Author: tlinnet Date: Wed May 7 15:55:03 2014 New Revision: 23056 URL: http://svn.gna.org/viewcvs/relax?rev=23056&view=rev Log: Made expression according to appendix 1 in manual. sr #3154: (https://gna.org/support/?3154) Implementation of Baldwin (2014) B14 model - 2-site exact solution model for all time scales. This follows the tutorial for adding relaxation dispersion models at: http://wiki.nmr-relax.com/Tutorial_for_adding_relaxation_dispersion_models_to_relax#The_relax_manual Modified: trunk/docs/latex/dispersion.tex Modified: trunk/docs/latex/dispersion.tex URL: http://svn.gna.org/viewcvs/relax/trunk/docs/latex/dispersion.tex?rev=23056&r1=23055&r2=23056&view=diff ============================================================================== --- trunk/docs/latex/dispersion.tex (original) +++ trunk/docs/latex/dispersion.tex Wed May 7 15:55:03 2014 @@ -628,8 +628,8 @@ \nu_{5} & =(-\Delta \Rtwozero + \kex + \dw i) \nu_{1s} + 2 (\nu_{4} + \kAB F_1^{a+b}) \sinh(E_1) \\ y & = \left( \frac{\nu_{1c} - \nu_{3}}{\nu_{1c} + \nu_{3}} \right) ^ {N_{\textrm{CYC}}} \\ T & = \frac{1}{2}(1 + y) + \frac{(1 - y)\nu_{5}}{2 \nu_{3}N} \\ - \Rtwoeff & = \frac{(\RtwozeroA + \RtwozeroB + \kex)}{2} \nonumber \\ - & \qquad - \frac{1}{\taucpmg} \left( N_{\textrm{CYC}} \cdot \textrm{arcosh}(\operatorname{Re}(\nu_{1c})) + \log(\operatorname{Re}(T)) \right) + \Rtwoeff{}_{\_ \textrm{CR72}} & = \frac{(\RtwozeroA + \RtwozeroB + \kex)}{2} - \frac{N_{\textrm{CYC}}}{\taucpmg} \, \textrm{arcosh}(\, \operatorname{Re}(\nu_{1c}) \, ) \\ + \Rtwoeff{} & = \Rtwoeff{}_{\_ \textrm{CR72}} - \frac{1}{\taucpmg} \log(\operatorname{Re}(T)) \\ \end{align} \end{subequations}