Author: bugman Date: Wed Jul 17 14:41:08 2013 New Revision: 20357 URL: http://svn.gna.org/viewcvs/relax?rev=20357&view=rev Log: Updated the 'NS 2-site 3D' and 'NS 2-site 3D red' models in the dispersion chapter of the relax manual. The models are now included in the tables and in the introduction. 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=20357&r1=20356&r2=20357&view=diff ============================================================================== --- branches/relax_disp/docs/latex/dispersion.tex (original) +++ branches/relax_disp/docs/latex/dispersion.tex Wed Jul 17 14:41:08 2013 @@ -103,6 +103,8 @@ \begin{description} \item[`R2eff':]\index{relaxation dispersion!R2eff model} This is the model used to determine the $\Rtwoeff$ values and errors required as the base data for all other models. See Section~\ref{sect: dispersion: R2eff model} on page~\pageref{sect: dispersion: R2eff model}. \item[`No Rex':]\index{relaxation dispersion!No Rex model} This is the model for no chemical exchange being present. See Section~\ref{sect: dispersion: No Rex model} on page~\pageref{sect: dispersion: No Rex model}. +\item[`NS 2-site 3D red':]\index{relaxation dispersion!NS 2-site 3D red model} A model for 2-site exchange using 3D magnetisation vectors whereby the simplification $\RtwozeroA = \RtwozeroB$ is assumed. It has the parameters $\{\Rtwozero, \dots, \pA, \dw, \kex\}$. See Section~\ref{sect: dispersion: NS 2-site 3D red model} on page~\pageref{sect: dispersion: NS 2-site 3D red model}. +\item[`NS 2-site 3D':]\index{relaxation dispersion!NS 2-site 3D model} A model for 2-site exchange using 3D magnetisation vectors with parameters $\{\RtwozeroA, \RtwozeroB, \dots, \pA, \dw, \kex\}$. See Section~\ref{sect: dispersion: NS 2-site 3D model} on page~\pageref{sect: dispersion: NS 2-site 3D model}. \item[`NS 2-site star red':]\index{relaxation dispersion!NS 2-site star red model} A model for 2-site exchange using complex conjugate matrices whereby the simplification $\RtwozeroA = \RtwozeroB$ is assumed. It has the parameters $\{\Rtwozero, \dots, \pA, \dw, \kex\}$. See Section~\ref{sect: dispersion: NS 2-site star red model} on page~\pageref{sect: dispersion: NS 2-site star red model}. \item[`NS 2-site star':]\index{relaxation dispersion!NS 2-site star model} A model for 2-site exchange using complex conjugate matrices with parameters $\{\RtwozeroA, \RtwozeroB, \dots, \pA, \dw, \kex\}$. See Section~\ref{sect: dispersion: NS 2-site star model} on page~\pageref{sect: dispersion: NS 2-site star model}. \end{description} @@ -165,15 +167,17 @@ \caption{The analytic and numerical models for CPMG-type experiments currently supported within relax} \begin{tabular}{lllcll} \toprule -Model code & Type & Sites & Parameters & Restriction & Reference \\ +Model code & Solution & Sites & Parameters & Restriction & Reference \\ \midrule R2eff & - & - & $\{\Rtwoeff, \cdots\}$ & Fixed relaxation time period & - \\ R2eff & - & - & $\{\Rtwoeff, I_0, \cdots\}$ & Variable relaxation time period & - \\ -No Rex & - & 0 & $\{\Rtwozero, \cdots\}$ & - & - \\ +No Rex & Closed & 0 & $\{\Rtwozero, \cdots\}$ & - & - \\ LM63 & Analytic & 2 & $\{\Rtwozero, \dots, \Phiex, \kex\}$ & Fast exchange & \citet{LuzMeiboom63} \\ CR72 red & Analytic & 2 & $\{\Rtwozero, \dots, \pA, \dw, \kex\}$ & $\pA > \pB$ & \citet{CarverRichards72} \\ CR72 & Analytic & 2 & $\{\RtwozeroA, \RtwozeroB, \dots, \pA, \dw, \kex\}$ & $\pA > \pB$ & \citet{CarverRichards72} \\ IT99 & Analytic & 2 & $\{\Rtwozero, \dots, \Phiex, \pA.\dw^2, \kex\}$ & $\pA \gg \pB$ & \citet{IshimaTorchia99} \\ +NS 2-site 3D red & Numeric & 2 & $\{\Rtwozero, \dots, \pA, \dw, \kex\}$ & $\pA > \pB$ & - \\ +NS 2-site 3D & Numeric & 2 & $\{\RtwozeroA, \RtwozeroB, \dots, \pA, \dw, \kex\}$ & $\pA > \pB$ & - \\ NS 2-site star red & Numeric & 2 & $\{\Rtwozero, \dots, \pA, \dw, \kex\}$ & $\pA > \pB$ & - \\ NS 2-site star & Numeric & 2 & $\{\RtwozeroA, \RtwozeroB, \dots, \pA, \dw, \kex\}$ & $\pA > \pB$ & - \\ \bottomrule @@ -188,11 +192,11 @@ \caption{The analytic and numerical models for $\Ronerho$-type experiments currently supported within relax.} \begin{tabular}{lllcll} \toprule -Model code & Type & Sites & Parameters & Restriction & Reference \\ +Model code & Solution & Sites & Parameters & Restriction & Reference \\ \midrule R2eff & - & - & $\{\Ronerho, \cdots\}$ & Fixed relaxation time period & - \\ R2eff & - & - & $\{\Ronerho, I_0, \cdots\}$ & Variable relaxation time period & - \\ -No Rex & - & 0 & $\{\Ronerhoprime, \cdots\}$ & - & - \\ +No Rex & Closed & 0 & $\{\Ronerhoprime, \cdots\}$ & - & - \\ M61 & Analytic & 2 & $\{\Ronerhoprime, \dots, \Phiex, \kex\}$ & Fast exchange, on-resonance & \citet{Meiboom61} \\ DPL94 & Analytic & 2 & $\{\Ronerhoprime, \dots, \Phiex, \kex\}$ & Fast exchange & \citet{Davis94} \\ M61 skew & Analytic & 2 & $\{\Ronerhoprime, \dots, \pA, \dw, \kex\}$ & $\pA \gg \pB$, on-resonance & \citet{Meiboom61} \\