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authorBlaise Thompson <blaise@untzag.com>2017-11-27 22:33:32 -0600
committerBlaise Thompson <blaise@untzag.com>2017-11-27 22:33:32 -0600
commit676aee888e5dc94ba1cc05de869845f4c280c665 (patch)
tree5d5e520b061be0e3cdfb1b8eb185b94402ea6297
parentb4d2785e395ee915043b1c7b74d4a16c65f9cef8 (diff)
errata
-rw-r--r--bibliography.bib16
-rw-r--r--dissertation.pdfbin9671672 -> 9674665 bytes
-rw-r--r--dissertation.tex3
-rw-r--r--errata/chapter.tex25
-rw-r--r--instrument/chapter.tex14
5 files changed, 55 insertions, 3 deletions
diff --git a/bibliography.bib b/bibliography.bib
index 0398c14..88fede4 100644
--- a/bibliography.bib
+++ b/bibliography.bib
@@ -33,6 +33,22 @@
doi = {10.1021/jp003774a},
}
+@article{CzechKyleJonathan2015a,
+ author = {Kyle J. Czech and Blaise J. Thompson and Schuyler Kain and Qi
+ Ding and Melinda J. Shearer and Robert J. Hamers and Song Jin
+ and John C. Wright},
+ title = {Measurement of Ultrafast Excitonic Dynamics of Few-Layer
+ {MoS}2Using State-Selective Coherent Multidimensional
+ Spectroscopy},
+ journal = {{ACS} Nano},
+ volume = 9,
+ number = 12,
+ pages = {12146--12157},
+ year = 2015,
+ doi = {10.1021/acsnano.5b05198},
+ month = {dec},
+}
+
@article{FurutaKoichi2012.000,
author = {Furuta, Koichi and Fuyuki, Masanori and Wada, Akihide},
title = {Cross-Term Selective, Two-Pulse Correlation Measurements by Phase-Shifted Parallel Modulation for Analysis of a Multi-Photon Process},
diff --git a/dissertation.pdf b/dissertation.pdf
index 56f5572..d912182 100644
--- a/dissertation.pdf
+++ b/dissertation.pdf
Binary files differ
diff --git a/dissertation.tex b/dissertation.tex
index 52f040a..81f408d 100644
--- a/dissertation.tex
+++ b/dissertation.tex
@@ -203,6 +203,7 @@ This dissertation is approved by the following members of the Final Oral Committ
\include{public/chapter}
\include{procedures/chapter}
\include{hardware/chapter}
+\include{errata/chapter}
\include{colophon/chapter}
\end{appendix}
@@ -215,4 +216,4 @@ This dissertation is approved by the following members of the Final Oral Committ
\printglossaries
\printbibliography
-\end{document}
+\end{document} \ No newline at end of file
diff --git a/errata/chapter.tex b/errata/chapter.tex
new file mode 100644
index 0000000..159c713
--- /dev/null
+++ b/errata/chapter.tex
@@ -0,0 +1,25 @@
+\chapter{Errata}
+
+In this appendix I list the errors I am currently aware of in my publications and associated
+work. %
+
+\section{Czech 2015} % ---------------------------------------------------------------------------
+
+The following is an errata for \textcite{CzechKyleJonathan2015a}, published in November 2015.
+
+\begin{itemize}
+ \item Reference 13 is identical to reference 9.
+ \item In the last paragraph of the introduction the sentence ``The experimental spectra differ
+ from the simple 2D spectrum shown in Figure 1d and those of earlier CMDS experiments with model
+ systems'' appears. This sentence cites references 6 through 10. Instead, it should cite
+ references 15 through 20.
+ \item In the last paragraph begining on page 12148, the text ``Automated delay stages and neutral
+ density filters set the excitation time delays over all values of $\tau_{21}$ with
+ $\tau_{22}=0$'' appears. For the second $\tau$, the subscript should read $22^\prime$, not
+ $22$.
+ \item Caption of Figure 5 reads, in part: "showing the impact of the $\omega_1$ excitation
+ frequency on the $\omega_1$ spectral line shape". This should instead read "showing the impact
+ of the $\omega_1$ excitation frequency on the $\omega_2$ spectral line shape". The subscript on
+ the last $\omega$ should be a 2 and not a 1.
+ \item Figure 6 e$^\prime$+e,e$^\prime$ should read e$^\prime$+e,e and vice versa.
+\end{itemize} \ No newline at end of file
diff --git a/instrument/chapter.tex b/instrument/chapter.tex
index ffb8eb5..179a629 100644
--- a/instrument/chapter.tex
+++ b/instrument/chapter.tex
@@ -196,6 +196,18 @@ This is a well known strategy for removing unwanted interference terms \cite{Spe
\subsection{Normalization of dual-chopped self-heterodyned signal}
+%\begin{table}[!htb]
+% \centering
+% \renewcommand{\arraystretch}{1.5}
+%\begin{array}{r | c | c | c | c }
+% & A & B & C & D \\ \hline
+% \text{signal} & S_A=V_A^S & S_B=R^SC^1I_B^S & S_C=R^S(C^1) & S_D=R^SC^2I_D^S \\ \hline
+% \text{source 1} & M_A^1=V_A^1 & M_B=R^1I_B^1 & M_C^1=R^1I_C^1 & M_D^1=V_D^1 \\ \hline
+% \text{source 2} & M_A^2=V_A^2 & M_B^2=V_B^2 & M_C^2=R^2I_C^2 & M_D^2=R^2I_D^2
+%\end{array}
+% \caption{CAPTION}
+%\end{table}
+
Shot-by-shot normalization is not trivial for these experiments. %
As in table above, with 1 as pump and 2 as probe. %
@@ -236,5 +248,3 @@ Now, substituting in BRAZARD formalism:
\section{Optomechanics} % ------------------------------------------------------------------------
\subsection{Automated Neutral Density Wheels}
-
-