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authorBlaise Thompson <blaise@untzag.com>2018-03-24 16:45:13 -0500
committerBlaise Thompson <blaise@untzag.com>2018-03-24 16:45:13 -0500
commit46eb6bad8700abdfef52fd83445607228016b10b (patch)
tree824753b489dc24aeb09444a89d08d82fec43de3f /spectroscopy
parent7d602505a8b84d6c3743dd3cc0c9ac0a421f07b2 (diff)
2018-03-24 16:45
Diffstat (limited to 'spectroscopy')
-rw-r--r--spectroscopy/chapter.tex4
1 files changed, 2 insertions, 2 deletions
diff --git a/spectroscopy/chapter.tex b/spectroscopy/chapter.tex
index a301117..fe10f60 100644
--- a/spectroscopy/chapter.tex
+++ b/spectroscopy/chapter.tex
@@ -176,11 +176,11 @@ Transient absorbance (TA) spectroscopy is a self-heterodyned technique. %
Through chopping you can measure nonlinearities quantitatively much easier than with homodyne
detected (or explicitly heterodyned) experiments.
-\begin{dfigure}
+\begin{figure}
\includegraphics[width=\textwidth]{"spectroscopy/TA setup"}
\label{fig:ta_and_tr_setup}
\caption{CAPTION TODO}
-\end{dfigure}
+\end{figure}
\autoref{fig:ta_and_tr_setup} diagrams the TA measurement for a generic sample. %
Here I show measurement of both the reflected and transmitted probe beam \dots not important in