From dc15adadcb2b7560d982c3aee0ef319b50d9d362 Mon Sep 17 00:00:00 2001 From: Blaise Thompson Date: Wed, 4 Apr 2018 11:06:13 -0500 Subject: remove gls --- acquisition/chapter.tex | 6 +++--- 1 file changed, 3 insertions(+), 3 deletions(-) (limited to 'acquisition') diff --git a/acquisition/chapter.tex b/acquisition/chapter.tex index fe3c4da..0d3d1c5 100644 --- a/acquisition/chapter.tex +++ b/acquisition/chapter.tex @@ -65,7 +65,7 @@ It is open source, developed on GitHub. % TODO: cite PyCMDS on github PyCMDS is used to drive both of the MR-CMDS instruments maintained by the Wright Group: the ``fs table'', focused on semiconductor photophysics, and the ``ps table'', focused on molecular systems. % -In the Wright Group, \gls{PyCMDS} replaces the old acquisition softwares `ps control', ritten by +In the Wright Group, PyCMDS replaces the old acquisition softwares `ps control', ritten by Kent Meyer and `Control for Lots of Research in Spectroscopy' written by Schuyler Kain. When PyCMDS starts up, the GUI is constructed out of modules depending on which hardware and @@ -659,10 +659,10 @@ central conceit of PyCMDS. % \subsection{Ideal Axis Positions} \label{acq:sec:ideal_axis_positions} % ------------------------- Frequency domain multidimensional spectroscopy is a time-intensive process. % -A typical \gls{pixel} takes between one-half second and three seconds to acquire. % +A typical pixel takes between one-half second and three seconds to acquire. % Depending on the exact hardware being scanned and signal being detected, this time may be mostly due to hardware motion or signal collection. % -Due to the \gls{curse of dimensionality}, a typical three-dimensional CMDS experiment contains +Due to the curse of dimensionality, a typical three-dimensional CMDS experiment contains roughly 100,000 pixels. % CMDS hardware is transiently-reliable, so speeding up experiments is a crucial component of unlocking ever larger dimensionalities and higher resolutions. % -- cgit v1.2.3