Author: bugman Date: Wed Jul 31 16:56:38 2013 New Revision: 20491 URL: http://svn.gna.org/viewcvs/relax?rev=20491&view=rev Log: Fixes for the TP02 model section of the dispersion chapter of the manual. Modified: branches/relax_disp/docs/latex/dispersion.tex Modified: branches/relax_disp/docs/latex/dispersion.tex URL: http://svn.gna.org/viewcvs/relax/branches/relax_disp/docs/latex/dispersion.tex?rev=20491&r1=20490&r2=20491&view=diff ============================================================================== --- branches/relax_disp/docs/latex/dispersion.tex (original) +++ branches/relax_disp/docs/latex/dispersion.tex Wed Jul 31 16:56:38 2013 @@ -509,13 +509,13 @@ % TP02 model. %~~~~~~~~~~~~ -\subsection{The TP02 2-site fast exchange $\Ronerho$ model} +\subsection{The TP02 2-site exchange $\Ronerho$ model} \label{sect: dispersion: TP02 model} \index{relaxation dispersion!TP02 model|textbf} -This is the model for 2-site fast exchange for off-resonance $\Ronerho$-type experiments from \citet{TrottPalmer02}. It is selected by setting the model to `TP02'. The equation for the exchange process is: -\begin{equation} - \Ronerho = \Rone\cos^2(\theta) + \Ronerhoprime\sin^2(\theta) + \frac{\sin^2(\theta)\pA\pB\dw^2\kex}{\kex^2 + \omgea_{beff}^2} . +This is the model for 2-site exchange for off-resonance $\Ronerho$-type experiments from \citet{TrottPalmer02}. It is selected by setting the model to `TP02'. The equation for the exchange process is: +\begin{equation} + \Ronerho = \Rone\cos^2(\theta) + \Ronerhoprime\sin^2(\theta) + \frac{\pA\pB\dw^2\kex}{\omega_\textrm{Aeff}^2\omega_\textrm{Beff}^2/\omega_\textrm{eff}^2 + \kex^2} \sin^2(\theta). \end{equation}