tcv.tex: update cv - cv - curriculum vitae
(HTM) git clone git://src.adamsgaard.dk/cv
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(HTM) Author: Anders Damsgaard <anders@adamsgaard.dk>
Date: Mon, 24 Mar 2025 09:58:10 +0100
cv.tex: update cv
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t@@ -103,36 +103,34 @@
\begin{tabular}{rl}
\\
%{Phone:} & +45 42 74 31 42\\ % chktex 8
- {Email:} & \url{anders@adamsgaard.dk}\\
- {Web:} & \url{https://adamsgaard.dk}\\
+ {Email:} & \url{anders@andersdamsgaard.dk}\\
+ {Web:} & \url{https://andersdamsgaard.dk}\\
%{Gopherspace:} & \url{gopher://adamsgaard.dk}\\
{ORCID:} & \url{https://orcid.org/0000-0002-9284-1709}\\
{Scopus:} & \url{https://www.scopus.com/authid/detail.uri?authorId=6602269102}\\
- %{Web of Science:} & \href{https://www.webofscience.com/wos/author/record/2594660}{https://www.webofscience.com/wos/author/record/2594660}\\
+ {Web of Science:} & \url{https://www.webofscience.com/wos/author/record/ABA-3996-2021}\\
\end{tabular}
\end{center}
-\section*{Short bio}
-I am a geoscientist with competences in geotechnics and computer science.
-I use field observations, numerical modeling, geophysics, programming,
-and data processing in order to understand Quaternary geology, sediment
-mechanics, and groundwater flow.
-\\
-
-
+%\section*{Short bio}
+%I am a geoscientist with competences in geotechnics and computer science.
+%I use field observations, numerical modeling, geophysics, programming,
+%and data processing in order to understand Quaternary geology, sediment
+%mechanics, and groundwater flow.
+%\\
\section*{Professional experience}
\begin{itemize}[leftmargin=1in,topsep=0in,parsep=0.5em,labelwidth=0.9in,align=left]
%\begin{itemize}[leftmargin=1in,topsep=0in,parsep=0.5em]
\item[2023\textendash{}Present] \textbf{\large Geo}\\
- \emph{Project Manager, Geodata, Aarhus}
+ \emph{Senior Specialist, Geodata, Aarhus}
\begin{itemize}[leftmargin=0.2in,topsep=0in,parsep=0in]
- \item Integration and processing of geological, geotechnical, and geophysical databases
- \item Software architecture and engineering
- \item Microservice design, orchestration and monitoring
+ \item Geological 3D modeling using geological, geotechnical, and geophysical field surveys and databases
+ \item Software architecture and engineering: Microservice design, orchestration and monitoring
\item Key technologies: Linux, Pub/sub via MQTT, containerization, Go, Python, Grafana, PostgreSQL, TimescaleDB, Redis InfluxDB
\item Automated processing of geophysical data (C, OpenMP, HPC Linux)
+ \item InSAR analysis
\end{itemize}
\item[2023\textendash{}Present] \textbf{\large Aarhus University}\\
t@@ -141,21 +139,22 @@ mechanics, and groundwater flow.
B.Sc.\ course: Quaternary Geology (10 ECTS)
\item[2020\textendash{}2023] \textbf{\large Aarhus University}\\
- \emph{Assistant Professor (tenure track) }nd Postdoc\\
+ \emph{Assistant Professor (tenure track) and Postdoc}\\
Department of Geoscience
\begin{itemize}[leftmargin=0.2in,topsep=0in,parsep=0in]
\item High-performance computing (Linux, Nvidia CUDA)
\item System administration, data analysis, scientific reporting
\item Computational modeling of tunnel valley formation from sediment mechanics and groundwater flow
- \item Modeling of surface water flow using Python and Landlab
+ \item Modeling of water flow
\end{itemize}
- Courses: Quaternary Geology (10 ECTS), Geotechnical Field Course (5 ECTS), Greenland Field Course (5 ECTS)
+ Courses: Quaternary Geology (10 ECTS), Greenland Field Course (5 ECTS)
\item[2019\textendash{}2020] \textbf{\large Stanford University}\\
\emph{Independent Consultant}\\
Department of Geophysics
%Visiting researcher at Aarhus University, Department of Geoscience
\begin{itemize}[leftmargin=0.2in,topsep=0in,parsep=0in]
+ \item Glacial sediment advection modeling
\item Development of continuum methods for multi-phase granular flows
\item High-performance computing (C, MPI/OpenMP, shell, UNIX)
\item Continuum and discrete modeling of ice-water-sediment systems
t@@ -208,18 +207,18 @@ mechanics, and groundwater flow.
\section*{Education}
\begin{itemize}[leftmargin=1in,topsep=0in,parsep=0.5em,labelwidth=0.9in,align=left]
- \item[2013\textendash{}15] \textbf{\large Aarhus University: Ph.D.}\\
+ \item[2013\textendash{}15] \textbf{Aarhus University: Ph.D.}\\
Department of Geoscience.
Courses in computer graphics and high-performance computing at Department of Computer Science.\\
- Ph.D.\ thesis title: \emph{“Numerical modeling of subglacial sediment
- deformation”}\\
+ Ph.D.\ thesis title: \emph{``Numerical modeling of subglacial sediment
+ deformation''}\\
Ph.D.\ project of the year within the Faculty and Science and Technology 2015.\\
\emph{Supervisors:} David L.\ Egholm and Jan A.\ Piotrowski.\\
Thesis download: \url{https://adamsgaard.dk/ad-thesis.pdf}
- \item[2010\textendash{}13] \textbf{\large Aarhus University: M.Sc.}, Department of Geoscience.
+ \item[2010\textendash{}13] \textbf{Aarhus University: M.Sc.}, Department of Geoscience.
- \item[2006\textendash{}10] \textbf{\large Aarhus University: B.Sc.}, Department of Geoscience.
+ \item[2006\textendash{}10] \textbf{Aarhus University: B.Sc.}, Department of Geoscience.
\end{itemize}
t@@ -229,7 +228,7 @@ mechanics, and groundwater flow.
\begin{itemize}[leftmargin=0.75in,topsep=0in,parsep=0.5em,labelwidth=0.65in,align=left]
\item[2022\textendash{}2025] Bundesgesellschaft f\"ur Endlagerung, Germany:\\
- \emph{“Dynamical modelling of subglacial meltwater erosion during past and future glaciations”}.\\
+ \emph{``Dynamical modelling of subglacial meltwater erosion during past and future glaciations''}.\\
A.\ Damsgaard, J.\ A.\ Piotrowski (AU), J.\ Winsemann (Leibniz University Hannover, LUH).\\
Funding for one two-year postdoc at AU, and one two-year postdoc at LUH.
EUR 547.835.
t@@ -258,8 +257,23 @@ mechanics, and groundwater flow.
\end{itemize}
-\section*{Publications}
+\section*{Publications (h-index 9)}
\begin{etaremune}[leftmargin=0in,topsep=0in,parsep=0in]
+
+ \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,
+ ``A giant Early Holocene tsunamigenic rock-ice avalanche in South Greenland preconditioned by glacial thinning''.
+ \emph{Submitted to Geomorphology}.
+
+ \item Svendsen, M.\ W., S.\ M.\ Kristiansen, V.\ K.\ Pedersen and \textbf{A.\ Damsgaard} 2024
+ ``Mit livs dessert: 100-års jubilæet for Ellen Louise Mertz' studie af niveauforandringer i Danmark''
+ (en: ``The dessert of my life: the 100-year anniversary of Ellen Louise Mertz' studies of elevation changes in Denmark'').
+ \emph{Geologisk Tidsskrift}.
+ \url{https://2dgf.dk/publikationer/geologisk-tidsskrift/geologisk-tidsskrift-2024/#7}
+
+ \item Andersen, J.\ D., L.\ B\o{}dker, J.\ Dolby, \textbf{A.\ Damsgaard}, and N.\ Okkels 2024
+ ``Foundation on organic diatomite''.
+ \emph{Proceedings of the 19th Nordic Geotechnical Meeting}.
+ %\url{https://doi.org/10.1029/2021JF006460}
\item Svendsen, M.\ W., S.\ M.\ Kristiansen, V.\ K.\ Pedersen and \textbf{A.\ Damsgaard} 2024
“Mit livs dessert: 100-års jubilæet for Ellen Louise Mertz' studie af niveauforandringer i Danmark”
t@@ -273,81 +287,81 @@ mechanics, and groundwater flow.
%\url{https://doi.org/10.1029/2021JF006460}
\item Kasmalkar, I., \textbf{A.\ Damsgaard}, L.\ Goren, and J.\ Suckale 2022
- “Shear variation at the ice-till interface changes the
- spatial distribution of till porosity and meltwater drainage”.
- \emph{Journal of Geophysical Research: Earth Surface}.
- \url{https://doi.org/10.1029/2021JF006460}
+ ``Shear variation at the ice-till interface changes the
+ spatial distribution of till porosity and meltwater drainage''.
+ \emph{Journal of Geophysical Research: Earth Surface}. ISI WoS Article.
+ \url{https://doi.org/10.1029/2021JF006460}. ISI WoS article.
\item \textbf{Damsgaard, A.}, O.\ Sergienko, and A.\ Adcroft 2021
- “The effects of ice floe-floe interactions on pressure ridging in sea ice”.
- \emph{Journal of Advances in Modeling Earth Systems}, vol.\ 13.
- \url{https://doi.org/10.1029/2020MS002336}
+ ``The effects of ice floe-floe interactions on pressure ridging in sea ice''.
+ \emph{Journal of Advances in Modeling Earth Systems}, vol.\ 13. ISI WoS Article.
+ \url{https://doi.org/10.1029/2020MS002336}. ISI WoS article.
\item \textbf{Damsgaard, A.}, L.\ Goren, and J.\ Suckale 2020
- “Water pressure fluctuations control variability in sediment
- flux and slip dynamics beneath glaciers and ice streams”.
- \emph{Communications Earth \& Environment}, vol.\ 1(66).
- \url{https://doi.org/10.1038/s43247-020-00074-7}
+ ``Water pressure fluctuations control variability in sediment
+ flux and slip dynamics beneath glaciers and ice streams''.
+ \emph{Communications Earth \& Environment}, vol.\ 1(66). ISI WoS Article.
+ \url{https://doi.org/10.1038/s43247-020-00074-7}. ISI WoS article.
\item \textbf{Damsgaard, A.}, A.\ Adcroft, and O.\ Sergienko 2018
- “Application of discrete-element methods to approximate sea-ice
- dynamics”.
+ ``Application of discrete-element methods to approximate sea-ice
+ dynamics''.
\emph{Journal of Advances in Modeling Earth Systems}, vol.\ 10,
2228\textendash{}2244.
- \url{https://doi.org/10.1029/2018MS001299}
+ \url{https://doi.org/10.1029/2018MS001299}. ISI WoS article.
\item Bateman, M.\ D., D.\ A.\ Swift, J.\ A.\ Piotrowski, E.\ J.\ Rhodes,
\textbf{Damsgaard, A.} 2018
- “Can glacial shearing of sediment reset the signal used for
- luminescence dating?”.
+ ``Can glacial shearing of sediment reset the signal used for
+ luminescence dating?''.
\emph{Geomorphology}, vol.\ 306, 90\textendash{}101.
- \url{https://doi.org/10.1016/j.geomorph.2018.01.017}
+ \url{https://doi.org/10.1016/j.geomorph.2018.01.017}. ISI WoS article.
\item \textbf{Damsgaard, A.}, J.\ Suckale, J.\ A.\ Piotrowski, M.\
Houssais, M.\ R.\ Siegfried, and H.\ A.\ Fricker 2017
- “Sediment behavior controls equilibrium width of subglacial
- channels”.
+ ``Sediment behavior controls equilibrium width of subglacial
+ channels''.
\emph{Journal of Glaciology}, vol.\ 63, 1034\textendash{}1048.
- \url{https://doi.org/10.1017/jog.2017.71}
+ \url{https://doi.org/10.1017/jog.2017.71}. ISI WoS article.
\item \textbf{Damsgaard, A.}, A.\ Cabrales-Vargas, J.\ Suckale, and L.\ Goren
2017
- “The coupled dynamics of meltwater percolation and granular
+ ``The coupled dynamics of meltwater percolation and granular
deformation in the sediment layer underlying parts of the big ice
- sheets”.
+ sheets''.
\emph{Poromechanics VI}.
- \url{https://doi.org/10.1061/9780784480779.024}
+ \url{https://doi.org/10.1061/9780784480779.024}. ISI WoS proceedings.
\item \textbf{Damsgaard, A.}, D.\ L.\ Egholm, L.\ H.\ Beem, N.\ K.\ Larsen,
S.\ Tulaczyk, J.\ A.\ Piotrowski, and M.\ R.\ Siegfried 2016
- “Ice flow dynamics forced by water pressure variations in subglacial
- granular beds”.
+ ``Ice flow dynamics forced by water pressure variations in subglacial
+ granular beds''.
\emph{Geophysical Research Letters}, vol.\ 43, \num{12165}–\num{12173}.
- \url{https://doi.org/10.1002/2016GL071579}
+ \url{https://doi.org/10.1002/2016GL071579}. ISI WoS article.
\item \textbf{Damsgaard, A.}, D.\ L.\ Egholm, J.\ A.\ Piotrowski, S.\
Tulaczyk, N.\ K.\ Larsen, and C.\ F.\ Br\ae{}dstrup
2015
- “A new methodology to simulate subglacial deformation of
- water-saturated granular material”.
+ ``A new methodology to simulate subglacial deformation of
+ water-saturated granular material''.
\emph{The Cryosphere},
vol.\ 9, 2183\textendash{}2200.\\
- \url{https://doi.org/10.5194/tc-9-2183-2015} % chktex 8
+ \url{https://doi.org/10.5194/tc-9-2183-2015}. ISI WoS article. % chktex 8
\item Br\ae{}dstrup, C.\ F., \textbf{A.\ Damsgaard}, and D.\ L.\ Egholm
2014
- “Ice-sheet modelling accelerated by graphics cards”.
+ ``Ice-sheet modelling accelerated by graphics cards''.
\emph{Computers \& Geosciences},
vol.\ 72, 210\textendash{}220.\\
- \url{https://doi.org/10.1016/j.cageo.2014.07.019}
+ \url{https://doi.org/10.1016/j.cageo.2014.07.019}. ISI WoS article.
\item \textbf{Damsgaard, A.}, D.\ L.\ Egholm, J.\ A.\ Piotrowski, S.\
Tulaczyk, N.\ K.\ Larsen, and K.\ Tylmann
2013
- “Discrete element modeling of subglacial sediment deformation”.
+ ``Discrete element modeling of subglacial sediment deformation''.
\emph{Journal of Geophysical Research:\ Earth Surface},
vol.\ 118, 2230\textendash{}2242.
- \url{https://doi.org/10.1002/2013JF002830}
+ \url{https://doi.org/10.1002/2013JF002830}. ISI WoS article.
\end{etaremune}
t@@ -358,70 +372,70 @@ mechanics, and groundwater flow.
\begin{etaremune}[leftmargin=0in,topsep=0in,parsep=0in]
\item \textbf{Damsgaard, A.}, D.\ Hansen, and L.\ Zoet
- “Subglacial landforms from variations in modeled sediment flux”
+ ``Subglacial landforms from variations in modeled sediment flux''.
Geological Society of America Annual Meeting 2022, Session EP015 - Landscape evolution beneath and beyond the ice, Chicago, IL, USA.
\item \textbf{Damsgaard, A.}
- “Coupled modeling of ice, subglacial sediment, and glacier hydrology”
+ ``Coupled modeling of ice, subglacial sediment, and glacier hydrology''.
8th European Seminar on Computing (ESCO) June 2022, Pilsen, Czech Republic.
\item \textbf{Damsgaard, A.}
- “Sediment transport in an ice flow model: Implications for marine-terminating ice sheets”
+ ``Sediment transport in an ice flow model: Implications for marine-terminating ice sheets''.
European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS), June 2022, Oslo, Norway.
\item \textbf{Damsgaard, A.}
- “Glacial reshaping of the Earth Surface: From geological observations to modeling”
+ ``Glacial reshaping of the Earth Surface: From geological observations to modeling''.
University of Oxford Mathematical Geosciences seminar, 2022-03-11
\item \textbf{Damsgaard, A.}
- “Interactions between ice and till: From geological observations to modeling”
+ ``Interactions between ice and till: From geological observations to modeling”
ETH Z\"urich, VAW Glaciology seminar, 2022-03-03
\item \textbf{Damsgaard, A.}, J.\ A.\ Piotrowski, I.\ Madden,
J.\ Suckale, and K.\ K.\ S\o{}rensen
- “Approaches to modeling subglacial till deformation”
+ ``Approaches to modeling subglacial till deformation''.
Maths on Ice seminar, 2022-01-10
\item \textbf{Damsgaard, A.}, O.\ Sergienko, and A.\ Adcroft
- “Sea-ice ridging in discrete element models”.
+ ``Sea-ice ridging in discrete element models''.
European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS), June 2021, Valencia, Spain.
\item \textbf{Damsgaard, A.}, J.\ Suckale, and L.\ Goren
- “The role of granular mechanics and porous flow for ice
- sheet behavior in a changing climate”.
+ ``The role of granular mechanics and porous flow for ice
+ sheet behavior in a changing climate''.
7th European Seminar on Computing (ESCO) 2020, Pilsen, Czech Republic.
\item \textbf{Damsgaard, A.}, J.\ Suckale, J.\ A.\ Piotrowski, M.\
Houssais, M.\ R.\ Siegfried, and H.\ A.\ Fricker
- “Subglacial channelized drainage on soft beds and implications for
- grounding-line dynamics”.
+ ``Subglacial channelized drainage on soft beds and implications for
+ grounding-line dynamics''.
Geological Society of America Annual Meeting 2017, Seattle, WA, USA.\@
\item \textbf{Damsgaard, A.}, D.\ L.\ Egholm, J.\ Suckale, J.\ A.\
Piotrowski, M.\ Houssais, M.\ R.\ Siegfried, and H.\ A.\ Fricker
- “Grain-scale numerical modeling of granular mechanics and fluid
- dynamics”.
+ ``Grain-scale numerical modeling of granular mechanics and fluid
+ dynamics''.
Week's lecturer at University of Wisconsin Madison, Department of
Geoscience, November 2017.
\item \textbf{Damsgaard, A.}, D.\ L.\ Egholm, S.\ Tulaczyk, J.\ A.\
Piotrowski, N.\ K.\ Larsen, M.\ R.\ Siegfried, L.\ H.\ Beem, and J.\
Suckale
- “Subglacial sediment mechanics investigated by computer simulation of
- granular material”.
+ ``Subglacial sediment mechanics investigated by computer simulation of
+ granular material''.
American Geophysical Union Fall Meeting 2016, San Francisco, CA, USA.\@
\item \textbf{Damsgaard, A.}, D.\ L.\ Egholm, S.\ Tulaczyk, N.\ K.\ Larsen,
J.\ A.\ Piotrowski, M.\ R.\ Siegfried, L.\ H.\ Beem, J.\ Suckale, and
L.\ Goren
- “Grain-scale numerical modeling of granular mechanics and fluid
- dynamics”.
+ ``Grain-scale numerical modeling of granular mechanics and fluid
+ dynamics''.
Stanford University, Department of Geoscience, July 2016.
\item \textbf{Damsgaard, A.}, D.\ L.\ Egholm, L.\ H.\ Beem, S.\ Tulaczyk, N.\
K.\ Larsen, J.\ A.\ Piotrowski, and M.\ R.\ Siegfried
- “Grain-scale numerical modeling of granular mechanics and fluid
- dynamics and application in a glacial context”. Keynote speaker at
+ ``Grain-scale numerical modeling of granular mechanics and fluid
+ dynamics and application in a glacial context''. Keynote speaker at
Community Surface Dynamics Modeling System (CSDMS) Annual Meeting,
March 2016, Boulder, CO, USA.\@
t@@ -431,142 +445,142 @@ mechanics, and groundwater flow.
\begin{etaremune}[leftmargin=0in,topsep=0in,parsep=0in]
\item \textbf{Damsgaard, A.}, J.\ A.\ Piotrowski, I.\ Madden, J.\ Suckale, K.\ K.\ S\o{}rensen
- “Process-based modeling of glacial till advection”.
+ ``Process-based modeling of glacial till advection''.
American Geophysical Union Fall Meeting 2021, New Orleans, LA, USA.\@
\item \textbf{Damsgaard, A.}, O.\ Sergienko, and A.\ Adcroft
- “Floe-scale ridging in discrete element models for sea ice”.
+ ``Floe-scale ridging in discrete element models for sea ice''.
Workshop: Modeling the Granular Nature of Sea Ice, 2021, Online, WA, USA.\@
\item Suckale, J., I.\ Kasmalkar, \textbf{A.\ Damsgaard}, E.\ Mantelli, A.\
Cabrales-Vargas, D.\ Li, L.\ Goren, and C.\ Elsworth
- “Progress on understanding the subglacial hydrology over till beds with
- ramifications for ice dynamics and sediment transport”.
+ ``Progress on understanding the subglacial hydrology over till beds with
+ ramifications for ice dynamics and sediment transport''.
International Glaciological Society Meeting on Glacial Erosion and
Sedimentation 2019, Madison, WI, USA.\@
\item Piotrowski, J.\ A., M.\ B.\ Holdensen, \textbf{A.\ Damsgaard},
W.\ Narloch, S.\ Carr, and N.\ K.\ Larsen
- “The ice/bed interface in past ice sheets constrained by field,
- experimental and numerical studies”.
+ ``The ice/bed interface in past ice sheets constrained by field,
+ experimental and numerical studies''.
International Glaciological Society Meeting on Glacial Erosion and
Sedimentation 2019, Madison, WI, USA.\@
\item \textbf{Damsgaard, A.}, J.\ Suckale (presenting author), and L.\ Goren
- “A new continuum model for till consistent with granular
- mechanics”.
+ ``A new continuum model for till consistent with granular
+ mechanics''.
American Geophysical Union Fall Meeting 2019, San Francisco, CA,
USA.\@
\item I.\ Kasmalkar, \textbf{Damsgaard, A.}, L.\ Goren, J.\ Suckale,
and A.\ Cabrales-Vargas
- “Subglacial sediment beds resist fast ice flow by facilitating
- meltwater drainage”.
+ ``Subglacial sediment beds resist fast ice flow by facilitating
+ meltwater drainage''.
American Geophysical Union Fall Meeting 2019, San Francisco, CA, USA.\@
\item \textbf{Damsgaard, A.}, J.\ Suckale, D.\ Li, I.\ Kasmalkar, J.\
Amundson, L.\ Goren, A.\ Cabrales-Vargas
- “A new continuum model for subglacial till based on granular
- rheology”.
+ ``A new continuum model for subglacial till based on granular
+ rheology''.
International Glaciological Society Meeting on Glacial Erosion and
Sedimentation 2019, Madison, WI, USA.\@
\item \textbf{Damsgaard, A.}, O.\ Sergienko, and A.\ Adcroft
- “Lagrangian methods for modeling compressive failure in sea ice across
- scales”.
+ ``Lagrangian methods for modeling compressive failure in sea ice across
+ scales''.
American Geophysical Union Fall Meeting 2018, Washington, D.C., USA.\@
\item Suckale, J., C.\ Wheeler Elsworth, I.\ Kasmalkar, E.\ Mantelli,
\textbf{A.\ Damsgaard}, J.\ D.\ Platt, T.\ Perol, J.\ R.\ Rice, and L.\
Goren
- “The surface as a window into the subsurface: Lessons from
- Antarctica”.
+ ``The surface as a window into the subsurface: Lessons from
+ Antarctica''.
American Geophysical Union Fall Meeting 2018, Washington, D.C., USA.\@
\item Suckale, J., C.\ Wheeler Elsworth, E.\ Mantelli, I.\ Kasmalkar,
\textbf{A.\ Damsgaard}, J.\ D.\ Platt, T.\ Perol, J.\ R.\ Rice, and L.\
Goren
- “Process-based models for ice-stream shear margins”.
+ ``Process-based models for ice-stream shear margins''.
American Geophysical Union Fall Meeting 2018, Washington, D.C., USA.\@
\item Piotrowski, J.\ A., M.\ B.\ Holdensen, W.\ Narloch, S.\ Carr, and
\textbf{A.\ Damsgaard}
- “Laboratory experiments on till deformation: constraining the
- subglacial processes”.
+ ``Laboratory experiments on till deformation: constraining the
+ subglacial processes''.
CANQUA/AMQUA, Ottawa, Canada.
\item Piotrowski, J.\ A.\, M.\ B.\ Holdensen, W.\ Narloch, S.\ Carr,
\textbf{A.\ Damsgaard}, N.\ K.\ Larsen
- “Subglacial till deformation constrained by laboratory experiments”.
+ ``Subglacial till deformation constrained by laboratory experiments''.
European Geosciences Union, General Assembly 2018, Vienna, Austria,
EGU2018\textendash{}8662.
\item Piotrowski, J.\ A.\, M.\ Bering Holdensen, W.\ Narloch, \textbf{A.\
Damsgaard}, N.\ K.\ Larsen
- “Subglacial till deformation: Lessons from laboratory experiments”.
+ ``Subglacial till deformation: Lessons from laboratory experiments''.
Nordic Geological Winter Meeting 2018, Copenhagen, Denmark.
\item \textbf{Damsgaard, A.}, A.\ Adcroft, O.\ Sergienko, and A.\ Stern
- “Discrete-element simulation of sea-ice mechanics: Contact mechanics
- and granular jamming”.
+ ``Discrete-element simulation of sea-ice mechanics: Contact mechanics
+ and granular jamming''.
American Geophysical Union Fall Meeting 2017, New Orleans, LA, USA.\@
\item Kasmalkar, I., \textbf{A.\ Damsgaard}, A.\ Cabrales-Vargas, J.\
Suckale, and L.\ Goren
- “Grain-scale investigation of grain and melt-water interaction and
- implications for the dynamics of ice flow over soft sediments”.
+ ``Grain-scale investigation of grain and melt-water interaction and
+ implications for the dynamics of ice flow over soft sediments''.
6th Biot Conference on Poromechanics 2017, Paris, France.
\item Suckale, J., C.\ W.\ Elsworth, \textbf{A.\ Damsgaard}, L.\ Goren, A.\
Cabrales, D.\ Li, I.\ Kasmalkar, and S.\ Maldonado
- “Taking advantage of the predictive potential of process-based models
- for ice exploration”.
+ ``Taking advantage of the predictive potential of process-based models
+ for ice exploration''.
American Geophysical Union Fall Meeting 2016, San Francisco, CA, USA.\@
\item \textbf{Damsgaard, A.}, D.\ L.\ Egholm, L.\ H.\ Beem, S.\ Tulaczyk, N.\
K.\ Larsen, J.\ A.\ Piotrowski, and M.\ R.\ Siegfried
- “Creep and stick-slip in subglacial granular beds forced by variations
- in water pressure”.
+ ``Creep and stick-slip in subglacial granular beds forced by variations
+ in water pressure''.
West Antarctic Ice Sheet Workshop 2016, VA, USA.\@
\item \textbf{Damsgaard, A.}, D.\ L.\ Egholm, L.\ H.\ Beem, S.\ Tulaczyk, N.\
K.\ Larsen, J.\ A.\ Piotrowski, and M.\ R.\ Siegfried
- “Creep and stick-slip in subglacial granular beds forced by ocean
- tides”.
+ ``Creep and stick-slip in subglacial granular beds forced by ocean
+ tides''.
International Glaciological Society, International Symposium on
Interactions of Ice Sheets and Glaciers with the Ocean, 2016,
La Jolla, CA, USA.\@
\item \textbf{Damsgaard, A.}, D.\ L.\ Egholm, J.\ A.\ Piotrowski, S.\
Tulaczyk, and N.\ K.\ Larsen
- “Oscillations in till strength due to particle-fluid feedbacks”.
+ ``Oscillations in till strength due to particle-fluid feedbacks''.
International Union for Quaternary Research Congress, 2015,
Nagoya, Japan.
\item Piotrowski, J.\ A., K.\ Tylmann, W.\ Narloch, W.\ Wysota,
\textbf{A.\ Damsgaard}, D.\ L.\ Egholm, N.\ K.\ Larsen, and J.\
Lesemann.
- “A soft-bed system under the Scandinavian Ice Sheet: Mosaic of stable
- and deforming spots”.
+ ``A soft-bed system under the Scandinavian Ice Sheet: Mosaic of stable
+ and deforming spots''.
Abstract from 31st Nordic Geological Winter Meeting 2014, Lund, Sweden.
\item \textbf{Damsgaard, A.}, D.\ L.\ Egholm, J.\ A.\ Piotrowski, S.\
Tulaczyk, and N.\ K.\ Larsen
- “Discrete element modeling of subglacial sediment deformation”.
+ ``Discrete element modeling of subglacial sediment deformation''.
American Geophysical Union Fall Meeting 2013, San Francisco, CA,
USA.\@
\item Br\ae{}dstrup, C.\ F., D.\ L.\ Egholm, S.\ V.\ Ugelvig, \textbf{A.\
Damsgaard}, and J.\ L.\ Andersen
- “Feedbacks between subglacial dynamics and long-term glacial landscape
- evolution”.
+ ``Feedbacks between subglacial dynamics and long-term glacial landscape
+ evolution''.
American Geophysical Union Fall Meeting 2013, San Francisco, CA, USA.\@
\item Piotrowski, J.\ A., K.\ Tylmann, W.\ Narloch, W.\ Wysota, \textbf{A.\
Damsgaard}, D.\ L.\ Egholm, N.\ K.\ Larsen, and J.\ Lesemann
- “Subglacial mosaic of stable and deforming spots under the Scandinavian
- Ice Sheet: field, laboratory and numerical data”.
+ ``Subglacial mosaic of stable and deforming spots under the Scandinavian
+ Ice Sheet: field, laboratory and numerical data''.
Canadian Quaternary Association biannual meeting, August 2013,
Edmonton, Canada.
t@@ -577,55 +591,55 @@ mechanics, and groundwater flow.
\item Kasmalkar, I., \textbf{A.\ Damsgaard}, L.\ Goren, J.\ Suckale, and
A.\ Cabrales-Vargas
- “Subglacial Channelization Through Till Deformation and Failure at the
- Shear Margin”.
+ ``Subglacial Channelization Through Till Deformation and Failure at the
+ Shear Margin''.
American Geophysical Union Fall Meeting 2018, Washington, D.C., USA.\@
\item Li, D., J.\ Suckale, A.\ Cabrales, and \textbf{A.\ Damsgaard}
- “Till dynamics underneath ice streams with a nonlocal dense granular
- flow model”.
+ ``Till dynamics underneath ice streams with a nonlocal dense granular
+ flow model''.
American Geophysical Union Fall Meeting 2016, San Francisco, CA, USA.\@
\item Cabrales-Vargas, A., J.\ Suckale, \textbf{A.\ Damsgaard}, and L.\
Goren
- “Spatially variable till deformation and water transport in ice-stream
- shear margins from numerical simulations”.
+ ``Spatially variable till deformation and water transport in ice-stream
+ shear margins from numerical simulations''.
American Geophysical Union Fall Meeting 2016, San Francisco, CA, USA.\@
\item \textbf{Damsgaard, A.}, D.\ L.\ Egholm, J.\ A.\ Piotrowski, S.\
Tulaczyk, N.\ K.\ Larsen, and C.\ F.\ Br\ae{}dstrup
- “Numerical modeling of particle-fluid mixtures in a subglacial
- setting”.
+ ``Numerical modeling of particle-fluid mixtures in a subglacial
+ setting''.
American Geophysical Union Fall Meeting 2014, San Francisco,
CA, USA.\@
\item \textbf{Damsgaard, A.}, D.\ L.\ Egholm, J.\ A.\ Piotrowski, S.\
Tulaczyk, and N.\ K.\ Larsen
- “Numerical modelling of granular subglacial deformation using the
- discrete element method”.
+ ``Numerical modelling of granular subglacial deformation using the
+ discrete element method''.
European Geosciences Union, General Assembly 2013, Vienna, Austria,
EGU2013\textendash{}4026.
\item \textbf{Christensen, A.\ D.}, D.\ L.\ Egholm, J.\ A.\ Piotrowski, and
S.\ Tulaczyk
- “Discrete element modelling of subglacial sediment deformation”.
+ ``Discrete element modelling of subglacial sediment deformation''.
European Geosciences Union, General Assembly 2012, Vienna, Austria,
EGU2012\textendash{}2931.
\item Clausen, O.\ R., D.\ L.\ Egholm, R.\ Wesenberg, and \textbf{A.\ D.\
Christensen} (presenting author)
- “Salt movements and faulting of the overburden \textemdash{} can numerical
- modeling predict the fault patterns above salt structures?”
+ ``Salt movements and faulting of the overburden \textemdash{} can numerical
+ modeling predict the fault patterns above salt structures''.
European Geosciences Union, General Assembly 2012, Vienna, Austria,
EGU2012\textendash{}1615.
\item \textbf{Christensen, A.\ D.}, D.\ L.\ Egholm, and J.\ A.\ Piotrowski
- “Numerical modelling of sediment deformation by glacial stress”.
+ ``Numerical modelling of sediment deformation by glacial stress''.
International Union for Quaternary Research Congress 2011,
Bern, Switzerland.
\item \textbf{Christensen, A.\ D.}, D.\ L.\ Egholm, and J.\ A.\ Piotrowski
- “Numerical modelling of subglacial sediment deformation”.
+ ``Numerical modelling of subglacial sediment deformation''.
European Geosciences Union, General Assembly 2011, Vienna, Austria,
EGU2011\textendash{}7829.
t@@ -649,8 +663,8 @@ For a full list of public projects, please see my Git repository at \url{https:/
\begin{itemize}[leftmargin=0in,topsep=0in,parsep=0in]
\item Proficient programmer in C, C\texttt{++}, OpenMP, MPI, Python, CUDA
- C, MAT\-LAB, Julia, HTML, CSS, Javascript, PHP,
- PostgreSQL, MySQL, sh/sed/awk, \LaTeX{}, and Linux/Unix operating
+ C, MAT\-LAB, Julia, HTML, CSS, Javascript, Go,
+ PostgreSQL, sh/sed/awk, \LaTeX{}, and Linux/Unix operating
system environments.
\item Creator of \textbf{sphere}, a three-dimensional discrete element
t@@ -685,7 +699,7 @@ For a full list of public projects, please see my Git repository at \url{https:/
cluster, Aarhus University. Debian GNU/Linux and Torque/MAUI
resource management and sche\-du\-ling.
- \item Technical reviewer for “Getting Started with Tmux”, Packt
+ \item Technical reviewer for ``Getting Started with Tmux'', Packt
Publishing 2014. Tmux is a software application for terminal
multiplexing, useful for dealing with multiple programs from a
command-line interface.
t@@ -698,7 +712,7 @@ For a full list of public projects, please see my Git repository at \url{https:/
Craig, T., E.\ Hunke, A.\ DuVivier, A.\ Dabail, \textbf{A.\ Damsgaard},
J.\ F.\ Lemieux, P.\ Blain, M.\ Turner, Mhrib, T.\ Rasmussen, N.\
Jeffery
- “CICE-Consortium: CICE version 6.0.0, Icepack version 1.1.0”.
+ ``CICE-Consortium: CICE version 6.0.0, Icepack version 1.1.0''.
\url{https://doi.org/10.5281/zenodo.1900639}
\item Creator or the \textbf{scholarref} toolset for automated
t@@ -735,15 +749,17 @@ For a full list of public projects, please see my Git repository at \url{https:/
Lectures, hands-on exercises, field excursions.
Aarhus University, spring semester 2020 and 2021.
+ \item Lecturer, Equinor Field Course on Glacial Geology.
+ Geo and GEUS, 2023\textendash{}2024.
+
\item Lecturer, Quaternary Geology, 10 ECTS, mandatory B.Sc.\ course.
Lectures, laboratory exercises, field excursion.
- Aarhus University, spring semester 2020\textendash{}2022.
+ Aarhus University, 2020\textendash{}2025.
\item Advanced Water Cycle Management Ph.D. Course, Aarhus University. Lecture on
“The geological settings in Denmark and their impact on the groundwater system”,
August 2021 and 2022.
-
\item Completed the Aarhus University Teacher Training Program on pedagogy
and learning design, providing a theoretical and practical basis for
delivering excellence in university teaching. Spring 2021.
t@@ -795,8 +811,8 @@ For a full list of public projects, please see my Git repository at \url{https:/
Louise Lassen: B.Sc.\ student, Department of Geoscience,
Aarhus University.
- \item 2021:
- Marie Winther: B.Sc.\ student, Department of Geoscience,
+ \item 2021-24:
+ Marie Winther: B.Sc.\ and M.Sc.\ student, Department of Geoscience,
Aarhus University.
\item 2020\textendash{}2021:
t@@ -816,6 +832,9 @@ For a full list of public projects, please see my Git repository at \url{https:/
\section*{Outreach}
\begin{itemize}[leftmargin=0in,topsep=0in,parsep=0in]
+ \item TV2 Go'Morgen Danmark, Danish national TV.
+ Segment on quicksand physics and risk in Denmark.
+ December 2023. \url{https://play.tv2.dk/afspil/edfda123-6db6-46bb-b21b-c996fc1e6093}
\item First grade in Lystrup Skole elementary school, Lystrup, Denmark.
Presentation on Greenland, fieldwork, and climate.
t@@ -861,11 +880,11 @@ For a full list of public projects, please see my Git repository at \url{https:/
\item Arranged introductory talks about the research activities of faculty
members. Aarhus University, 2012\textendash{}2013.
- \item “The Rolling University” (Danish: “Det Rullende Universitet”):
+ \item ``The Rolling University'' (Danish: ``Det Rullende Universitet''):
Held a series of lectures at local high schools about climate change.
Fall 2011.
- \item “Nature in the tent” (Danish: “Natur i teltet”): Public outreach
+ \item ``Nature in the tent'' (Danish: ``Natur i teltet''): Public outreach
in the city center in Aarhus, Denmark. Summer 2009.
\end{itemize}