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_publication_list.tex
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_publication_list.tex
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\small\textit{(Citation numbers as of 10/31/2022 according to NASA ADS are quoted in \textcolor{red}{red}. In total,the accepted publications have 134 citations, 96 of which can be attributed to the main author papers.)}
\normalsize
\begin{itemize}
\vspace{10pt}
\item[\textcolor{Green}{$\bullet$}] \textit{\textbf{Accepted (Main author)}}
\vspace{10pt}
\begin{itemize}
\item[\textcolor{Black}{$\star$}]{``The Galactic Faraday sky 2020'', \\
\textbf{S. Hutschenreuter} et al. ({\color{blue} \href{https://www.aanda.org/articles/aa/abs/2022/01/aa40486-21/aa40486-21.htmll}{\textit{Astronomy and Astrophysics}} / \href{https://arxiv.org/abs/2102.01709}{\texttt{{\color{blue} arXiv:2102.01709}}}})
\textcolor{red}{(34)}
}
\vspace{6pt}
\item[\textcolor{Black}{$\star$}]{``The Galactic Faraday depth sky revisited'', \\
\textbf{S. Hutschenreuter}, T. En{\ss}lin ({\color{blue} \href{https://www.aanda.org/articles/aa/full_html/2020/01/aa35479-19/aa35479-19.html}{\textit{Astronomy and Astrophysics}} / \href{https://arxiv.org/abs/1903.06735}{\texttt{{\color{blue} arXiv:1903.06735}}}})
\textcolor{red}{(40)}
}
\vspace{6pt}
\item[\textcolor{Black}{$\star$}]{``The primordial magnetic field in our cosmic backyard'', \\
\textbf{S. Hutschenreuter}, S.Dorn, J. Jasche, F. Vazza, D. Paoletti, G. Lavaux, T. En{\ss}lin (\href{https://iopscience.iop.org/article/10.1088/1361-6382/aacde0}{\color{blue}\textit{Classical and Quantum Gravity}} / \href{https://arxiv.org/abs/1803.02629}{\texttt{{\color{blue} arXiv:1803.02629}}})
\textcolor{red}{(22)}
}
\end{itemize}
\vspace{10pt}
\item[\textcolor{Green}{$\bullet$}] \textit{\textbf{Accepted (Contributing author)}}
\vspace{10pt}
\begin{itemize}
\item[\textcolor{Black}{$\star$}]{``A method for reconstructing the Galactic magnetic field using dispersion of fast radio bursts and Faraday rotation of radio galaxies'', \\
A. Pandhi, \textbf{S. Hutschenreuter}, J. L. West, B. M. Gaensler, and A. Stock ({\color{blue} \href{https://doi.org/10.1093/mnras/stac2314}{MNRAS} / \href{https://arxiv.org/abs/2208.06417}{arXiv:2208.06417}})
\textcolor{red}{(0)}
}
\vspace{6pt}
\item[\textcolor{Black}{$\star$}]{``NIFTy5: Numerical Information Field Theory'', \\P. Arras; M. Baltac; T.A. Ensslin, P. Frank \textbf{S. Hutschenreuter} \href{http://ascl.net/1903.008}{(\texttt{{\color{blue} Astrophysics Source Code Library, ascl:1903.008})}}
\textcolor{red}{(9)}
}
\vspace{6pt}
\item[\textcolor{Black}{$\star$}]{``Determining the composition of radio plasma via circular polarization: the prospects of the Cygnus A hot spots'', \\
T. En{\ss}lin, \textbf{S. Hutschenreuter}, G. Krishna ({\color{blue}\href{https://iopscience.iop.org/article/10.1088/1475-7516/2019/01/035/meta}{\textit{JCAP}}/\href{https://arxiv.org/abs/1808.07061}{\texttt{{\color{blue} arXiv:1808.07061})}}}
\textcolor{red}{(2)}
}
\vspace{6pt}
\item[\textcolor{Black}{$\star$}]{``NIFTy 3 - Numerical Information Field Theory - A Python framework for multicomponent signal inference on HPC clusters'', \\
T. Steininger, J. Dixit, P. Frank, M. Greiner, \textbf{S. Hutschenreuter}, J. Knollm{\"u}ller, R. Leike, N.~Porqueres, D. Pumpe, M. Reinecke, M. Sraml, C. Varady, T. En{\ss}lin ({\color{blue}\textit{Annalen der Physik}} / \href{https://arxiv.org/abs/1708.01073}{(\texttt{{\color{blue} arXiv:1708.01073})}}
\textcolor{red}{(19)}
}
\vspace{6pt}
\item[\textcolor{Black}{$\star$}]{``The Galaxy in circular polarization: all-sky radio prediction, detection strategy, and the charge of the leptonic cosmic rays'', \\ T. En{\ss}lin, \textbf{S. Hutschenreuter}, V. Vacca, N. Oppermann (\href{https://journals.aps.org/prd/abstract/10.1103/PhysRevD.96.043021}{\color{blue}\textit{Physical Review D}} / \href{https://arxiv.org/abs/1706.08539}{\texttt{{\color{blue} arXiv:1706.08539}}})
\textcolor{red}{(8)}
}
\end{itemize}
\vspace{10pt}
\item[\textcolor{Green}{$\bullet$}] \textit{\textbf{Submitted or in preparation}}
\vspace{10pt}
\begin{itemize}
\item[\textcolor{Black}{$\star$}]{``Studying Bioluminescence Flashes with the ANTARES Deep Sea Neutrino Telescope'', \\
N. Reeb, \textbf{S. Hutschenreuter}, P. Zehetner, T. Ensslin, and the ANTARES Collaboration ({\color{blue} submitted to Limnology and Oceanography / \href{https://arxiv.org/abs/2107.08063}{\texttt{{\color{blue} arXiv:2107.08063}}}} })
\vspace{6pt}
\item[\textcolor{Black}{$\star$}]{``RMTable and PolSpectra: standards for reporting polarization and Faraday rotation measurements of radio sources'', \\
C. Van Eck, B. M. Gaensler, \textbf{S. Hutschenreuter}, et al. ({\color{blue} submitted to AAS}})
\vspace{6pt}
\item[\textcolor{Black}{$\star$}]{``Disentangling the Galactic Faraday sky'', \\
\textbf{S. Hutschenreuter}, M. Haverkorn and T. Ensslin ({\color{blue} in prep.}})
\end{itemize}
\end{itemize}