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| -rw-r--r-- | cv.tex | 10 | ||||
| -rw-r--r-- | cv.txt | 148 | ||||
| -rw-r--r-- | publications.tex | 131 |
3 files changed, 286 insertions, 3 deletions
@@ -116,9 +116,6 @@ \csection{Preprints}{94} -\pub{Origin of symmetry breaking in the grasshopper model}{ - David Llamas, \me, Kun Chen, Adrian Kent \& Olga Goulko, \href{https://arxiv.org/abs/2311.05023}{arXiv:2311.05023} (2023) -} \pub{Log-correlated color in Monet's paintings}{ \me, \href{https://arxiv.org/abs/2209.01989}{arXiv:2209.01989} (2022) @@ -138,6 +135,13 @@ \href{https://arxiv.org/abs/2304.00105}{arXiv:2304.00105} ]} +\pub{Origin of symmetry breaking in the grasshopper model}{ + David Llamas, \me, Kun Chen, Adrian Kent \& Olga Goulko, + \href{https://journals.aps.org/prresearch/accepted/4e071J66Yba1ed0051ca5bc67117534b9f7d15aaa}{accepted for publication in Physical Review Research} + \dotfill\ [ + \href{https://arxiv.org/abs/2311.05023}{arXiv:2311.05023} +]} + \pub{Arrangement of nearby minima and saddles in the mixed spherical energy landscapes}{ \me, \href{https://doi.org/10.21468/SciPostPhys.16.1.001}{SciPost Physics \textbf{16}, 001 (2024)} \dotfill\ [~\href{https://kent-dobias.com/files/Kent-Dobias_2024_Arrangement.pdf}{\textsc{pdf}} | \href{https://arxiv.org/abs/2306.12779}{arXiv:2306.12779}~]} @@ -0,0 +1,148 @@ +Jaron Kent-Dobias, physicist. jaron@kent-dobias.com +______________________________________________________________________________ + + +Education .................................................................... + +Graduate Student, Physics - Cornell University, Ithaca, NY. + +Bachelor of Science, Physics - Harvey Mudd College (HMC), Claremont, CA. + May 2014 + - Total GPA of 3.779, major GPA of 4.000. + - Graduated with high distinction and honors in physics. + - Earned Dean's list all eligible semesters. + +High School Diploma - Skyline High School, Sammamish, WA. May 2010 + + +Publications ................................................................. + +J. P. Kent-Dobias, "Energy Driven Pattern Formation in Planar Dipole-Dipole +Systems." (2014) Senior thesis in physics at HMC under A. J. Bernoff. + + +Research Experience .......................................................... + +Under Prof. Andrew Bernoff - Department of Mathematics, HMC. + Jan. 2013 - Present + - Theoretically studied the shape and stability of modulated phases in + Langmuir systems. + - Employed techniques from perturbation theory, asymptotic integration, and + linear stability analysis. + - Created a library of tools in C++ to analyze domains and perform nonlinear + optimization on a high-dimensional, highly constrained parameter space. + +Under Prof. Sharon Gerbode - Department of Physics, HMC. + Jan. 2012 - Sept. 2012 + + - Experimentally studied the behavior of impurities during phase changes in + colloidal crystals. + - Designed experiments and wrote software in MATLAB to analyze particle + tracking data. + - Performed a literature review of statistical hard-sphere fluid theory in + order to assess its applicability to the colloidal problem. + + +Awards ....................................................................... + +Finalist, LeRoy Apker Award - American Physical Society. Aug. 2014 + + An undergraduate physics achievement award to recognize outstanding + achievements in physics by undergraduate students, and thereby provide + encouragement to young physicists who have demonstrated great potential for + future scientific accomplishment. + +Thomas B. Brown Memorial Award - Department of Physics, HMC. May 2014 + + The Thomas B. Brown award for senior research in physics is awarded for + research results, originality in conception or in execution of research, + diligence, and clarity of oral and written reports + +The Chavin Prize - Department of Mathematics, HMC. May 2014 + + The Chavin Prize is awarded for outstanding senior thesis in the mathematical + sciences. + + +Work Experience .............................................................. + +Academic Excellence Facilitator - Academic Excellence Program, HMC. + Apr. 2012 - May 2014 + - Tutored students taking courses in mechanics, electromagnetism, and special + relativity. + - Worked closely with faculty to improve both tutoring and lecturing. + +Systems Administrator - Department of Computer Science, HMC. + May 2011 - May 2014 + - Administered Linux and Mac OS servers and managed a large network of + codependent systems. + - Created and modified scripts written in Perl, Bash, and Python for a + variety of system tasks. + +CCMS [1] Lab Mentor - Department of Mathematics, CGU [2]. Jan. 2012 - May 2014 + + - Provided support for MATLAB, Mathematica, LaTeX, and Python for students + and faculty throughout the Claremont Consortium. + +Physics Grader - Department of Physics, HMC. Jan. 2012 - May 2014 + + - Graded homework assignments for the Mechanics, Theoretical Mechanics, + Electromagnetic Fields, and Fourier Series & Boundary Value Problems + courses. + +Physics 18 Tutor - Department of Physics, HMC. Jan. 2013 - May 2013 + + - Tutored students enrolled in mechanics who have a poor background in or + difficulty with physics. + +Math Grader - Department of Mathematics, HMC. Jan. 2012 - May 2012 + + - Graded assignments for the Linear Algebra and Differential Equations + courses. + +Systems Consultant - Department of Computer Science, HMC. + Sept. 2010 - May 2011 + - Wrote documentation and provided on-site user support for desktop and + server systems. + - Led educational sessions teaching topics related to Unix administration + and advanced usage. + + +Skills ....................................................................... + +Computer Related + + - Experienced programming in the following languages (listed in order of + proficiency): Mathematica, C, C++, LaTeX, TeX, Python, Gnuplot, Igor Pro, + MATLAB, Perl, CUDA, Bash. + - Experienced in the use of many Unix variants, especially Arch Linux, + Gentoo, and Mac OS. + +Physics & Mathematics Coursework (at HMC) + + - Physics classes taken include Special Relativity, Mechanics, Gravitation, + Electromagnetism, Modern Laboratory, Quantum Physics, Theoretical + Mechanics, Statistical Mechanics, Quantum Mechanics, Electromagnetic + Fields, Biophysics, Optics Laboratory, General Relativity, Computational + Methods in Physics, Fields & Waves, Topics in Quantum Theory, Readings in + Stochastic Methods, Foundations of Field Theory, Solid State Physics, and + Electrodynamics. + - Mathematics classes taken include Linear Algebra I & II, Differential + Equations, Single and Multivariable Calculus, Probability & Statistics, + Fourier Transforms & Boundary Value Problems, Discrete Mathematics, + Mathematical Analysis I & II, Abstract Algebra, Differential Geometry, and + Harmonic Analysis on Finite Groups. + + +Achievements ................................................................. + + +Eagle Scout - Troop 636, Sammamish, WA. Mar. 2008 + +2nd Degree Black Belt - True Martial Arts, Sammamish, WA. Dec. 2008 + + +[1] Claremont Center for the Mathematical Sciences +[2] Claremont Graduate University + +Modified 21 November 2014. diff --git a/publications.tex b/publications.tex new file mode 100644 index 0000000..315ad70 --- /dev/null +++ b/publications.tex @@ -0,0 +1,131 @@ +\documentclass[a4paper]{article} + +\usepackage[T1]{fontenc} +\usepackage{beton,eulervm} +\usepackage[dvipsnames]{xcolor} +\usepackage{fullpage} +\usepackage{amsmath} +\usepackage{pgfornament} +\usepackage[ + colorlinks=true, + urlcolor=MidnightBlue +]{hyperref} + +\DeclareFontSeriesDefault[rm]{bf}{sbc} +\DeclareTextFontCommand{\titlebf}{\fontseries{sbc}\fontfamily{cmss}\selectfont} + +\pagenumbering{gobble} +\setlength{\parindent}{0pt} + +\newcommand\csection[2]{ + \bigskip + \phantomsection\addcontentsline{toc}{section}{#1} + {\LARGE\titlebf{#1}} + \hfill + \raisebox{-4pt}{ + \makebox[4.5em]{ +% \hfill\pgfornament[anchor=south,height=20pt]{#2}\hfill + } + } + + \medskip +} + +\newenvironment{citemize}{ + \begin{itemize} + \setlength{\itemsep}{1pt} + \setlength{\parskip}{0pt} + \setlength{\parsep}{0pt} + \setlength{\parindent}{1em} + \setlength{\itemindent}{-2.25em} + \setlength{\leftmargin}{0em} +}{\end{itemize}} + +\newcommand\rawentry[3]{ + \textbf{#1}\dotfill\textsl{#2}\\ + #3 +} + +\newcommand\entry[3]{ + \rawentry{#1}{#2}{#3} + + \smallskip +} + +\newenvironment{entryenv}[3]{ + \rawentry{#1}{#2}{#3} + \vspace{-0.4em} + \begin{quote} +}{ + \end{quote} + \vspace{-0.4em} +} + +\newcommand\pub[2]{ + \textbf{#1},#2 + +} + +\newcommand\me{JK-D} + +\begin{document} +\noindent\begin{minipage}[b]{0.5\textwidth} + \noindent{\huge\textbf{Supporting publications}}\medskip\\ + \noindent{\Large\textbf{Jaron Kent-Dobias}} +\end{minipage} +\hfill +\begin{minipage}[b]{0.45\textwidth} + \raggedleft + \noindent{Postdoctoral researcher}\\ + \noindent{INFN sezione di Roma I}\\ + \noindent{\href{mailto:jaron.kent-dobias@roma1.infn.it}{jaron.kent-dobias@roma1.infn.it}} +\end{minipage} + +\vspace{1em} + +\begin{enumerate} + + \item \pub{Arrangement of nearby minima and saddles in the mixed spherical energy landscapes}{ + \me, \href{https://doi.org/10.21468/SciPostPhys.16.1.001}{SciPost Physics \textbf{16}, 001 (2024)} + \dotfill\ [~\href{https://kent-dobias.com/files/Kent-Dobias_2024_Arrangement.pdf}{\textsc{pdf}} | \href{https://arxiv.org/abs/2306.12779}{arXiv:2306.12779} +]} + +\item \pub{When is the average number of saddle points typical?}{ + \me, \href{https://doi.org/10.1209\%2F0295-5075\%2Facf521}{Europhysics Letters \textbf{143}, 61003 (2023)} \dotfill\\ + .\dotfill\ [~\href{https://kent-dobias.com/files/Kent-Dobias_2023_When.pdf}{\textsc{pdf}} | \href{https://arxiv.org/abs/2306.12752}{arXiv:2306.12752} +]} + +\item \pub{How to count in hierarchical landscapes: a full solution to mean-field complexity}{ + \me\ \& Jorge Kurchan, \href{https://doi.org/10.1103/PhysRevE.107.064111}{Physical Review E \textbf{107}, 064111 (2023)} + \dotfill\ [ \href{https://kent-dobias.com/files/Kent-Dobias_2023_How.pdf}{\textsc{pdf}} | \href{https://arxiv.org/abs/2207.06161}{arXiv:2207.06161} +]} + +\item \pub{Analytic continuation over complex landscapes}{ + \me\ \& Jorge Kurchan, + \href{https://doi.org/10.1088/1751-8121/ac9cc7}{Journal of Physics A: Mathematical and Theoretical \textbf{55}, 434006 (2022)} + \dotfill~[~\href{https://kent-dobias.com/files/Kent-Dobias_2022_Analytic.pdf}{\textsc{pdf}}~|~\href{https://arxiv.org/abs/2204.06072}{arXiv:2204.06072}~]} + +\item \pub{Elastic properties of hidden order in URu$_{\text2}$Si$_{\text2}$ are reproduced by a staggered nematic}{ + \me, Michael Matty \& BJ Ramshaw, + \href{https://doi.org/10.1103/PhysRevB.102.075129}{Physical Review B \textbf{102}, 075129 (2020)} + \dotfill\ [ \href{https://kent-dobias.com/files/Kent-Dobias_2020_Elastic.pdf}{\textsc{pdf}} | + \href{https://arxiv.org/abs/1910.01669}{arXiv:1910.01669} +]} + +\item \pub{Normal form for renormalization groups}{ + Archishman Raju, Colin B Clement, Lorien X Hayden, \me, Danilo B Liarte, D Zeb Rocklin \& James P Sethna, + \href{https://doi.org/10.1103/PhysRevX.9.021014}{Physical Review X \textbf 9, 021014 (2019)} \dotfill\\ + .\dotfill\ [ \href{https://kent-dobias.com/files/Raju_2019_Normal.pdf}{\textsc{pdf}} | + \href{https://arxiv.org/abs/1706.00137}{arXiv:1706.00137} +]} + +\item \pub{Cluster representations and the Wolff algorithm in arbitrary external fields}{ + \me\ \& James P Sethna, + \href{https://doi.org/10.1103/PhysRevE.98.063306}{Physical Review E \textbf{98}, 063306 (2018)} + \dotfill\ [ \href{https://kent-dobias.com/files/Kent-Dobias_2018_Cluster.pdf}{\textsc{pdf}} | + \href{https://arxiv.org/abs/1805.04019}{arXiv:1805.04019} +]} + +\end{enumerate} + +\end{document} |