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*.DS_Store
*/*.pdf
*/*.dvi
*.pdf
*.bbl
*.blg
*.gz
*.mp
*.DS_Store

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DOC=cv
INPUT=$(DOC).tex
TARGET=$(DOC).pdf
TEX=pdflatex
default: $(TARGET)
$(TARGET): $(INPUT) Makefile *.bib
# $(TEX) $< && $(TEX) $<
$(TEX) $<
bibtex jrnl.aux
bibtex thes.aux
bibtex proc.aux
$(TEX) $<
$(TEX) $<
$(TEX) soi.tex
clean:
rm -f $(DOC).{pdf,out,aux,log}
rm -f *.{pdf,out,aux,log,bbl,blg}

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\documentclass[11pt,a4paper,sans]{moderncv}
\moderncvstyle{classic}
\moderncvcolor{orange}
\usepackage[utf8]{inputenc}
\usepackage[scale=0.75]{geometry}
% \setlength{\hintscolumnwidth}{3cm}
% personal data
\name{Tran}{Hoai Nam}
\title{Curriculum Vit\ae}
\address{Department of Physics, Osaka University}{1-1 Machikaneyama, Toyonaka, Osaka}{Japan 560-0043}
\phone[fixed]{+81~06~6850~6739}
\phone[fax]{+81~06~6850~6739}
\email{nam@kuno-g.phys.sci.osaka-u.ac.jp}
%\photo[64pt][0.4pt]{picture}
% bibliography with mutiple entries
\usepackage{multibib}
\newcites{thes,jrnl,proc}{{Theses},{Journals}, {Conferences and Proceedings}}
\usepackage{float}
% Define \cvdoublecolumn, which sets its arguments in two columns without any labels
\newcommand{\cvdoublecolumn}[2]{%
\cvitem[0.75em]{}{%
\begin{minipage}[t]{\listdoubleitemmaincolumnwidth}#1\end{minipage}%
\hfill%
\begin{minipage}[t]{\listdoubleitemmaincolumnwidth}#2\end{minipage}%
}%
}
% usage: \cvreference{name}{address line 1}{address line 2}{address line 3}{address line 4}{e-mail address}{phone number}
% Everything but the name is optional
% If \addresssymbol, \emailsymbol or \phonesymbol are specified, they will be used.
% (Per default, \addresssymbol isn't specified, the other two are specified.)
% If you don't like the symbols, remove them from the following code, including the tilde ~ (space).
\usepackage{float}
\newcommand{\cvreference}[9]{%
\textbf{#1}\newline% Name
\ifthenelse{\equal{#2}{}}{}{\addresssymbol~#2\newline}% Department
\ifthenelse{\equal{#3}{}}{}{#3\newline}% Company
\ifthenelse{\equal{#4}{}}{}{#4\newline}% Position
\ifthenelse{\equal{#5}{}}{}{#5\newline}% Adress 1
\ifthenelse{\equal{#6}{}}{}{#6\newline}% Adress 2
\ifthenelse{\equal{#7}{}}{}{\emailsymbol~\texttt{#7}\newline}% % E-mail
\ifthenelse{\equal{#8}{}}{}{\phonesymbol~#8\newline} % Telephone
\ifthenelse{\equal{#9}{}}{}{\mobilephonesymbol~#9}} % CellPhone
%----------------------------------------------------------------------------------
% content
%----------------------------------------------------------------------------------
\begin{document}
%\begin{CJK*}{UTF8}{gbsn} % to typeset your resume in Chinese using CJK
%----- resume ---------------------------------------------------------
\makecvtitle
\section{Appointments}
\vspace{6pt}
\cventry
{2015--today} % time period
{Postdoctoral researcher} % job title
{Department of Physics, Osaka University} % affiliation
{} % location
{} % optional: grade ..., should be left blank
{}
%{\vspace{3pt}Experimental search for muon to electron
% conversion in aluminum, the COMET or J-PARC E21 experiment:
% \begin{itemize}
% \item Monitoring the number of muons that stop in the muon stopping target
% \item Monte Carlo simulation of cosmic ray background in COMET Phase-I
% \item Magnetic field map calculation
% \end{itemize}
% }
\vspace{6pt}
\cventry
{2012--2014} % time period
{JSPS Fellowship for Young Researcher} % job title
{Department of Physics, Osaka University} % affiliation
{} % location
{} % optional: grade ..., should be left blank
{\vspace{3pt}Development of a prototype TPC for a $\mu\rightarrow 3e$ search at
Osaka University}
\vspace{6pt}
\cventry
{2008--2010}
{Lecturer}
{School of Nuclear Engineering and Environmental Physics,\newline Hanoi University of Science and Technology}
{}
{}
{
% \vspace{3pt}
% \begin{itemize}
% \item Measurements of photonuclear reaction cross-section,
% neutron activation method in non-destructive testing
% \item Teach a course on Radiation Dose Measurements and Protection
% \item Mentor senior students on basic nuclear experiments
% \end{itemize}
}
\section{Education}
\vspace{6pt}
\cventry
{2010-2014}
{PhD, Physics}
{Osaka University}
{}
{}
{
\begin{itemize}
\item \textbf{Thesis:} \href{http://hdl.handle.net/11094/52295}{\emph{A study of proton emission following nuclear
muon capture for the COMET experiment}}
% \item \textbf{Advisor:} Yoshitaka Kuno
\end{itemize}
}
\vspace{6pt}
\cventry
{2007-2010}
{Master, Engineering Physics}
{Hanoi University of Science and Technology}
{}
{}
{
\begin{itemize}
\item \textbf{Thesis:} \emph{Measurements of isomeric yield ratios for the
\textsuperscript{45}Sc($\gamma$, n)\textsuperscript{44m,g}Sc reaction at
50, 60, 70 MeV bremsstrahlung}
\end{itemize}
}
\vspace{6pt}
\cventry
{2002-2007}
{Engineer, Engineering Physics}
{Hanoi University of Technology}
{}
{}
{
\begin{itemize}
\item \textbf{Thesis:} \emph{Design and production of an ionization chamber
for neutron detection via the \textsuperscript{6}Li(n,
$\alpha$)\textsuperscript{3}H reaction }
\end{itemize}
}
%\section{Short-term schools and courses}
%\cventry {Jun. 2014}{International school on real-time systems}{
% Osaka University, Japan} {} {}{
% Hand-on lessons on modern DAQ system using waveform digitizers, FPGA-based
% front-ends, and data collection and distribution over network.}
%
%\vspace{6pt}
%\cventry{Mar. 2013}{
% Excellence in detectors and instrumentation technologies 2013 (EDIT2013)}{
% KEK, Japan}{}{}{
% Lectures and hand-on exercises on wire chambers and silicon detectors}
%
%\vspace{6pt}
%\cventry{Oct. 2012}{Asia Europe Pacific school of high energy physics 2012
% (AEPSHEP2012)}{Fukuoka, Japan}{}{}{
% Lectures on high energy physics from an experimental and phenomenological
% perspective, focused on accelerator-based programmes}
%
%%%%%%%%%%%%%%%%%%%%%%
%\section{References}
%% \begin{cvcolumns}
% % \cvcolumn{}{
% % \begin{itemize}
% % \item \textbf{Yoshitaka Kuno}, Professor, Department of Physics, Osaka University
% % \item Person 2
% % \item Person 3
% % \end{itemize}}
%% \end{cvcolumns}
%
%\cvdoublecolumn{
% \cvreference{Yoshitaka Kuno}
% {Professor}% Position
% {Department of Physics}% Department
% {Osaka University}% Company
% {Toyonaka, Osaka, Japan 560-0043}% Adress 1
% {}% Adress 2
% {kuno@phys.sci.osaka-u.ac.jp}% E-mail
% {+81-06-6850-5565}% Telephone
% {}% CellPhone
% {}
% }
% {
% \cvreference{Peter Kammel}% Name
% {Professor}% Position
% {Department of Physics}% Department
% {University of Washington}% Company
% {Seattle, WA 98195-1560}% Adress 1
% {}% Adress 2
% {pkammel@uw.edu}% E-mail
% {206-685-2401}% Telephone
% {}% CellPhone
% {}
% }
%\cvdoublecolumn{
% \cvreference{James Miller}
% {Professor}% Position
% {Department of Physics}% Department
% {Boston University}% Company
% {Boston, MA 02215}% Adress 1
% {}% Adress 2
% {miller@bu.edu}% E-mail
% {617-353-2659}% Telephone
% {}% CellPhone
% {}
% }
% {
% }
%%%%%%%%%%%%%%%%%%%%%%
\section{Publications}
\nocitethes{*}
\bibliographystylethes{ieeetr}
\bibliographythes{theses}
\nocitejrnl{*}
\bibliographystylejrnl{ieeetr}
\bibliographyjrnl{journals}
\nociteproc{*}
\bibliographystyleproc{ieeetr}
\bibliographyproc{proceedings}
%----- letter ---------------------------------------------------------
% recipient data
% \newpage
% \recipient{Lee Roberts}{Department of Physics, Boston University\\590 Commonwealth Avenue\\Boston, MA 02215}
% \date{\today}
% \opening{Dear Professor Roberts,}
% \closing{Yours faithfully,}
% \enclosure[Attached]{curriculum vit\ae{}} % use an optional argument to use a string other than "Enclosure", or redefine \enclname
% \makelettertitle
% Body text
% \makeletterclosing
%----- letter -----------------------------------------------
\end{document}
%% end of file `template.tex'.

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\documentclass[11pt,a4paper,sans]{moderncv}
\moderncvstyle{classic}
\moderncvcolor{orange}
\usepackage[utf8]{inputenc}
\usepackage[scale=0.75]{geometry}
% \setlength{\hintscolumnwidth}{3cm}
% personal data
\name{Nam}{Tran}
\title{Curriculum Vitae}
\address{Department of Physics, Osaka University}{1-1 Machikaneyama, Toyonaka, Osaka}{Japan 560-0043}
\phone[fixed]{+81~06~6850~6739}
\phone[fax]{+81~06~6850~6739}
\email{nam@kuno-g.phys.sci.osaka-u.ac.jp}
%\photo[64pt][0.4pt]{picture}
% bibliography with mutiple entries
\usepackage{multibib}
\newcites{thes,jrnl,proc}{{Theses},{Journals}, {Conferences and Proceedings}}
%----------------------------------------------------------------------------------
% content
%----------------------------------------------------------------------------------
\begin{document}
%\begin{CJK*}{UTF8}{gbsn} % to typeset your resume in Chinese using CJK
%----- resume ---------------------------------------------------------
\makecvtitle
\section{Appointments}
\vspace{6pt}
\cventry
{2015--today} % time period
{Postdoctoral researcher} % job title
{Department of Physics, Osaka University} % affiliation
{} % location
{} % optional: grade ..., should be left blank
{\vspace{3pt}Experimental search for muon to electron
conversion in aluminum, the COMET or J-PARC E21 experiment:
\begin{itemize}
\item Normalisation of number of stopped muons in the stopping target
\item Monte Carlo simulation of cosmic background in COMET Phase-I
\item Magnetic field calculation
\end{itemize}
}
\vspace{6pt}
\cventry
{2012--2014} % time period
{JSPS Fellowship for Young Researcher} % job title
{Department of Physics, Osaka University} % affiliation
{} % location
{} % optional: grade ..., should be left blank
{\vspace{3pt}Development of a prototype TPC for a $\mu\rightarrow 3e$ search at
Osaka University}
\vspace{6pt}
\cventry
{2008--2010}
{Lecturer}
{School of Nuclear Engineering and Environmental Physics,\newline Hanoi University of Science and Technology}
{}
{}
{\vspace{3pt}
\begin{itemize}
\item Research on measurements of photonuclear reaction cross-section,
neutron activation method in non-destructive testing
\item Teach a course on Radiation Dose Measurements and Protection
\item Mentor for basic nuclear experiments for senior students
\end{itemize}
}
\section{Education}
\vspace{6pt}
\cventry
{2010-2014}
{PhD, Physics}
{Osaka University}
{}
{}
{
\begin{itemize}
\item \textbf{Thesis:} \href{http://hdl.handle.net/11094/52295}{\emph{A study of proton emission following nuclear
muon capture for the COMET experiment}}
% \item \textbf{Advisor:} Yoshitaka Kuno
\end{itemize}
}
\vspace{6pt}
\cventry
{2007-2010}
{Master, Engineering Physics}
{Hanoi University of Science and Technology}
{}
{}
{
\begin{itemize}
\item \textbf{Thesis:} \emph{Measurements of isomeric yield ratios for the
\textsuperscript{45}Sc($\gamma$, n)\textsuperscript{44m,g}Sc reaction at
50, 60, 70 MeV bremsstrahlung}
\end{itemize}
}
\vspace{6pt}
\cventry
{2002-2007}
{Engineer, Engineering Physics}
{Hanoi University of Technology}
{}
{}
{
\begin{itemize}
\item \textbf{Thesis:} \emph{Design and production of an ionization chamber
for neutron detection via the \textsuperscript{6}Li(n,
$\alpha$)\textsuperscript{3}H reaction }
\end{itemize}
}
%%%%%%%%%%%%%%%%%%%%%%
\section{Publications}
\nocitethes{*}
\bibliographystylethes{ieeetr}
\bibliographythes{theses}
\nocitejrnl{*}
\bibliographystylejrnl{ieeetr}
\bibliographyjrnl{journals}
\nociteproc{*}
\bibliographystyleproc{ieeetr}
\bibliographyproc{proceedings}
%----- letter ---------------------------------------------------------
% recipient data
\recipient{Dr. Lee Roberts}{Department of Physics\\Boston University\\590 Commonwealth Avenue\\ Boston, MA 02215}
\date{April 26, 2016}
\opening{Dear Sir or Madam,}
\closing{Yours faithfully,}
% \enclosure[Attached]{curriculum vit\ae{}} % use an optional argument to use a string other than "Enclosure", or redefine \enclname
\makelettertitle
\makeletterclosing
\end{document}
%% end of file `template.tex'.

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@article{doi:10.7566/JPSJ.82.044202,
author = { Hiroyasu Ejiri and Izyan H. Hashim and Yuko Hino and Yoshitaka
Kuno and Yuki Matsumoto and Kazuhiko Ninomiya and Hideyuki Sakamoto and
Akira Sato and Tatsushi Shima and Atsushi Shinohara and Keiji Takahisa
and Nam H. Tran},
title = {Nuclear $\gamma$ Rays from Stopped Muon Capture Reactions for
Nuclear Isotope Detection},
journal = {Journal of the Physical Society of Japan},
volume = {82},
number = {4},
pages = {044202},
year = {2013},
doi = {10.7566/JPSJ.82.044202},
URL = { http://dx.doi.org/10.7566/JPSJ.82.044202 },
eprint = { http://dx.doi.org/10.7566/JPSJ.82.044202 }
}
@Article{Do2010,
author="Do, Nguyen Van and Khue, Pham Duc and Thanh, Kim Tien and Nam, Tran
Hoai and Rahman, Md. Shakilur and Kim, Kyung-Sook and Lee, Manwoo and Kim,
Guinyun and Lee, Hee-Seock and Cho, Moo-Hyun and Ko, In Soo and Namkung,
Won",
title="Measurement of isomeric yield ratios for the $^{44m,g}${S}c isomeric pairs
produced from $^{45}${S}c and $^{nat}${T}i targets at 50-, 60-, and 70-{MeV}
bremsstrahlung",
journal="Journal of Radioanalytical and Nuclear Chemistry",
year="2010",
volume="287",
number="3",
pages="813--820",
issn="1588-2780",
doi="10.1007/s10967-010-0831-y",
url="http://dx.doi.org/10.1007/s10967-010-0831-y"
}

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@conference{cipanp15,
author = {Nam Hoai Tran and the AlCap collaboration},
title = {Measurements of the emission products of nuclear muon capture
on aluminum},
booktitle = {The 12th Conference on the Intersections of Particle and Nuclear
Physics (CIPANP 2015)},
year = 2015,
month = 5,
}
@article{doi:10.7566/JPSCP.1.013006,
Author = {Nam Hoai Tran and the COMET Collaboration},
journal = {Proceedings of the 12th Asia Pacific Physics Conference (APPC12)},
Chapter = {147},
year = 2013,
month = 7,
Doi = {10.7566/JPSCP.1.013006},
Eprint = {http://journals.jps.jp/doi/pdf/10.7566/JPSCP.1.013006},
Title = {Status of the COMET Experiment at J-PARC},
Url = {http://journals.jps.jp/doi/abs/10.7566/JPSCP.1.013006},
Bdsk-Url-1 = {http://journals.jps.jp/doi/abs/10.7566/JPSCP.1.013006},
Bdsk-Url-2 = {http://dx.doi.org/10.7566/JPSCP.1.013006}}
@article{panic11,
author = "Tran, Nam Hoai and the MuSIC Collaboration",
title = "The first muon beam from a new highly-intense {DC} muon source,
{MuSIC}",
journal = "AIP Conference Proceedings",
year = "2012",
volume = "1441",
number = "1",
pages = "652-654",
url = "http://scitation.aip.org/content/aip/proceeding/aipcp/10.1063/1.3700644",
doi = "http://dx.doi.org/10.1063/1.3700644"
}

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\documentclass[11pt,a4paper]{article}
\usepackage[utf8]{inputenc}
\usepackage[]{lmodern}
\renewcommand{\familydefault}{\sfdefault}
\date{\today}
\setlength{\topmargin}{-10mm}
\setlength{\textwidth}{7in}
\setlength{\oddsidemargin}{-8mm}
\setlength{\textheight}{9in}
\setlength{\footskip}{1in}
\begin{document}
\pagenumbering{gobble}% Remove page numbers (and reset to 1)
\begin{center}
\LARGE
Statement of Research Interests\\
% \large
% Nam Tran
\end{center}
\bigskip
My work centers in an experimental search for charged lepton flavor violation
(CLFV) with muons, namely the COMET experiment at J-PARC. COMET is a new
experiment that aims to find the neutrinoless decay of muon to electron in
a nuclear field, or
muon to electron conversion, at a single event sensitivity of $10^{-17}$. The
experiment has high impact as a positive result would provide an unambiguous
evidence of new physics beyond the Standard Model (BSM); and a negative result
will place stringent limits on theoretical models. The search is part of the
Intensity Frontier in particle physics, which will provide a window to probe
physics at energy scales far beyond the reach of the most powerful accelerator
currently exists. I was inspired to join the COMET experiment because of its
elegance:
\begin{itemize}
\itemsep-0.5em
\item the overall idea is simple;
\item the signal is clean and distinctive;
\item and many novel technologies and solutions are needed to realize its goal.
\end{itemize}
% One issue had arisen in the preparation for COMET experiment is our knowledge
% on the products of the nuclear muon capture process on aluminum target was not
% sufficient.
One issue that arose during the preparation for COMET is that our knowledge of
the products of the nuclear capture process on aluminum was not sufficient.
Protons are expected to be a significant source of hits in the tracking
detector of COMET, but there was no direct measurement of the proton rate and
spectrum in the relevant energy range. Neutrons could cause serious problem for
the front-end electronics. Therefore, COMET and its counterpart, Mu2e at
Fermilab, jointly carried out a series of measurements, in the so-called AlCap
experiment, of the products emitted after nuclear muon capture on aluminum and
titanium at Paul Scherer Institute (PSI), Switzerland. I did a Monte Carlo
study that showed the feasibility of the experiment, and contributed to DAQ
developement, and hardware and electronics works on silicon and germanium
detectors.
My initial analysis of proton data in 2013 showed that the proton emission rate
is low enough for the tracking detector of COMET to operate normally. The
smallness of proton emission rate was later confirmed by another independent
analysis on a larger dataset. However, there are still discrepancies between
the two analyses. Therefore we have had another run for the proton measurement
in 2015. The data analysis for this run is ongoing.
Since November 2014, I have been assigned as a subproject leader of COMET,
responsible for monitoring the number of muons that stop in the muon stopping
target. The number is evidently necessary for calculation of branching ratio
and single event sensitivity of the experiment. There have been several
ideas on how to achieve the goal: online measurement of muonic X-rays and
delayed gamma rays from activated $^{27}$Mg; measurement of the spectrum of
decay-in-orbit electrons, and the rate of protons emitted after nuclear muon
capture. I have proposed another activation measurement: measure population of
a long-lived activation product, namely $^{24}$Na ($T_{1/2} = 14.96$~h). The
measuring scheme will be:
\begin{itemize}
\itemsep-0.5em
\item irradiation with muon beam for 2 days,
\item beam off,
\item measure delayed gammas from $^{24}$Na (1368 and 2574 keV) for 2 hours,
\item continue irradiating, then repeat the cycle.
\end{itemize}
All these methods could be used simultaneously for cross-checking and
reducing systematic uncertainties.
% I also involve in other works, such as Monte Carlo simulation of cosmic ray
% background in COMET Phase-I, and magnetic field map calculation for both COMET
% Phase-I and Phase-II.
Having been working in COMET for 5 years, I have been able to work together
with great collaborators, and have gained a wide range of skills
needed for an experimental physicist, including simulation, detector
development, data acquisition, and data analysis. Now I would like to broaden
my perspective and earn more experience by joining the Muon $g-2$ experiment.
I am attracted by the ambitious goal of measuring the muon anomalous magnetic
moment at an unprecedented precision, its impact of the measurement in
establishing a signal for new physics beyond the Standard Model, as well as the
synergy between $g-2$ and $\mu-e$ conversion experiments. My areas of
contribution could be Monte Carlo simulation, detector and DAQ development.
Besides, I am eager to learn new skills including accelerator-related
techniques, FPGA development, and data analysis using machine learning.
% moving to another position.
% The
% transition to Mu2e would be smooth since the two
% experiments have many things in common.
% Personally, I would like to strengthen
% my data analysis skill with a new technique: machine learning. I believe
% machine learning will be used extensively as I continue working in the
% Intensity Frontier.
\end{document}

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@phdthesis{phdthesis,
author = {Nam Hoai Tran},
title = {A study of proton emission following nuclear muon capture for
the COMET experiment},
school = {Osaka University},
year = 2014,
month = 12,
note = {\url{http://hdl.handle.net/11094/52295}}
}

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