pg_utils.pg_model.forcing.force_explicit_lin_cg

pg_utils.pg_model.forcing.force_explicit_lin_cg = {\overline{L_s}(s, \phi, t): s*B_+^{0+}(s, \phi, t)*b_+^+(s, \phi, t)/H(s) + s*B_+^{0+}(s, \phi, t)*b_-^+(s, \phi, t)/H(s) + s*B_+^{0-}(s, \phi, t)*b_+^-(s, \phi, t)/H(s) + s*B_+^{0-}(s, \phi, t)*b_-^-(s, \phi, t)/H(s) + s*B_-^{0+}(s, \phi, t)*b_+^+(s, \phi, t)/H(s) + s*B_-^{0+}(s, \phi, t)*b_-^+(s, \phi, t)/H(s) + s*B_-^{0-}(s, \phi, t)*b_+^-(s, \phi, t)/H(s) + s*B_-^{0-}(s, \phi, t)*b_-^-(s, \phi, t)/H(s) + sqrt(2)*B_+^{0+}(s, \phi, t)*b_z^+(s, \phi, t)/2 - sqrt(2)*B_+^{0-}(s, \phi, t)*b_z^-(s, \phi, t)/2 + sqrt(2)*B_-^{0+}(s, \phi, t)*b_z^+(s, \phi, t)/2 - sqrt(2)*B_-^{0-}(s, \phi, t)*b_z^-(s, \phi, t)/2 + sqrt(2)*B_z^+(s, \phi, t)*b_+^+(s, \phi, t)/2 + sqrt(2)*B_z^+(s, \phi, t)*b_-^+(s, \phi, t)/2 - sqrt(2)*B_z^-(s, \phi, t)*b_+^-(s, \phi, t)/2 - sqrt(2)*B_z^-(s, \phi, t)*b_-^-(s, \phi, t)/2 + Derivative(\overline{m_+}(s, \phi, t), s)/2 + Derivative(\overline{m_-}(s, \phi, t), s)/2 + Derivative(\overline{m_1}(s, \phi, t), s) + \overline{m_+}(s, \phi, t)/s + \overline{m_-}(s, \phi, t)/s - I*Derivative(\overline{m_+}(s, \phi, t), \phi)/(2*s) + I*Derivative(\overline{m_-}(s, \phi, t), \phi)/(2*s), \overline{L_\phi}(s, \phi, t): -I*s*B_+^{0+}(s, \phi, t)*b_+^+(s, \phi, t)/H(s) - I*s*B_+^{0-}(s, \phi, t)*b_+^-(s, \phi, t)/H(s) + I*s*B_-^{0+}(s, \phi, t)*b_-^+(s, \phi, t)/H(s) + I*s*B_-^{0-}(s, \phi, t)*b_-^-(s, \phi, t)/H(s) - sqrt(2)*I*B_+^{0+}(s, \phi, t)*b_z^+(s, \phi, t)/2 + sqrt(2)*I*B_+^{0-}(s, \phi, t)*b_z^-(s, \phi, t)/2 + sqrt(2)*I*B_-^{0+}(s, \phi, t)*b_z^+(s, \phi, t)/2 - sqrt(2)*I*B_-^{0-}(s, \phi, t)*b_z^-(s, \phi, t)/2 - sqrt(2)*I*B_z^+(s, \phi, t)*b_+^+(s, \phi, t)/2 + sqrt(2)*I*B_z^+(s, \phi, t)*b_-^+(s, \phi, t)/2 + sqrt(2)*I*B_z^-(s, \phi, t)*b_+^-(s, \phi, t)/2 - sqrt(2)*I*B_z^-(s, \phi, t)*b_-^-(s, \phi, t)/2 - I*Derivative(\overline{m_+}(s, \phi, t), s)/2 + I*Derivative(\overline{m_-}(s, \phi, t), s)/2 - I*\overline{m_+}(s, \phi, t)/s + I*\overline{m_-}(s, \phi, t)/s - Derivative(\overline{m_+}(s, \phi, t), \phi)/(2*s) - Derivative(\overline{m_-}(s, \phi, t), \phi)/(2*s) + Derivative(\overline{m_1}(s, \phi, t), \phi)/s, \widetilde{L_z}(s, \phi, t): sqrt(2)*s*B_+^{0+}(s, \phi, t)*b_z^+(s, \phi, t)/(2*H(s)) - sqrt(2)*s*B_+^{0-}(s, \phi, t)*b_z^-(s, \phi, t)/(2*H(s)) + sqrt(2)*s*B_-^{0+}(s, \phi, t)*b_z^+(s, \phi, t)/(2*H(s)) - sqrt(2)*s*B_-^{0-}(s, \phi, t)*b_z^-(s, \phi, t)/(2*H(s)) + sqrt(2)*s*B_z^+(s, \phi, t)*b_+^+(s, \phi, t)/(2*H(s)) + sqrt(2)*s*B_z^+(s, \phi, t)*b_-^+(s, \phi, t)/(2*H(s)) - sqrt(2)*s*B_z^-(s, \phi, t)*b_+^-(s, \phi, t)/(2*H(s)) - sqrt(2)*s*B_z^-(s, \phi, t)*b_-^-(s, \phi, t)/(2*H(s)) + 2*B_z^+(s, \phi, t)*b_z^+(s, \phi, t) + 2*B_z^-(s, \phi, t)*b_z^-(s, \phi, t) - 4*B_{z}^e(s, \phi, t)*b_{z}^e(s, \phi, t) + sqrt(2)*Derivative(\widetilde{m_{z+}}(s, \phi, t), s)/2 + sqrt(2)*Derivative(\widetilde{m_{z-}}(s, \phi, t), s)/2 + sqrt(2)*\widetilde{m_{z+}}(s, \phi, t)/(2*s) + sqrt(2)*\widetilde{m_{z-}}(s, \phi, t)/(2*s) - sqrt(2)*I*Derivative(\widetilde{m_{z+}}(s, \phi, t), \phi)/(2*s) + sqrt(2)*I*Derivative(\widetilde{m_{z-}}(s, \phi, t), \phi)/(2*s), L_{\phi}^e(s, \phi, t): -sqrt(2)*I*B_{+, z}^{0e}(s, \phi, t)*b_{z}^e(s, \phi, t)/2 - I*B_{+}^{0e}(s, \phi, t)*Derivative(b_{+}^e(s, \phi, t), s)/2 + I*B_{+}^{0e}(s, \phi, t)*Derivative(b_{-}^e(s, \phi, t), s)/2 + sqrt(2)*I*B_{-, z}^{0e}(s, \phi, t)*b_{z}^e(s, \phi, t)/2 - I*B_{-}^{0e}(s, \phi, t)*Derivative(b_{+}^e(s, \phi, t), s)/2 + I*B_{-}^{0e}(s, \phi, t)*Derivative(b_{-}^e(s, \phi, t), s)/2 - sqrt(2)*I*B_{z}^e(s, \phi, t)*b_{+, z}^e(s, \phi, t)/2 + sqrt(2)*I*B_{z}^e(s, \phi, t)*b_{-, z}^e(s, \phi, t)/2 - I*b_{+}^e(s, \phi, t)*Derivative(B_{+}^{0e}(s, \phi, t), s)/2 + I*b_{+}^e(s, \phi, t)*Derivative(B_{-}^{0e}(s, \phi, t), s)/2 - I*b_{-}^e(s, \phi, t)*Derivative(B_{+}^{0e}(s, \phi, t), s)/2 + I*b_{-}^e(s, \phi, t)*Derivative(B_{-}^{0e}(s, \phi, t), s)/2 - I*B_{+}^{0e}(s, \phi, t)*b_{+}^e(s, \phi, t)/s - B_{+}^{0e}(s, \phi, t)*Derivative(b_{+}^e(s, \phi, t), \phi)/(2*s) + B_{+}^{0e}(s, \phi, t)*Derivative(b_{-}^e(s, \phi, t), \phi)/(2*s) + I*B_{-}^{0e}(s, \phi, t)*b_{-}^e(s, \phi, t)/s + B_{-}^{0e}(s, \phi, t)*Derivative(b_{+}^e(s, \phi, t), \phi)/(2*s) - B_{-}^{0e}(s, \phi, t)*Derivative(b_{-}^e(s, \phi, t), \phi)/(2*s) - b_{+}^e(s, \phi, t)*Derivative(B_{+}^{0e}(s, \phi, t), \phi)/(2*s) + b_{+}^e(s, \phi, t)*Derivative(B_{-}^{0e}(s, \phi, t), \phi)/(2*s) + b_{-}^e(s, \phi, t)*Derivative(B_{+}^{0e}(s, \phi, t), \phi)/(2*s) - b_{-}^e(s, \phi, t)*Derivative(B_{-}^{0e}(s, \phi, t), \phi)/(2*s)}[source]

Mapping: placeholder symbols -> linearized explicit exprs for conjugate vars