Author: bugman Date: Mon Oct 7 20:59:20 2013 New Revision: 21011 URL: http://svn.gna.org/viewcvs/relax?rev=21011&view=rev Log: Fix for some inline references in the dispersion chapter of the user 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=21011&r1=21010&r2=21011&view=diff ============================================================================== --- branches/relax_disp/docs/latex/dispersion.tex (original) +++ branches/relax_disp/docs/latex/dispersion.tex Mon Oct 7 20:59:20 2013 @@ -422,7 +422,7 @@ \label{sect: dispersion: IT99 model} \index{relaxation dispersion!IT99 model|textbf} -This is the model for 2-site exchange on all times scales (with the constraint that $\pA \gg \pB$), named after Ishima and Torchia 1999. It is selected by setting the model to `IT99'. The equation is: +This is the model for 2-site exchange on all times scales (with the constraint that $\pA \gg \pB$), named after \citet{IshimaTorchia99}. It is selected by setting the model to `IT99'. The equation is: \begin{align} \Rex &\simeq \frac{\Phiex\tex}{1 + \omega_a^2\tex^2} , \\ \omega_a^2 &= \sqrt{\omega_\textrm{1eff}^4 + \pA^2\dw^4} , \\ @@ -455,7 +455,7 @@ -This is the model for 2-site very-slow exchange model for time scales within range of microsecond to second time scale, where $\pA \gg \pB$, and named after Tollinger \textit{et al.}. It is selected by setting the model to `TSMFK01'. A particularly interesting feature of the dispersion curves is the damped oscillations, which occur at low CPMG field strengths, and is solely a function of the chemical shift difference between the two sites (i.e., independent of the rate of exchange). +This is the model for 2-site very-slow exchange model for time scales within range of microsecond to second time scale, where $\pA \gg \pB$, and named after \citet{Tollinger01}. It is selected by setting the model to `TSMFK01'. A particularly interesting feature of the dispersion curves is the damped oscillations, which occur at low CPMG field strengths, and is solely a function of the chemical shift difference between the two sites (i.e., independent of the rate of exchange). The equation is: \begin{align}