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@ -1,13 +1,13 @@
\chapter{Introduction}% \chapter{Introduction}%
\label{chap:intro} \label{chap:intro}
Traditionally~\cite{Weiss2012,Rivas2012,Breuer2002Jun}, open quantum Traditionally, open quantum systems have stood for a departure from
systems have stood for a departure form unitary dynamics. Usually a unitary dynamics~\cite{Weiss2012,Rivas2012,Breuer2002Jun}. Usually a
\emph{small} system with considerably less degrees than the bath it is small system is coupled to a large bath with considerably more degrees
coupled to is considered. The main focus however lies on the small of freedom. The main focus, however, lies on the small system, whose
system, whose time development is computed, ideally eliminating the time development is computed, ideally eliminating the bath degrees of
bath degrees of freedom through various means. As a result, the system freedom through various means. % As a result, the system state does not
state does not follow the usual unitary time development generated by % follow the usual unitary time development generated by the
the Schr\"odinger equation. % Schr\"odinger equation.
The field of quantum thermodynamics has attracted much recent interest The field of quantum thermodynamics has attracted much recent interest
recently~\cite{Talkner2020Oct,Rivas2019Oct,Riechers2021Apr,Vinjanampathy2016Oct,Binder2018,Kurizki2021Dec,Mukherjee2020Jan,Xu2022Mar}. recently~\cite{Talkner2020Oct,Rivas2019Oct,Riechers2021Apr,Vinjanampathy2016Oct,Binder2018,Kurizki2021Dec,Mukherjee2020Jan,Xu2022Mar}.
@ -16,8 +16,8 @@ extending the standard phenomenological thermodynamic notions to
microscopic open systems. This setting may make it possible to microscopic open systems. This setting may make it possible to
formulate rigorous microscopic definitions of thermodynamic quantities formulate rigorous microscopic definitions of thermodynamic quantities
such as internal energy, heat and work that are consistent with the such as internal energy, heat and work that are consistent with the
well-known laws of thermodynamics. There is no consensus on this well-known laws of thermodynamics. Currently, there is no consensus on
matter yet, as is demonstrated by the plethora of proposals and this matter yet, as is demonstrated by the plethora of proposals and
discussions in discussions in
\cite{Rivas2019Oct,Talkner2020Oct,Motz2018Nov,Wiedmann2020Mar,Senior2020Feb,Kato2015Aug,Kato2016Dec,Strasberg2021Aug,Talkner2016Aug,Bera2021Feb,Bera2021Jun,Esposito2015Dec}. \cite{Rivas2019Oct,Talkner2020Oct,Motz2018Nov,Wiedmann2020Mar,Senior2020Feb,Kato2015Aug,Kato2016Dec,Strasberg2021Aug,Talkner2016Aug,Bera2021Feb,Bera2021Jun,Esposito2015Dec}.