update temperature range

https://github.com/sinara-hw/meta/issues/22#issuecomment-736196383

cheko_wp.tex

@@ -27,7 +27,7 @@
 \pagestyle{fancy}
 \pagenumbering{gobble}
 \title{Cheko: high-density electrode driver for scalable ion-trap quantum computing}
-\date{November 23, 2020}
+\date{December 7, 2020}
 
 \begin{document}
 \maketitle
@@ -132,7 +132,7 @@ The electrode area of the racetrack ion trap\cite{racetrack} with its 150 region
 \end{figure}
 
 \subsection{Temperature range}
-Some, but not all, ion trap experiments are done in a cryostat, in particular to reduce ion heating rates and improve vacuum\cite{cryo} (in terms of both pumping speed and ultimate pressure achieved). To address a wider range of ion trap experiments, it is desirable that the device be operable at low temperatures (3 to 10K) as well as room temperature.
+Some, but not all, ion trap experiments are done in a cryostat, in particular to reduce ion heating rates and improve vacuum\cite{cryo} (in terms of both pumping speed and ultimate pressure achieved). To address a wider range of ion trap experiments, it is desirable that the device be operable at low temperatures (3 to 15K) as well as room temperature.
 
 \subsection{Vacuum}
 The device must be operable in a ultra-high vacuum environment. It must not outgas and must have a sufficient means of dissipating the heat it generates, such as being mounted to the wall of the vacuum chamber acting as heatsink.