Add missing $ sign

This commit is contained in:
Thomas Dehaeze 2024-11-05 13:27:10 +01:00
parent d24397c9be
commit 4f78b42dc4
3 changed files with 13 additions and 4 deletions

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@ -85,6 +85,15 @@
(setq org-export-before-parsing-hook '(org-ref-glossary-before-parsing (setq org-export-before-parsing-hook '(org-ref-glossary-before-parsing
org-ref-acronyms-before-parsing)) org-ref-acronyms-before-parsing))
#+END_SRC #+END_SRC
#+begin_src emacs-lisp
(org-export-define-derived-backend 'my-org 'org
:translate-alist '((link . nil)(latex-fragment . nil)(latex-environment . nil)(special-block . nil)
(table . nil)
(property-drawer . nil)))
#+end_src
#+begin_src emacs-lisp
(org-export-to-file 'my-org "text.org")
#+end_src
* Notes :noexport: * Notes :noexport:
Prefix is =uniaxial= Prefix is =uniaxial=
@ -6184,5 +6193,5 @@ colors = colororder;
* Footnotes * Footnotes
[fn:3]DLPVA-100-B from Femto with a voltage input noise is $2.4\,nV/\sqrt{\text{Hz}}$ [fn:3]DLPVA-100-B from Femto with a voltage input noise is $2.4\,nV/\sqrt{\text{Hz}}$
[fn:2]Mark Product L-22D geophones are used with a sensitivity of $88\,\frac{V}{m/s} and a natural frequency of $\approx 2\,\text{Hz}$ [fn:2]Mark Product L-22D geophones are used with a sensitivity of $88\,\frac{V}{m/s}$ and a natural frequency of $\approx 2\,\text{Hz}$
[fn:1]Mark Product L4-C geophones are used with a sensitivity of $171\,\frac{V}{m/s}$ and a natural frequency of $\approx 1\,\text{Hz}$ [fn:1]Mark Product L4-C geophones are used with a sensitivity of $171\,\frac{V}{m/s}$ and a natural frequency of $\approx 1\,\text{Hz}$

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@ -1,4 +1,4 @@
% Created 2024-05-02 Thu 12:04 % Created 2024-11-05 Tue 13:26
% Intended LaTeX compiler: pdflatex % Intended LaTeX compiler: pdflatex
\documentclass[a4paper, 10pt, DIV=12, parskip=full, bibliography=totoc]{scrreprt} \documentclass[a4paper, 10pt, DIV=12, parskip=full, bibliography=totoc]{scrreprt}
@ -38,7 +38,7 @@
pdftitle={Nano Active Stabilization System - Uniaxial Model}, pdftitle={Nano Active Stabilization System - Uniaxial Model},
pdfkeywords={}, pdfkeywords={},
pdfsubject={}, pdfsubject={},
pdfcreator={Emacs 29.3 (Org mode 9.6)}, pdfcreator={Emacs 29.4 (Org mode 9.6)},
pdflang={English}} pdflang={English}}
\usepackage{biblatex} \usepackage{biblatex}
@ -213,7 +213,7 @@ For further analysis, 9 ``configurations'' of the uniaxial NASS model of Figure
\end{figure} \end{figure}
\chapter{Disturbance Identification} \chapter{Disturbance Identification}
\label{sec:uniaxial_disturbances} \label{sec:uniaxial_disturbances}
To quantify disturbances (red signals in Figure \ref{fig:uniaxial_model_micro_station_nass}), three geophones\footnote{Mark Product L-22D geophones are used with a sensitivity of \$88$\backslash$,\frac{V}{m/s} and a natural frequency of \(\approx 2\,\text{Hz}\)} are used. To quantify disturbances (red signals in Figure \ref{fig:uniaxial_model_micro_station_nass}), three geophones\footnote{Mark Product L-22D geophones are used with a sensitivity of \(88\,\frac{V}{m/s}\) and a natural frequency of \(\approx 2\,\text{Hz}\)} are used.
One is located on the floor, another one on the granite, and the last one on the micro-hexapod's top platform (see Figure \ref{fig:uniaxial_ustation_meas_disturbances}). One is located on the floor, another one on the granite, and the last one on the micro-hexapod's top platform (see Figure \ref{fig:uniaxial_ustation_meas_disturbances}).
The geophone located on the floor was used to measure the floor motion \(x_f\) while the other two geophones were used to measure vibrations introduced by scanning of the \(T_y\) stage and \(R_z\) stage (see Figure \ref{fig:uniaxial_ustation_dynamical_id_setup}). The geophone located on the floor was used to measure the floor motion \(x_f\) while the other two geophones were used to measure vibrations introduced by scanning of the \(T_y\) stage and \(R_z\) stage (see Figure \ref{fig:uniaxial_ustation_dynamical_id_setup}).