tcv.tex - cv - curriculum vitae
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1 %% compile with lualatex
2 %! TEX program = lualatex
3 \documentclass[10pt,a4paper]{article}
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5 \usepackage[utf8]{inputenc}
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7 %% Language
8 \usepackage[english]{babel} % break words
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11 % http://practicaltypography.com/
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33 \usepackage{siunitx}
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35 \usepackage{longtable}
36 \setlength{\LTpre}{0pt} % disable spacing above table
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38 % format enumerated lists
39 \usepackage{enumitem} % allow adjustment of lists
40 \setlist[itemize]{leftmargin=*}
41 \usepackage{etaremune} % reverse-counting enumerate environment
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45 \usepackage[nodayofweek]{datetime}
46 \newdateformat{mydate}{\twodigit{\THEDAY}{~}\shortmonthname[\THEMONTH], \THEYEAR}
47
48 %% Layout
49 \usepackage{multicol} % n columns with \begin{multicols}{<n>} ... \end{multicols}
50 %\setlength{\multicolsep}{6.0pt plus 2.0pt minus 1.5pt}% 50% of original values
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55
56 % Headers and footers
57 \usepackage{lastpage} % for "Page N of M" footer
58 \usepackage{fancyhdr}
59 \pagestyle{fancy}
60 \rhead{\small A.\ Damsgaard, CV}
61 \lfoot{\small \emph{Updated: \today}}
62 \cfoot{}
63 \rfoot{\small\thepage{} of~\pageref{LastPage}}
64 \renewcommand{\headrulewidth}{0pt}
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69 }
70
71 \usepackage{booktabs}% http://ctan.org/pkg/booktabs
72 \newcommand{\tabitem}{\hspace{1.5em}\llap{\textbullet}~}
73
74 \usepackage{titlesec} % Used to customize the \section command
75 %\titleformat{\section}{\Large\scshape\raggedright}{}{0em}{}[{\titlerule[1pt]}]
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80 \vspace{.8ex}%
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93 % Text formatting of sections
94 \titlespacing*{\section}{0pt}{2em}{1em}
95
96 \begin{document}
97 \thispagestyle{firststyle}
98 \begin{center}
99 \noindent{\LARGE \bfseries \sffamily Anders Damsgaard}
100 \end{center}
101
102 \begin{center}
103 \begin{tabular}{rl}
104 \\
105 %{Phone:} & +45 42 74 31 42\\ % chktex 8
106 {Email:} & \url{anders@andersdamsgaard.dk}\\
107 {Web:} & \url{https://andersdamsgaard.dk}\\
108 %{Gopherspace:} & \url{gopher://adamsgaard.dk}\\
109 {ORCID:} & \url{https://orcid.org/0000-0002-9284-1709}\\
110 {Scopus:} & \url{https://www.scopus.com/authid/detail.uri?authorId=6602269102}\\
111 {Web of Science:} & \url{https://www.webofscience.com/wos/author/record/ABA-3996-2021}\\
112 \end{tabular}
113 \end{center}
114
115 %\section*{Short bio}
116 %I am a geoscientist with competences in geotechnics and computer science.
117 %I use field observations, numerical modeling, geophysics, programming,
118 %and data processing in order to understand Quaternary geology, sediment
119 %mechanics, and groundwater flow.
120 %\\
121
122 \section*{Professional experience}
123 \begin{itemize}[leftmargin=1in,topsep=0in,parsep=0.5em,labelwidth=0.9in,align=left]
124 %\begin{itemize}[leftmargin=1in,topsep=0in,parsep=0.5em]
125
126 \item[2023\textendash{}Present] \textbf{\large Geo}\\
127 \emph{Senior Specialist, Geodata, Aarhus}
128 \begin{itemize}[leftmargin=0.2in,topsep=0in,parsep=0in]
129 \item Geological 3D modeling using geological, geotechnical, and geophysical field surveys and databases
130 \item Software architecture and engineering: Microservice design, orchestration and monitoring
131 \item Key technologies: Linux, Pub/sub via MQTT, containerization, Go, Python, Grafana, PostgreSQL, TimescaleDB, Redis InfluxDB
132 \item Automated processing of geophysical data (C, OpenMP, HPC Linux)
133 \item InSAR analysis
134 \end{itemize}
135
136 \item[2023\textendash{}Present] \textbf{\large Aarhus University}\\
137 \emph{External lecturer}\\
138 Department of Geoscience\\
139 B.Sc.\ course: Quaternary Geology (10 ECTS)
140
141 \item[2020\textendash{}2023] \textbf{\large Aarhus University}\\
142 \emph{Assistant Professor (tenure track) and Postdoc}\\
143 Department of Geoscience
144 \begin{itemize}[leftmargin=0.2in,topsep=0in,parsep=0in]
145 \item High-performance computing (Linux, Nvidia CUDA)
146 \item System administration, data analysis, scientific reporting
147 \item Computational modeling of tunnel valley formation from sediment mechanics and groundwater flow
148 \item Modeling of water flow
149 \end{itemize}
150 Courses: Quaternary Geology (10 ECTS), Greenland Field Course (5 ECTS)
151
152 \item[2019\textendash{}2020] \textbf{\large Stanford University}\\
153 \emph{Independent Consultant}\\
154 Department of Geophysics
155 %Visiting researcher at Aarhus University, Department of Geoscience
156 \begin{itemize}[leftmargin=0.2in,topsep=0in,parsep=0in]
157 \item Glacial sediment advection modeling
158 \item Development of continuum methods for multi-phase granular flows
159 \item High-performance computing (C, MPI/OpenMP, shell, UNIX)
160 \item Continuum and discrete modeling of ice-water-sediment systems
161 \end{itemize}
162 \emph{Supervisor:} Jenny Suckale
163
164 \item[2018\textendash{}2019] \textbf{\large Danish Environmental Protection Agency}\\
165 \emph{Academic Technician}\\
166 Ministry of Environment of Denmark
167 \begin{itemize}[leftmargin=0.2in,topsep=0in,parsep=0in]
168 \item Automated quality control of geological, hydrological, and geochemical data
169 \item Management and development of geospatial databases using PostgreSQL/PostGIS
170 \item Development of Python plugins for QGIS
171 \end{itemize}
172
173 \item[2017\textendash{}2018] \textbf{\large Princeton University}\\
174 \emph{Postdoctoral Research Associate}\\
175 Program in Atmospheric and Oceanic Sciences\\
176 Andlinger Center for Energy and the Environment\\
177 Geophysical Fluid Dynamics Laboratory (GFDL)\\
178 National Oceanographic and Atmosphere Administration (NOAA)
179 \begin{itemize}[leftmargin=0.2in,topsep=0in,parsep=0in]
180 \item Design of granular-mechanics methods for simulating sea-ice mechanics
181 \item Python, Julia, and Fortran HPC software development
182 \end{itemize}
183 \emph{Supervisors:} Alistair Adcroft and Olga Sergienko
184
185 \item[2016\textendash{}17] \textbf{\large Scripps Institution of Oceanography}\\
186 \emph{Green's Foundation Postdoctoral Scholar}\\
187 Institute of Geophysics and Planetary Physics\\
188 University of California, San Diego
189 \begin{itemize}[leftmargin=0.2in,topsep=0in,parsep=0in]
190 \item Scientific software development
191 \item Modeling hydrology and mechanics under the West Antarctic Ice Sheet
192 \item Remote sensing data analysis
193 \item Rate and state friction in discrete-element models
194 \end{itemize}
195 \emph{Supervisor:} Helen A.\ Fricker
196
197 \item[2015] \textbf{\large Aarhus University}\\
198 \emph{Research assistant}\\
199 Department of Geoscience
200 \begin{itemize}[leftmargin=0.2in,topsep=0in,parsep=0in]
201 \item Markov-Chain Monte Carlo inversion of cosmogenic nuclide ages
202 \item Linux automation, job scheduling, frontend and backend development
203 \end{itemize}
204 \emph{Supervisor:} Mads F.\ Knudsen
205 \end{itemize}
206
207 \section*{Education}
208 \begin{itemize}[leftmargin=1in,topsep=0in,parsep=0.5em,labelwidth=0.9in,align=left]
209
210 \item[2013\textendash{}15] \textbf{Aarhus University: Ph.D.}\\
211 Department of Geoscience.
212 Courses in computer graphics and high-performance computing at Department of Computer Science.\\
213 Ph.D.\ thesis title: \emph{``Numerical modeling of subglacial sediment
214 deformation''}\\
215 Ph.D.\ project of the year within the Faculty and Science and Technology 2015.\\
216 \emph{Supervisors:} David L.\ Egholm and Jan A.\ Piotrowski.\\
217 Thesis download: \url{https://adamsgaard.dk/ad-thesis.pdf}
218
219 \item[2010\textendash{}13] \textbf{Aarhus University: M.Sc.}, Department of Geoscience.
220
221 \item[2006\textendash{}10] \textbf{Aarhus University: B.Sc.}, Department of Geoscience.
222
223 \end{itemize}
224
225
226 \section*{Awards, grants, and scholarships}
227 %\begin{itemize}[leftmargin=0.5in,topsep=0in,parsep=0.5em]
228 \begin{itemize}[leftmargin=0.75in,topsep=0in,parsep=0.5em,labelwidth=0.65in,align=left]
229
230 \item[2022\textendash{}2025] Bundesgesellschaft f\"ur Endlagerung, Germany:\\
231 \emph{``Dynamical modelling of subglacial meltwater erosion during past and future glaciations''}.\\
232 A.\ Damsgaard, J.\ A.\ Piotrowski (AU), J.\ Winsemann (Leibniz University Hannover, LUH).\\
233 Funding for one two-year postdoc at AU, and one two-year postdoc at LUH.
234 EUR 547.835.
235
236 \item[2020] European Union/European Commission, Horizon 2020:\\
237 Marie Sk\l{}odowska-Curie Actions Individual Fellowship\\
238 H2020-MSCA-IF-2019, 24 months, EUR 207,000.\\
239 Project: \emph{NEMOSID: NExt-generation MOdeling of Sedimentary Ice-sheet Dynamics}
240
241 \item[2016] Aarhus University Research Foundation:\\
242 Award for outstanding Ph.D.\ research in Science and Technology.
243
244 \item[2016] XSEDE Startup Allocation, Principal Investigator: “Grain and
245 fluid dynamics: Governors of glacier flow and earthquake initiation”,
246 48,000 CPU hours on GPU clusters Stampede, Comet and Bridges.
247
248 \item[2016] NVIDIA Corporation, hardware grant (Tesla K40).
249
250 \item[2016] Community Surface Dynamics Modeling System (CSDMS) Student
251 Modeler Award 2016, University of Colorado Boulder, USA, for innovative
252 model development in the field of earth-surface dynamics.
253
254 \item[2015] Cecil H. and Ida M. Green Foundation for Earth Sciences
255 scholarship,\\
256 50\% of salary for two years.
257
258 \end{itemize}
259
260 \section*{Publications (h-index 9)}
261 \begin{etaremune}[leftmargin=0in,topsep=0in,parsep=0in]
262
263 \item Pedersen, L.\ L., K.\ Svennevig, C.\ Morino, A.\ S.\ Søndergaard, C.\ Pearce, L.\ F.\ Pérez, \textbf{A.\ Damsgaard}, J.\ Olsen, M.\ F.\ Knudsen, A.\ Noblet, N.\ K.\ Larsen,
264 ``A giant Early Holocene tsunamigenic rock-ice avalanche in South Greenland preconditioned by glacial thinning''.
265 \emph{Submitted to Geomorphology}.
266
267 \item Svendsen, M.\ W., S.\ M.\ Kristiansen, V.\ K.\ Pedersen and \textbf{A.\ Damsgaard} 2024
268 ``Mit livs dessert: 100-års jubilæet for Ellen Louise Mertz' studie af niveauforandringer i Danmark''
269 (en: ``The dessert of my life: the 100-year anniversary of Ellen Louise Mertz' studies of elevation changes in Denmark'').
270 \emph{Geologisk Tidsskrift}.
271 \url{https://2dgf.dk/publikationer/geologisk-tidsskrift/geologisk-tidsskrift-2024/#7}
272
273 \item Andersen, J.\ D., L.\ B\o{}dker, J.\ Dolby, \textbf{A.\ Damsgaard}, and N.\ Okkels 2024
274 ``Foundation on organic diatomite''.
275 \emph{Proceedings of the 19th Nordic Geotechnical Meeting}.
276 %\url{https://doi.org/10.1029/2021JF006460}
277
278 \item Svendsen, M.\ W., S.\ M.\ Kristiansen, V.\ K.\ Pedersen and \textbf{A.\ Damsgaard} 2024
279 “Mit livs dessert: 100-års jubilæet for Ellen Louise Mertz' studie af niveauforandringer i Danmark”
280 (en: “The dessert of my life: the 100-year anniversary of Ellen Louise Mertz' studies of elevation changes in Denmark”).
281 \emph{Geologisk Tidsskrift}.
282 \url{https://2dgf.dk/publikationer/geologisk-tidsskrift/geologisk-tidsskrift-2024/#7}
283
284 \item Andersen, J.\ D., L.\ B\o{}dker, J.\ Dolby, \textbf{A.\ Damsgaard}, and N.\ Okkels 2024
285 “Foundation on organic diatomite”.
286 \emph{Proceedings of the 19th Nordic Geotechnical Meeting}.
287 %\url{https://doi.org/10.1029/2021JF006460}
288
289 \item Kasmalkar, I., \textbf{A.\ Damsgaard}, L.\ Goren, and J.\ Suckale 2022
290 ``Shear variation at the ice-till interface changes the
291 spatial distribution of till porosity and meltwater drainage''.
292 \emph{Journal of Geophysical Research: Earth Surface}. ISI WoS Article.
293 \url{https://doi.org/10.1029/2021JF006460}. ISI WoS article.
294
295 \item \textbf{Damsgaard, A.}, O.\ Sergienko, and A.\ Adcroft 2021
296 ``The effects of ice floe-floe interactions on pressure ridging in sea ice''.
297 \emph{Journal of Advances in Modeling Earth Systems}, vol.\ 13. ISI WoS Article.
298 \url{https://doi.org/10.1029/2020MS002336}. ISI WoS article.
299
300 \item \textbf{Damsgaard, A.}, L.\ Goren, and J.\ Suckale 2020
301 ``Water pressure fluctuations control variability in sediment
302 flux and slip dynamics beneath glaciers and ice streams''.
303 \emph{Communications Earth \& Environment}, vol.\ 1(66). ISI WoS Article.
304 \url{https://doi.org/10.1038/s43247-020-00074-7}. ISI WoS article.
305
306 \item \textbf{Damsgaard, A.}, A.\ Adcroft, and O.\ Sergienko 2018
307 ``Application of discrete-element methods to approximate sea-ice
308 dynamics''.
309 \emph{Journal of Advances in Modeling Earth Systems}, vol.\ 10,
310 2228\textendash{}2244.
311 \url{https://doi.org/10.1029/2018MS001299}. ISI WoS article.
312
313 \item Bateman, M.\ D., D.\ A.\ Swift, J.\ A.\ Piotrowski, E.\ J.\ Rhodes,
314 \textbf{Damsgaard, A.} 2018
315 ``Can glacial shearing of sediment reset the signal used for
316 luminescence dating?''.
317 \emph{Geomorphology}, vol.\ 306, 90\textendash{}101.
318 \url{https://doi.org/10.1016/j.geomorph.2018.01.017}. ISI WoS article.
319
320 \item \textbf{Damsgaard, A.}, J.\ Suckale, J.\ A.\ Piotrowski, M.\
321 Houssais, M.\ R.\ Siegfried, and H.\ A.\ Fricker 2017
322 ``Sediment behavior controls equilibrium width of subglacial
323 channels''.
324 \emph{Journal of Glaciology}, vol.\ 63, 1034\textendash{}1048.
325 \url{https://doi.org/10.1017/jog.2017.71}. ISI WoS article.
326
327 \item \textbf{Damsgaard, A.}, A.\ Cabrales-Vargas, J.\ Suckale, and L.\ Goren
328 2017
329 ``The coupled dynamics of meltwater percolation and granular
330 deformation in the sediment layer underlying parts of the big ice
331 sheets''.
332 \emph{Poromechanics VI}.
333 \url{https://doi.org/10.1061/9780784480779.024}. ISI WoS proceedings.
334
335 \item \textbf{Damsgaard, A.}, D.\ L.\ Egholm, L.\ H.\ Beem, N.\ K.\ Larsen,
336 S.\ Tulaczyk, J.\ A.\ Piotrowski, and M.\ R.\ Siegfried 2016
337 ``Ice flow dynamics forced by water pressure variations in subglacial
338 granular beds''.
339 \emph{Geophysical Research Letters}, vol.\ 43, \num{12165}–\num{12173}.
340 \url{https://doi.org/10.1002/2016GL071579}. ISI WoS article.
341
342 \item \textbf{Damsgaard, A.}, D.\ L.\ Egholm, J.\ A.\ Piotrowski, S.\
343 Tulaczyk, N.\ K.\ Larsen, and C.\ F.\ Br\ae{}dstrup
344 2015
345 ``A new methodology to simulate subglacial deformation of
346 water-saturated granular material''.
347 \emph{The Cryosphere},
348 vol.\ 9, 2183\textendash{}2200.\\
349 \url{https://doi.org/10.5194/tc-9-2183-2015}. ISI WoS article. % chktex 8
350
351 \item Br\ae{}dstrup, C.\ F., \textbf{A.\ Damsgaard}, and D.\ L.\ Egholm
352 2014
353 ``Ice-sheet modelling accelerated by graphics cards''.
354 \emph{Computers \& Geosciences},
355 vol.\ 72, 210\textendash{}220.\\
356 \url{https://doi.org/10.1016/j.cageo.2014.07.019}. ISI WoS article.
357
358 \item \textbf{Damsgaard, A.}, D.\ L.\ Egholm, J.\ A.\ Piotrowski, S.\
359 Tulaczyk, N.\ K.\ Larsen, and K.\ Tylmann
360 2013
361 ``Discrete element modeling of subglacial sediment deformation''.
362 \emph{Journal of Geophysical Research:\ Earth Surface},
363 vol.\ 118, 2230\textendash{}2242.
364 \url{https://doi.org/10.1002/2013JF002830}. ISI WoS article.
365
366 \end{etaremune}
367
368
369 \section*{Presentations}
370
371 \subsection*{Invited talks}
372 \begin{etaremune}[leftmargin=0in,topsep=0in,parsep=0in]
373
374 \item \textbf{Damsgaard, A.}, D.\ Hansen, and L.\ Zoet
375 ``Subglacial landforms from variations in modeled sediment flux''.
376 Geological Society of America Annual Meeting 2022, Session EP015 - Landscape evolution beneath and beyond the ice, Chicago, IL, USA.
377
378 \item \textbf{Damsgaard, A.}
379 ``Coupled modeling of ice, subglacial sediment, and glacier hydrology''.
380 8th European Seminar on Computing (ESCO) June 2022, Pilsen, Czech Republic.
381
382 \item \textbf{Damsgaard, A.}
383 ``Sediment transport in an ice flow model: Implications for marine-terminating ice sheets''.
384 European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS), June 2022, Oslo, Norway.
385
386 \item \textbf{Damsgaard, A.}
387 ``Glacial reshaping of the Earth Surface: From geological observations to modeling''.
388 University of Oxford Mathematical Geosciences seminar, 2022-03-11
389
390 \item \textbf{Damsgaard, A.}
391 ``Interactions between ice and till: From geological observations to modeling”
392 ETH Z\"urich, VAW Glaciology seminar, 2022-03-03
393
394 \item \textbf{Damsgaard, A.}, J.\ A.\ Piotrowski, I.\ Madden,
395 J.\ Suckale, and K.\ K.\ S\o{}rensen
396 ``Approaches to modeling subglacial till deformation''.
397 Maths on Ice seminar, 2022-01-10
398
399 \item \textbf{Damsgaard, A.}, O.\ Sergienko, and A.\ Adcroft
400 ``Sea-ice ridging in discrete element models''.
401 European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS), June 2021, Valencia, Spain.
402
403 \item \textbf{Damsgaard, A.}, J.\ Suckale, and L.\ Goren
404 ``The role of granular mechanics and porous flow for ice
405 sheet behavior in a changing climate''.
406 7th European Seminar on Computing (ESCO) 2020, Pilsen, Czech Republic.
407
408 \item \textbf{Damsgaard, A.}, J.\ Suckale, J.\ A.\ Piotrowski, M.\
409 Houssais, M.\ R.\ Siegfried, and H.\ A.\ Fricker
410 ``Subglacial channelized drainage on soft beds and implications for
411 grounding-line dynamics''.
412 Geological Society of America Annual Meeting 2017, Seattle, WA, USA.\@
413
414 \item \textbf{Damsgaard, A.}, D.\ L.\ Egholm, J.\ Suckale, J.\ A.\
415 Piotrowski, M.\ Houssais, M.\ R.\ Siegfried, and H.\ A.\ Fricker
416 ``Grain-scale numerical modeling of granular mechanics and fluid
417 dynamics''.
418 Week's lecturer at University of Wisconsin Madison, Department of
419 Geoscience, November 2017.
420
421 \item \textbf{Damsgaard, A.}, D.\ L.\ Egholm, S.\ Tulaczyk, J.\ A.\
422 Piotrowski, N.\ K.\ Larsen, M.\ R.\ Siegfried, L.\ H.\ Beem, and J.\
423 Suckale
424 ``Subglacial sediment mechanics investigated by computer simulation of
425 granular material''.
426 American Geophysical Union Fall Meeting 2016, San Francisco, CA, USA.\@
427
428 \item \textbf{Damsgaard, A.}, D.\ L.\ Egholm, S.\ Tulaczyk, N.\ K.\ Larsen,
429 J.\ A.\ Piotrowski, M.\ R.\ Siegfried, L.\ H.\ Beem, J.\ Suckale, and
430 L.\ Goren
431 ``Grain-scale numerical modeling of granular mechanics and fluid
432 dynamics''.
433 Stanford University, Department of Geoscience, July 2016.
434
435 \item \textbf{Damsgaard, A.}, D.\ L.\ Egholm, L.\ H.\ Beem, S.\ Tulaczyk, N.\
436 K.\ Larsen, J.\ A.\ Piotrowski, and M.\ R.\ Siegfried
437 ``Grain-scale numerical modeling of granular mechanics and fluid
438 dynamics and application in a glacial context''. Keynote speaker at
439 Community Surface Dynamics Modeling System (CSDMS) Annual Meeting,
440 March 2016, Boulder, CO, USA.\@
441
442 \end{etaremune}
443
444 \subsection*{Oral presentations}
445 \begin{etaremune}[leftmargin=0in,topsep=0in,parsep=0in]
446
447 \item \textbf{Damsgaard, A.}, J.\ A.\ Piotrowski, I.\ Madden, J.\ Suckale, K.\ K.\ S\o{}rensen
448 ``Process-based modeling of glacial till advection''.
449 American Geophysical Union Fall Meeting 2021, New Orleans, LA, USA.\@
450
451
452 \item \textbf{Damsgaard, A.}, O.\ Sergienko, and A.\ Adcroft
453 ``Floe-scale ridging in discrete element models for sea ice''.
454 Workshop: Modeling the Granular Nature of Sea Ice, 2021, Online, WA, USA.\@
455
456 \item Suckale, J., I.\ Kasmalkar, \textbf{A.\ Damsgaard}, E.\ Mantelli, A.\
457 Cabrales-Vargas, D.\ Li, L.\ Goren, and C.\ Elsworth
458 ``Progress on understanding the subglacial hydrology over till beds with
459 ramifications for ice dynamics and sediment transport''.
460 International Glaciological Society Meeting on Glacial Erosion and
461 Sedimentation 2019, Madison, WI, USA.\@
462
463 \item Piotrowski, J.\ A., M.\ B.\ Holdensen, \textbf{A.\ Damsgaard},
464 W.\ Narloch, S.\ Carr, and N.\ K.\ Larsen
465 ``The ice/bed interface in past ice sheets constrained by field,
466 experimental and numerical studies''.
467 International Glaciological Society Meeting on Glacial Erosion and
468 Sedimentation 2019, Madison, WI, USA.\@
469
470 \item \textbf{Damsgaard, A.}, J.\ Suckale (presenting author), and L.\ Goren
471 ``A new continuum model for till consistent with granular
472 mechanics''.
473 American Geophysical Union Fall Meeting 2019, San Francisco, CA,
474 USA.\@
475
476 \item I.\ Kasmalkar, \textbf{Damsgaard, A.}, L.\ Goren, J.\ Suckale,
477 and A.\ Cabrales-Vargas
478 ``Subglacial sediment beds resist fast ice flow by facilitating
479 meltwater drainage''.
480 American Geophysical Union Fall Meeting 2019, San Francisco, CA, USA.\@
481
482 \item \textbf{Damsgaard, A.}, J.\ Suckale, D.\ Li, I.\ Kasmalkar, J.\
483 Amundson, L.\ Goren, A.\ Cabrales-Vargas
484 ``A new continuum model for subglacial till based on granular
485 rheology''.
486 International Glaciological Society Meeting on Glacial Erosion and
487 Sedimentation 2019, Madison, WI, USA.\@
488
489 \item \textbf{Damsgaard, A.}, O.\ Sergienko, and A.\ Adcroft
490 ``Lagrangian methods for modeling compressive failure in sea ice across
491 scales''.
492 American Geophysical Union Fall Meeting 2018, Washington, D.C., USA.\@
493
494 \item Suckale, J., C.\ Wheeler Elsworth, I.\ Kasmalkar, E.\ Mantelli,
495 \textbf{A.\ Damsgaard}, J.\ D.\ Platt, T.\ Perol, J.\ R.\ Rice, and L.\
496 Goren
497 ``The surface as a window into the subsurface: Lessons from
498 Antarctica''.
499 American Geophysical Union Fall Meeting 2018, Washington, D.C., USA.\@
500
501 \item Suckale, J., C.\ Wheeler Elsworth, E.\ Mantelli, I.\ Kasmalkar,
502 \textbf{A.\ Damsgaard}, J.\ D.\ Platt, T.\ Perol, J.\ R.\ Rice, and L.\
503 Goren
504 ``Process-based models for ice-stream shear margins''.
505 American Geophysical Union Fall Meeting 2018, Washington, D.C., USA.\@
506
507 \item Piotrowski, J.\ A., M.\ B.\ Holdensen, W.\ Narloch, S.\ Carr, and
508 \textbf{A.\ Damsgaard}
509 ``Laboratory experiments on till deformation: constraining the
510 subglacial processes''.
511 CANQUA/AMQUA, Ottawa, Canada.
512
513 \item Piotrowski, J.\ A.\, M.\ B.\ Holdensen, W.\ Narloch, S.\ Carr,
514 \textbf{A.\ Damsgaard}, N.\ K.\ Larsen
515 ``Subglacial till deformation constrained by laboratory experiments''.
516 European Geosciences Union, General Assembly 2018, Vienna, Austria,
517 EGU2018\textendash{}8662.
518
519 \item Piotrowski, J.\ A.\, M.\ Bering Holdensen, W.\ Narloch, \textbf{A.\
520 Damsgaard}, N.\ K.\ Larsen
521 ``Subglacial till deformation: Lessons from laboratory experiments''.
522 Nordic Geological Winter Meeting 2018, Copenhagen, Denmark.
523
524 \item \textbf{Damsgaard, A.}, A.\ Adcroft, O.\ Sergienko, and A.\ Stern
525 ``Discrete-element simulation of sea-ice mechanics: Contact mechanics
526 and granular jamming''.
527 American Geophysical Union Fall Meeting 2017, New Orleans, LA, USA.\@
528
529 \item Kasmalkar, I., \textbf{A.\ Damsgaard}, A.\ Cabrales-Vargas, J.\
530 Suckale, and L.\ Goren
531 ``Grain-scale investigation of grain and melt-water interaction and
532 implications for the dynamics of ice flow over soft sediments''.
533 6th Biot Conference on Poromechanics 2017, Paris, France.
534
535 \item Suckale, J., C.\ W.\ Elsworth, \textbf{A.\ Damsgaard}, L.\ Goren, A.\
536 Cabrales, D.\ Li, I.\ Kasmalkar, and S.\ Maldonado
537 ``Taking advantage of the predictive potential of process-based models
538 for ice exploration''.
539 American Geophysical Union Fall Meeting 2016, San Francisco, CA, USA.\@
540
541 \item \textbf{Damsgaard, A.}, D.\ L.\ Egholm, L.\ H.\ Beem, S.\ Tulaczyk, N.\
542 K.\ Larsen, J.\ A.\ Piotrowski, and M.\ R.\ Siegfried
543 ``Creep and stick-slip in subglacial granular beds forced by variations
544 in water pressure''.
545 West Antarctic Ice Sheet Workshop 2016, VA, USA.\@
546
547 \item \textbf{Damsgaard, A.}, D.\ L.\ Egholm, L.\ H.\ Beem, S.\ Tulaczyk, N.\
548 K.\ Larsen, J.\ A.\ Piotrowski, and M.\ R.\ Siegfried
549 ``Creep and stick-slip in subglacial granular beds forced by ocean
550 tides''.
551 International Glaciological Society, International Symposium on
552 Interactions of Ice Sheets and Glaciers with the Ocean, 2016,
553 La Jolla, CA, USA.\@
554
555 \item \textbf{Damsgaard, A.}, D.\ L.\ Egholm, J.\ A.\ Piotrowski, S.\
556 Tulaczyk, and N.\ K.\ Larsen
557 ``Oscillations in till strength due to particle-fluid feedbacks''.
558 International Union for Quaternary Research Congress, 2015,
559 Nagoya, Japan.
560
561 \item Piotrowski, J.\ A., K.\ Tylmann, W.\ Narloch, W.\ Wysota,
562 \textbf{A.\ Damsgaard}, D.\ L.\ Egholm, N.\ K.\ Larsen, and J.\
563 Lesemann.
564 ``A soft-bed system under the Scandinavian Ice Sheet: Mosaic of stable
565 and deforming spots''.
566 Abstract from 31st Nordic Geological Winter Meeting 2014, Lund, Sweden.
567
568 \item \textbf{Damsgaard, A.}, D.\ L.\ Egholm, J.\ A.\ Piotrowski, S.\
569 Tulaczyk, and N.\ K.\ Larsen
570 ``Discrete element modeling of subglacial sediment deformation''.
571 American Geophysical Union Fall Meeting 2013, San Francisco, CA,
572 USA.\@
573
574 \item Br\ae{}dstrup, C.\ F., D.\ L.\ Egholm, S.\ V.\ Ugelvig, \textbf{A.\
575 Damsgaard}, and J.\ L.\ Andersen
576 ``Feedbacks between subglacial dynamics and long-term glacial landscape
577 evolution''.
578 American Geophysical Union Fall Meeting 2013, San Francisco, CA, USA.\@
579
580 \item Piotrowski, J.\ A., K.\ Tylmann, W.\ Narloch, W.\ Wysota, \textbf{A.\
581 Damsgaard}, D.\ L.\ Egholm, N.\ K.\ Larsen, and J.\ Lesemann
582 ``Subglacial mosaic of stable and deforming spots under the Scandinavian
583 Ice Sheet: field, laboratory and numerical data''.
584 Canadian Quaternary Association biannual meeting, August 2013,
585 Edmonton, Canada.
586
587 \end{etaremune}
588
589 \subsection*{Poster presentations}
590 \begin{etaremune}[leftmargin=0in,topsep=0in,parsep=0in]
591
592 \item Kasmalkar, I., \textbf{A.\ Damsgaard}, L.\ Goren, J.\ Suckale, and
593 A.\ Cabrales-Vargas
594 ``Subglacial Channelization Through Till Deformation and Failure at the
595 Shear Margin''.
596 American Geophysical Union Fall Meeting 2018, Washington, D.C., USA.\@
597
598 \item Li, D., J.\ Suckale, A.\ Cabrales, and \textbf{A.\ Damsgaard}
599 ``Till dynamics underneath ice streams with a nonlocal dense granular
600 flow model''.
601 American Geophysical Union Fall Meeting 2016, San Francisco, CA, USA.\@
602
603 \item Cabrales-Vargas, A., J.\ Suckale, \textbf{A.\ Damsgaard}, and L.\
604 Goren
605 ``Spatially variable till deformation and water transport in ice-stream
606 shear margins from numerical simulations''.
607 American Geophysical Union Fall Meeting 2016, San Francisco, CA, USA.\@
608
609 \item \textbf{Damsgaard, A.}, D.\ L.\ Egholm, J.\ A.\ Piotrowski, S.\
610 Tulaczyk, N.\ K.\ Larsen, and C.\ F.\ Br\ae{}dstrup
611 ``Numerical modeling of particle-fluid mixtures in a subglacial
612 setting''.
613 American Geophysical Union Fall Meeting 2014, San Francisco,
614 CA, USA.\@
615
616 \item \textbf{Damsgaard, A.}, D.\ L.\ Egholm, J.\ A.\ Piotrowski, S.\
617 Tulaczyk, and N.\ K.\ Larsen
618 ``Numerical modelling of granular subglacial deformation using the
619 discrete element method''.
620 European Geosciences Union, General Assembly 2013, Vienna, Austria,
621 EGU2013\textendash{}4026.
622
623 \item \textbf{Christensen, A.\ D.}, D.\ L.\ Egholm, J.\ A.\ Piotrowski, and
624 S.\ Tulaczyk
625 ``Discrete element modelling of subglacial sediment deformation''.
626 European Geosciences Union, General Assembly 2012, Vienna, Austria,
627 EGU2012\textendash{}2931.
628
629 \item Clausen, O.\ R., D.\ L.\ Egholm, R.\ Wesenberg, and \textbf{A.\ D.\
630 Christensen} (presenting author)
631 ``Salt movements and faulting of the overburden \textemdash{} can numerical
632 modeling predict the fault patterns above salt structures''.
633 European Geosciences Union, General Assembly 2012, Vienna, Austria,
634 EGU2012\textendash{}1615.
635
636 \item \textbf{Christensen, A.\ D.}, D.\ L.\ Egholm, and J.\ A.\ Piotrowski
637 ``Numerical modelling of sediment deformation by glacial stress''.
638 International Union for Quaternary Research Congress 2011,
639 Bern, Switzerland.
640
641 \item \textbf{Christensen, A.\ D.}, D.\ L.\ Egholm, and J.\ A.\ Piotrowski
642 ``Numerical modelling of subglacial sediment deformation''.
643 European Geosciences Union, General Assembly 2011, Vienna, Austria,
644 EGU2011\textendash{}7829.
645
646 \end{etaremune}
647
648 \section*{Professional affiliations}
649 \begin{itemize}[leftmargin=0in,topsep=0in,parsep=0in]
650 \item Member, Danish Geotechnical Society (2022\textendash{}present)
651 \item Board Member, Geological Society of Denmark (2021\textendash{}2023)
652 \item Member, Geological Society of Denmark (2023\textendash{}present)
653 \item Member, American Geophysical Union (2013\textendash{}present)
654 \item Member, Geological Society of America (2017\textendash{}present)
655 \item Member, International Glaciological Society (2015\textendash{}present)
656 \item Member, European Geosciences Union (2011\textendash{}present)
657 \item Member, CICE Consortium (2017\textendash{}2019)
658 \end{itemize}
659
660 \section*{Select activities in programming and high-performance computing}
661 For a full list of public projects, please see my Git repository at \url{https://src.adamsgaard.dk}.\\
662
663 \begin{itemize}[leftmargin=0in,topsep=0in,parsep=0in]
664
665 \item Proficient programmer in C, C\texttt{++}, OpenMP, MPI, Python, CUDA
666 C, MAT\-LAB, Julia, HTML, CSS, Javascript, Go,
667 PostgreSQL, sh/sed/awk, \LaTeX{}, and Linux/Unix operating
668 system environments.
669
670 \item Creator of \textbf{sphere}, a three-dimensional discrete element
671 method algorithm with optional fluid coupling. Written in CUDA C, C++,
672 and Python for GPU-based simulation of grain and fluid dynamics.
673 Uses Doxygen software reference documentation and unit testing.
674 Free and open-source licensed.
675 \url{https://src.adamsgaard.dk/sphere}
676
677 \item Creator of \textbf{Granular.jl}, a two-dimensional discrete element
678 method algorithm for sea-ice simulation with coupling to NOAA ocean and
679 atmosphere models. Written in Julia.
680 Uses Travis-CI automated testing and is fully documented at
681 \url{https://anders-dc.github.io/Granular.jl/latest/}.
682 Free and open-source licensed.
683 \url{https://src.adamsgaard.dk/Granular.jl}
684
685 \item Creator of \textbf{cosmo.au.dk}, a webpage for inversion of
686 cosmogenic nuclide concentrations. Consists of a responsive front end
687 using HTML and Angular and JQuery Javascript libraries, backed by PHP
688 for queuing and MATLAB for numerical inversion. The service is running
689 on a Ubuntu GNU/Linux virtual machine.
690 \url{https://cosmo.au.dk}
691
692 \item Creator of \textbf{lbm-d3q19}, a three-dimensional lattice-Boltzmann
693 solver for incompressible Navier-Stokes fluid flow. Written in C with
694 OpenMP parallelization.
695 Free and open-source licensed.
696 \url{https://src.adamsgaard.dk/lbm-d3q19}
697
698 \item Designed, constructed, and maintained a Dell/NVIDIA 192 CPU-core GPU
699 cluster, Aarhus University. Debian GNU/Linux and Torque/MAUI
700 resource management and sche\-du\-ling.
701
702 \item Technical reviewer for ``Getting Started with Tmux'', Packt
703 Publishing 2014. Tmux is a software application for terminal
704 multiplexing, useful for dealing with multiple programs from a
705 command-line interface.
706
707 \item Contributor to \textbf{Icepack} and \textbf{CICE}, numerical codes
708 for sea-ice column physics and dynamics.
709 Written in Fortran.
710 \url{https://github.com/CICE-Consortium}
711
712 Craig, T., E.\ Hunke, A.\ DuVivier, A.\ Dabail, \textbf{A.\ Damsgaard},
713 J.\ F.\ Lemieux, P.\ Blain, M.\ Turner, Mhrib, T.\ Rasmussen, N.\
714 Jeffery
715 ``CICE-Consortium: CICE version 6.0.0, Icepack version 1.1.0''.
716 \url{https://doi.org/10.5281/zenodo.1900639}
717
718 \item Creator or the \textbf{scholarref} toolset for automated
719 \LaTeX{} reference management. Written in POSIX shell.
720 Free and open-source licensed.
721 \url{https://adamsgaard.dk/scholarref.html}
722
723 \item Developer of QGIS plugins and experienced GeoScene3D user.
724
725 \end{itemize}
726
727 \section*{Service to the field}
728 \noindent Reviewer for the following agencies and academic journals:
729 \begin{itemize}[leftmargin=1em,topsep=0.5em,parsep=0in]
730 \item National Science Foundation
731 \item Nature Geoscience
732 \item Communications Earth \& Environment
733 \item Journal of Glaciology
734 \item Quaternary Science Reviews
735 \item The Cryosphere
736 \item Journal of Geophysical Research
737 \item Ocean Modelling
738 \item Boreas
739 \item Earth Surface Processes and Landforms
740 \item Journal of Advances Modeling Earth Systems
741 \item E\&G Quaternary Science Journal
742 \end{itemize}
743
744 \section*{Teaching}
745
746 \begin{itemize}[leftmargin=0in,topsep=0in,parsep=0in]
747
748 \item Lecturer, The Geology of Denmark. 5 ECTS, mandatory B.Sc.\ course.
749 Lectures, hands-on exercises, field excursions.
750 Aarhus University, spring semester 2020 and 2021.
751
752 \item Lecturer, Equinor Field Course on Glacial Geology.
753 Geo and GEUS, 2023\textendash{}2024.
754
755 \item Lecturer, Quaternary Geology, 10 ECTS, mandatory B.Sc.\ course.
756 Lectures, laboratory exercises, field excursion.
757 Aarhus University, 2020\textendash{}2025.
758
759 \item Advanced Water Cycle Management Ph.D. Course, Aarhus University. Lecture on
760 “The geological settings in Denmark and their impact on the groundwater system”,
761 August 2021 and 2022.
762
763 \item Completed the Aarhus University Teacher Training Program on pedagogy
764 and learning design, providing a theoretical and practical basis for
765 delivering excellence in university teaching. Spring 2021.
766
767 \item Lecturer, workshop on granular modeling using the discrete element
768 method. University of Wisconsin-Madison, Department of Geoscience,
769 November 2017.
770
771 \item Guest teacher in SIO 209 “Palaeoclimate seminar”, Scripps
772 Institution of Oceanography. Gave class on subglacial friction and ice
773 sheet stability. April 2016.
774
775 \item Guest teacher in SIO 115 “Ice in the Climate System”, Scripps
776 Institution of Oceanography. Gave class on glacier dynamics and
777 subglacial mechanics and hydrology. March 2016.
778
779 \end{itemize}
780
781 \section*{Supervision}
782
783 \begin{itemize}[leftmargin=0in,topsep=0in,parsep=0in]
784
785 \item 2023: 7 B.Sc.\ students, Department of Geoscience, Aarhus University:
786 Adam Petterson,
787 Ahadi Ruganiza,
788 Anders Sørensen,
789 Frederick Hornung,
790 Gitte Bertelsen,
791 Lærke Ditlevsen,
792 Lisbeth Pedersen.
793
794 \item 2022:
795 Morten Jessen: M.Sc.\ student, Department of Geoscience,
796 Aarhus University.
797
798 \item 2022:
799 Franch Elbeck: B.Sc.\ student, Department of Geoscience,
800 Aarhus University.
801
802 \item 2021:
803 Asger A.\ Larsen: M.Sc.\ student, Department of Geoscience,
804 Aarhus University.
805
806 \item 2021:
807 Prayati Sharma: Erasmus Intern, Department of Geoscience,
808 Aarhus University.
809
810 \item 2021:
811 Louise Lassen: B.Sc.\ student, Department of Geoscience,
812 Aarhus University.
813
814 \item 2021-24:
815 Marie Winther: B.Sc.\ and M.Sc.\ student, Department of Geoscience,
816 Aarhus University.
817
818 \item 2020\textendash{}2021:
819 Ian Madden: Graduate student, Institute for Computational
820 \& Mathematical Engineering, Stanford University.
821
822 \item 2017\textendash{}2021:
823 Indraneel Kasmalkar: Graduate student, Department of
824 Geophysics, Stanford University.
825
826 \item 2018:
827 MonTre D.\ Hudson: Summer intern, Program in Atmospheric
828 and Oceanic Sciences, Princeton University.
829
830 \end{itemize}
831
832 \section*{Outreach}
833 \begin{itemize}[leftmargin=0in,topsep=0in,parsep=0in]
834
835 \item TV2 Go'Morgen Danmark, Danish national TV.
836 Segment on quicksand physics and risk in Denmark.
837 December 2023. \url{https://play.tv2.dk/afspil/edfda123-6db6-46bb-b21b-c996fc1e6093}
838
839 \item First grade in Lystrup Skole elementary school, Lystrup, Denmark.
840 Presentation on Greenland, fieldwork, and climate.
841 May 2022.
842
843 \item Forskningens døgn (The Festival of Research about Time), Aarhus University.
844 “Tidens tand på Jordens overflade” (The toll of time on the Earth surface).
845 Designed and staffed booth on Earth-surface processes and glaciations.
846 April 2022.
847
848 \item Aarhus University U-Days 2021 and 2022, one hour lecture
849 “Fremtiden for jordens iskapper: Findes svaret i geologien eller supercomputeren?”
850 on glaciology and climate change.
851 February 2022.
852
853 \item Geoscience internship days 2021, presentation and field
854 trip with highschool students.
855 November 2021.
856
857 \item DR1 Viden (Danish Broadcasting Corporation, science section
858 of public service radio and television broadcasting company)
859 article on quicksand in Denmark.
860 “Det bugner med kviksand i Danmark: Sådan kommer du op af de skjulte fælder”.
861 October 2021. \url{https://www.dr.dk/nyheder/viden/natur/det-bugner-med-kviksand-i-danmark-saadan-kommer-du-op-af-de-skjulte-faelder}
862
863 \item Branbjerg H\o{}jskole, two hour lecture
864 “Fra Is til Os” on glaciology and geomorphology in Denmark.
865 Salary donated to charity
866 \emph{Branbjerg H\o{}jskole elevst\o{}tteforening}.
867 October 2020.
868
869 \item Podcast interview (1 hour) “The Changelog” about climate
870 science and my research in glaciology. January 2020.
871 \url{https://changelog.com/podcast/378}
872
873 \item Article (two full pages) in danish newspaper “Nordjyske
874 Stifttidende” about my research on climate change and sediment
875 mechanics. September 2015.
876
877 \item Presentations about climate change and glaciology to high-school
878 teachers. Department of Geoscience, Aarhus University. October 2013.
879
880 \item Arranged introductory talks about the research activities of faculty
881 members. Aarhus University, 2012\textendash{}2013.
882
883 \item ``The Rolling University'' (Danish: ``Det Rullende Universitet''):
884 Held a series of lectures at local high schools about climate change.
885 Fall 2011.
886
887 \item ``Nature in the tent'' (Danish: ``Natur i teltet''): Public outreach
888 in the city center in Aarhus, Denmark. Summer 2009.
889
890 \end{itemize}
891
892 \subsection*{Teaching assistance at Aarhus University during Ph.D.\ studies}
893 \begin{itemize}[leftmargin=0in,topsep=0in,parsep=0in]
894
895 \item Theoretical Geophysics (exercises)
896 \item Geophysical Methods (exercises and field excursions)
897 \item Sedimentology (exercises)
898 \item Numerical Modeling (exercises)
899 \item Sedimentary Processes and Environments (classes, exercises, and field
900 excursions)
901 \item Introductory Petrology (classes and exercises)
902 \item Basin analysis and modeling (classes and exercises)
903 \item Geographical Information Systems (exercises)
904 \item Quaternary Sediments (classes and field excursion)
905 \item Geomodeling (exercises)
906 \item Palaeontology and stratigraphy (exercises)
907 \item Hydrology, soil processes, and dynamic geomorphology\\
908 (classes, exercises, and field excursion)
909
910 \end{itemize}
911
912 \end{document}