Author: bugman
Date: Wed Oct 7 15:41:58 2015
New Revision: 28015
URL: http://svn.gna.org/viewcvs/relax?rev=28015&view=rev
Log:
Changes to the introduction of the frame order theory chapter of the manual.
Modified:
trunk/docs/latex/frame_order/introduction.tex
Modified: trunk/docs/latex/frame_order/introduction.tex
URL:
http://svn.gna.org/viewcvs/relax/trunk/docs/latex/frame_order/introduction.tex?rev=28015&r1=28014&r2=28015&view=diff
==============================================================================
--- trunk/docs/latex/frame_order/introduction.tex (original)
+++ trunk/docs/latex/frame_order/introduction.tex Wed Oct 7 15:41:58 2015
@@ -10,9 +10,10 @@
\subsection{Tensors of frame ordering}
-The frame order theory is a new analysis type designed for studying the rigid
body motions of molecules.
-It provides a bridge between statistical mechanical molecular dynamics (MD)
models and all rotational molecular physics techniques, by defining a series of
rank-$2n$ frame order tensors.
-These tensors define the maximum information content of a rotational molecular
physics experiment, as well as what type of information is contained in the
data.
+The frame order theory is defined as a bridging physics theory for rigid body
motions based on the statistical mechanical ordering of reference frames.
+It is implemented as a new analysis type in relax designed for the study of
rigid body motions in molecules.
+The theory aims to unify all rotational molecular physics techniques via a
single statistical mechanical molecular dynamics (MD) model, by defining a
series of rank-$2n$ frame order tensors.
+These tensors encapsulate the maximum information content of a rotational
molecular physics experiment, as well as what type of information is contained
in the data.
To use the frame order theory, two steps are required:
\begin{enumerate}
\item The physics of the experiment should be decomposed into statistically
mechanically averaged product of rotation matrix elements.
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