pg_utils.pg_model.forcing.force_explicit_cg
- pg_utils.pg_model.forcing.force_explicit_cg = {\overline{L_s}(s, \phi, t): s*((B_+^+(s, \phi, t) + B_-^+(s, \phi, t))**2/2 + (B_+^-(s, \phi, t) + B_-^-(s, \phi, t))**2/2)/H(s) + sqrt(2)*(B_+^+(s, \phi, t) + B_-^+(s, \phi, t))*B_z^+(s, \phi, t)/2 - sqrt(2)*(B_+^-(s, \phi, t) + B_-^-(s, \phi, t))*B_z^-(s, \phi, t)/2 - (-\overline{M_+}(s, \phi, t)/2 - \overline{M_-}(s, \phi, t)/2 + \overline{M_1}(s, \phi, t))/s + (s*Derivative(\overline{M_+}(s, \phi, t)/2 + \overline{M_-}(s, \phi, t)/2 + \overline{M_1}(s, \phi, t), s) + \overline{M_+}(s, \phi, t)/2 + \overline{M_-}(s, \phi, t)/2 + \overline{M_1}(s, \phi, t))/s + Derivative(-I*(\overline{M_+}(s, \phi, t)/2 - \overline{M_-}(s, \phi, t)/2), \phi)/s, \overline{L_\phi}(s, \phi, t): s*(-I*(B_+^+(s, \phi, t) - B_-^+(s, \phi, t))*(B_+^+(s, \phi, t) + B_-^+(s, \phi, t))/2 - I*(B_+^-(s, \phi, t) - B_-^-(s, \phi, t))*(B_+^-(s, \phi, t) + B_-^-(s, \phi, t))/2)/H(s) - sqrt(2)*I*(B_+^+(s, \phi, t) - B_-^+(s, \phi, t))*B_z^+(s, \phi, t)/2 + sqrt(2)*I*(B_+^-(s, \phi, t) - B_-^-(s, \phi, t))*B_z^-(s, \phi, t)/2 + (s*Derivative(-I*(\overline{M_+}(s, \phi, t)/2 - \overline{M_-}(s, \phi, t)/2), s) - I*(\overline{M_+}(s, \phi, t)/2 - \overline{M_-}(s, \phi, t)/2))/s - I*(\overline{M_+}(s, \phi, t)/2 - \overline{M_-}(s, \phi, t)/2)/s + Derivative(-\overline{M_+}(s, \phi, t)/2 - \overline{M_-}(s, \phi, t)/2 + \overline{M_1}(s, \phi, t), \phi)/s, \widetilde{L_z}(s, \phi, t): s*(sqrt(2)*(B_+^+(s, \phi, t) + B_-^+(s, \phi, t))*B_z^+(s, \phi, t)/2 - sqrt(2)*(B_+^-(s, \phi, t) + B_-^-(s, \phi, t))*B_z^-(s, \phi, t)/2)/H(s) + B_z^+(s, \phi, t)**2 + B_z^-(s, \phi, t)**2 - 2*B_{z}^e(s, \phi, t)**2 + (s*Derivative(sqrt(2)*(\widetilde{M_{z+}}(s, \phi, t) + \widetilde{M_{z-}}(s, \phi, t))/2, s) + sqrt(2)*(\widetilde{M_{z+}}(s, \phi, t) + \widetilde{M_{z-}}(s, \phi, t))/2)/s + Derivative(-sqrt(2)*I*(\widetilde{M_{z+}}(s, \phi, t) - \widetilde{M_{z-}}(s, \phi, t))/2, \phi)/s, L_{\phi}^e(s, \phi, t): -sqrt(2)*I*(B_{+, z}^e(s, \phi, t) - B_{-, z}^e(s, \phi, t))*B_{z}^e(s, \phi, t)/2 + sqrt(2)*(B_{+}^e(s, \phi, t) + B_{-}^e(s, \phi, t))*Derivative(-sqrt(2)*I*(B_{+}^e(s, \phi, t) - B_{-}^e(s, \phi, t))/2, s)/2 - I*(B_{+}^e(s, \phi, t) - B_{-}^e(s, \phi, t))*(B_{+}^e(s, \phi, t) + B_{-}^e(s, \phi, t))/(2*s) - sqrt(2)*I*(B_{+}^e(s, \phi, t) - B_{-}^e(s, \phi, t))*Derivative(-sqrt(2)*I*(B_{+}^e(s, \phi, t) - B_{-}^e(s, \phi, t))/2, \phi)/(2*s)}[source]
Mapping: placeholder symbols -> explicit exprs for conjugate vars