#LyX file created by tex2lyx 1.6.8 \lyxformat 264 \begin_document \begin_header \textclass article \begin_preamble \usepackage{array}\usepackage{longtable}\usepackage{rotating}\usepackage{float} \end_preamble \language russian \inputencoding utf8 \font_roman default \font_sans default \font_typewriter default \font_default_family default \font_sc false \font_osf false \font_sf_scale 100 \font_tt_scale 100 \graphics default \paperfontsize 12 \spacing single \papersize a4paper \use_geometry false \use_amsmath 1 \use_esint 1 \cite_engine basic \use_bibtopic false \paperorientation portrait \secnumdepth 3 \tocdepth 3 \paragraph_separation indent \defskip medskip \quotes_language french \papercolumns 1 \papersides 1 \paperpagestyle default \tracking_changes false \output_changes false \end_header \begin_body \begin_layout Standard \begin_inset Tabular \begin_inset Text \begin_layout Standard \begin_inset Formula $A$ \end_inset \end_layout \end_inset \begin_inset Text \begin_layout Standard area of the (geometrical) pixel [m \begin_inset ERT status collapsed \begin_layout Standard \backslash textsuperscript \end_layout \end_inset 2] \end_layout \end_inset \begin_inset Text \begin_layout Standard \begin_inset Formula $c$ \end_inset \end_layout \end_inset \begin_inset Text \begin_layout Standard Speed of light \begin_inset Formula $\approx 3 \cdot 10^8$ \end_inset m/s \end_layout \end_inset \begin_inset Text \begin_layout Standard \begin_inset Formula $DYN_{in}$ \end_inset \end_layout \end_inset \begin_inset Text \begin_layout Standard Input dynamic range [1] \end_layout \end_inset \begin_inset Text \begin_layout Standard \begin_inset Formula $DYN_{out}$ \end_inset \end_layout \end_inset \begin_inset Text \begin_layout Standard Output dynamic range\InsetSpace ~ [1] \end_layout \end_inset \begin_inset Text \begin_layout Standard \begin_inset Formula $E$ \end_inset \end_layout \end_inset \begin_inset Text \begin_layout Standard irradiance on the sensor surface\InsetSpace ~ [W/m \begin_inset ERT status collapsed \begin_layout Standard \backslash textsuperscript \end_layout \end_inset 2] \end_layout \end_inset \begin_inset Text \begin_layout Standard \begin_inset Formula $F$ \end_inset \end_layout \end_inset \begin_inset Text \begin_layout Standard Non-whiteness coefficient \end_layout \end_inset \begin_inset Text \begin_layout Standard \begin_inset Formula $h$ \end_inset \end_layout \end_inset \begin_inset Text \begin_layout Standard Planck's constant h \begin_inset Formula $\approx6.63 \cdot 10^{-34} Js$ \end_inset \end_layout \end_inset \begin_inset Text \begin_layout Standard \begin_inset Formula $K$ \end_inset \end_layout \end_inset \begin_inset Text \begin_layout Standard overall system gain\InsetSpace ~ [DN/e-] \end_layout \end_inset \begin_inset Text \begin_layout Standard \begin_inset Formula $k_d$ \end_inset \end_layout \end_inset \begin_inset Text \begin_layout Standard Doubling temperature of the dark current\InsetSpace ~ [ \begin_inset Formula $^\circ$ \end_inset C] \end_layout \end_inset \begin_inset Text \begin_layout Standard \begin_inset Formula $N_d$ \end_inset \end_layout \end_inset \begin_inset Text \begin_layout Standard dark current\InsetSpace ~ [e-/s] \end_layout \end_inset \begin_inset Text \begin_layout Standard \begin_inset Formula $N_{d30}$ \end_inset \end_layout \end_inset \begin_inset Text \begin_layout Standard dark current for a housing temperature of \begin_inset Formula $30^\circ C$ \end_inset \InsetSpace ~ [e-/s] \begin_inset ERT status collapsed \begin_layout Standard \backslash textsuperscript \end_layout \end_inset 2 \end_layout \end_inset \begin_inset Text \begin_layout Standard \begin_inset Formula $S_g^2$ \end_inset \end_layout \end_inset \begin_inset Text \begin_layout Standard variance coefficient of the spatial gain noise\InsetSpace ~ [%] \end_layout \end_inset \end_inset \end_layout \end_body \end_document