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__package__ = Nonehash(x) |
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Spectral density parameter / spectral density parameter Hessian. The equations are:
d2R1()
--------- = dip_const_func . dip_Jw_R1_hess + csa_const_func . csa_Jw_R1_hess
dJwi.dJwj
d2R2() dip_const_func csa_const_func
--------- = -------------- . dip_Jw_R2_hess + -------------- . csa_Jw_R2_hess
dJwi.dJwj 2 6
d2sigma_noe()
------------- = dip_const_func . dip_Jw_sigma_noe_hess
dJwi.dJwj
d2Ri()
--------- = dip_comps_func . dip_jw_comps_hess + csa_comps_func . csa_jw_comps_hess
dJwi.dJwj
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Spectral density parameter / CSA Hessian. The equations are:
d2R1()
-------- = csa_const_grad . csa_Jw_R1_grad
dJw.dcsa
d2R2() csa_const_grad
-------- = -------------- . csa_Jw_R2_grad
dJw.dcsa 6
d2sigma_noe()
------------- = 0
dJw.dcsa
d2Ri()
-------- = csa_comps_grad . csa_jw_comps_grad
dJw.dcsa
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Spectral density parameter / bond length Hessian. The equations are:
d2R1()
------ = dip_const_grad . dip_Jw_R1_grad
dJw.dr
d2R2() dip_const_grad
------ = -------------- . dip_Jw_R2_grad
dJw.dr 2
d2sigma_noe()
------------- = dip_const_grad . dip_Jw_sigma_noe_grad
dJw.dr
d2Ri()
------ = dip_comps_grad . dip_jw_comps_grad
dJw.dr
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CSA / CSA Hessian. The equations are:
d2R1()
------- = csa_const_hess . csa_Jw_R1_func
dcsa**2
d2R2() csa_const_hess
------- = -------------- . csa_Jw_R2_func
dcsa**2 6
d2sigma_noe()
------------- = 0
dcsa**2
d2Ri()
------- = csa_comps_hess . csa_jw_comps_func
dcsa**2
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Bond length / bond length Hessian. The equations are:
d2R1()
------ = dip_const_hess . dip_Jw_R1_func
dr**2
d2R2() dip_const_hess
------ = -------------- . dip_Jw_R2_func
dr**2 2
d2sigma_noe()
------------- = dip_const_hess . dip_Jw_sigma_noe_func
dr**2
d2Ri()
------ = dip_comps_hess . dip_jw_comps_func
dr**2
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