q!=0. ){
144 m_xp_jcb( 4, 4 ) += - cx * ( pxy * Bz - pzx * By );
145 m_xp_jcb( 4, 5 ) = cx * ( ( pz2 + px2 ) * Bz + pyz * By );
146 m_xp_jcb( 4, 6 ) = - cx * ( ( px2 + py2 ) * By + pyz * Bz );
147
148 m_xp_jcb( 5, 4 ) = - cx * ( ( py2 + pz2 ) * Bz + pzx * Bx );
149 m_xp_jcb( 5, 5 ) += - cx * ( pyz * Bx - pxy * Bz );
150 m_xp_jcb( 5, 6 ) = cx * ( ( px2 + py2 ) * Bx + pzx * Bz );
151
152 m_xp_jcb( 6, 4 ) = cx * ( ( py2 + pz2 ) * By + pxy * Bx );
153 m_xp_jcb( 6, 5 ) = - cx * ( ( pz2 + px2 ) * Bx + pxy * By );
154 m_xp_jcb( 6, 6 ) += - cx * ( pzx * By - pyz * Bx );
155 }
156
157
158
160
161
162
163 if( ms_on ){
164 double beta_p_inv( ( m_mass2 +
p2 ) / (
p2 *
p2 ) );
165 double th2( 100000.0 * ms_coeff * ms_coeff * beta_p_inv * dx );
166
167 double m11( th2 * dx * dx /3.0);
168 double m12( 0.5 * th2 * dx * p_abs );
169 double m22( th2 *
p2 );
170
171 if( p_abs > Eps ){
172 double c1( px*p_inv );
173 double c2( py*p_inv );
174 double c3( pz*p_inv );
175 double c12( - c1*c2 );
176 double c13( - c1*c3 );
177 double c23( - c2*c3 );
178 double s1s( 1 - c1*c1 );
179 double s2s( 1 - c2*c2 );
180 double s3s( 1 - c3*c3 );
181
182 m_err.fast( 1, 1 ) += m11*s1s;
183
184 m_err.fast( 2, 1 ) += m11*c12;
185 m_err.fast( 2, 2 ) += m11*s2s;
186
187 m_err.fast( 3, 1 ) += m11*c13;
188 m_err.fast( 3, 2 ) += m11*c23;
189 m_err.fast( 3, 3 ) += m11*s3s;
190
191 m_err.fast( 4, 1 ) += m12*s1s;
192 m_err.fast( 4, 2 ) += m12*c12;
193 m_err.fast( 4, 3 ) += m12*c13;
194 m_err.fast( 4, 4 ) += m22*s1s;
195
196 m_err.fast( 5, 1 ) += m12*c12;
197 m_err.fast( 5, 2 ) += m12*s2s;
198 m_err.fast( 5, 3 ) += m12*c23;
199 m_err.fast( 5, 4 ) += m22*c12;
200 m_err.fast( 5, 5 ) += m22*s2s;
201
202 m_err.fast( 6, 1 ) += m12*c13;
203 m_err.fast( 6, 2 ) += m12*c23;
204 m_err.fast( 6, 3 ) += m12*s3s;
205 m_err.fast( 6, 4 ) += m22*c13;
206 m_err.fast( 6, 5 ) += m22*c23;
207 m_err.fast( 6, 6 ) += m22*s3s;
208 }
209
210 }
211
212
213 m_xv = xv1;
214 m_pv = pv1;
215 return 1;
216}
***************************************************************************************Pseudo Class RRes *****************************************************************************************Parameters and physical constants **Maarten sept ************************************************************************DOUBLE PRECISION xsmu **************************************************************************PARTICLE DATA all others are from PDG *Only resonances with known widths into electron pairs are sept ************************************************************************C Declarations C