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Line 271:
Line 271: − a^J_{LS}(m_X) = a^J_{LS} BW_L(m_X;m^0_X,\Gamma^0_X)+ − b^1_{L1}(m_{b1}) = b^1_{L1} BW_L(m_{b1};m^0_{b1},\Gamma^0_{b1})+ − c^1_{LJ}(m_{\omega}) = c^1_{LJ} BW_L(m_\omega;m^0_\omega,\Gamma^0_\omega)+ − f^L_{L0}(m_{\omega}) = f^L_{L0} BW_L(m_\rho;0,\infty)+
Amplitudes for the Exotic b1π Decay (view source)
Revision as of 17:33, 19 August 2011
, 17:33, 19 August 2011→Mass dependence
Expressions for the angular dependence of the matrix elements of <math>U_X</math>, <math> U_{b1}</math>, <math> U_\omega</math>, and <math> U_\rho</math> have already been written down above, in terms of the unknown mass-dependent factors ''a'', ''b'', ''c'', and ''f''. The mass dependence of the ''a'' factor can be written in terms of a standard relativistic Breit-Wigner resonance lineshape as follows, although often its mass dependence is determined empirically by binning in the mass of ''X'', and fitting each bin independently. In a global mass-dependent fit, the central mass and width of ''X'' are free parameters in the fit. The remaining factors ''b'', ''c'', and ''f'' are assigned standard resonance forms, with their central mass, width and partial wave matrix elements fixed to agree with the established values for these resonances.
Expressions for the angular dependence of the matrix elements of <math>U_X</math>, <math> U_{b1}</math>, <math> U_\omega</math>, and <math> U_\rho</math> have already been written down above, in terms of the unknown mass-dependent factors ''a'', ''b'', ''c'', and ''f''. The mass dependence of the ''a'' factor can be written in terms of a standard relativistic Breit-Wigner resonance lineshape as follows, although often its mass dependence is determined empirically by binning in the mass of ''X'', and fitting each bin independently. In a global mass-dependent fit, the central mass and width of ''X'' are free parameters in the fit. The remaining factors ''b'', ''c'', and ''f'' are assigned standard resonance forms, with their central mass, width and partial wave matrix elements fixed to agree with the established values for these resonances.
:<math>
:<math>
u^{X:J}_{LS}(m_X) = u^{X:J}_{LS} BW_L(m_X;m^0_X,\Gamma^0_X)
</math>
</math>
:<math>
:<math>
u^{b_1:1}_{L1}(m_{b1}) = u^{b_1:1}_{L1} BW_L(m_{b1};m^0_{b1},\Gamma^0_{b1})
</math>
</math>
:<math>
:<math>
u^{\omega:1}_{LJ}(m_{\omega}) = u^{\omega:1}_{LJ} BW_L(m_\omega;m^0_\omega,\Gamma^0_\omega)
</math>
</math>
:<math>
:<math>
u^{\rho:L}_{L0}(m_{\omega}) = u^{\rho L}_{L0} BW_L(m_\rho;0,\infty)
</math>
</math>