Author: tlinnet Date: Wed Mar 12 13:04:56 2014 New Revision: 22463 URL: http://svn.gna.org/viewcvs/relax?rev=22463&view=rev Log: Added grace string to parameter description of theta and w_eff. Regarding sr #3124, (https://gna.org/support/index.php?3124) - Grace graphs production for R1rho analysis with R2_eff as function of Omega_eff. Modified: trunk/specific_analyses/relax_disp/api.py Modified: trunk/specific_analyses/relax_disp/api.py URL: http://svn.gna.org/viewcvs/relax/trunk/specific_analyses/relax_disp/api.py?rev=22463&r1=22462&r2=22463&view=diff ============================================================================== --- trunk/specific_analyses/relax_disp/api.py (original) +++ trunk/specific_analyses/relax_disp/api.py Wed Mar 12 13:04:56 2014 @@ -107,8 +107,8 @@ self.PARAMS.add('kB', scope='spin', default=10000.0, desc='Approximate chemical exchange rate constant between sites A and B (rad.s^-1)', set='params', py_type=float, grace_string='\\qk\\sB\\N\\Q (rad.s\\S-1\\N)', err=True, sim=True) self.PARAMS.add('kC', scope='spin', default=10000.0, desc='Approximate chemical exchange rate constant between sites A and C (rad.s^-1)', set='params', py_type=float, grace_string='\\qk\\sC\\N\\Q (rad.s\\S-1\\N)', err=True, sim=True) self.PARAMS.add('tex', scope='spin', default=1.0/10000.0, desc='The time of exchange (tex = 1/kex)', set='params', py_type=float, grace_string='\\q\\xt\\B\\sex\\N\\Q (s.rad\\S-1\\N)', err=True, sim=True) - self.PARAMS.add('theta', scope='spin', desc='Rotating frame tilt angle : ( theta = arctan(w_1 / Omega) ) (rad)', set='params', py_type=dict, err=False, sim=False) - self.PARAMS.add('w_eff', scope='spin', desc='Effective field in rotating frame : ( w_eff = sqrt(Omega^2 + w_1^2) ) (rad.s^-1)', set='params', py_type=dict, err=False, sim=False) + self.PARAMS.add('theta', scope='spin', desc='Rotating frame tilt angle : ( theta = arctan(w_1 / Omega) ) (rad)', set='params', grace_string='Rotating frame tilt angle (rad)', py_type=dict, err=False, sim=False) + self.PARAMS.add('w_eff', scope='spin', desc='Effective field in rotating frame : ( w_eff = sqrt(Omega^2 + w_1^2) ) (rad.s^-1)', grace_string='Effective field in rotating frame (rad.s\\S-1\\N)', set='params', py_type=dict, err=False, sim=False) self.PARAMS.add('k_AB', scope='spin', default=10000.0, desc='The exchange rate from state A to state B', set='params', py_type=float, grace_string='\\qk\\sAB\\N\\Q (rad.s\\S-1\\N)', err=True, sim=True) self.PARAMS.add('k_BA', scope='spin', default=10000.0, desc='The exchange rate from state B to state A', set='params', py_type=float, grace_string='\\qk\\sBA\\N\\Q (rad.s\\S-1\\N)', err=True, sim=True) self.PARAMS.add('params', scope='spin', desc='The model parameters', py_type=list)