Authorea

Evan O'Connor edited Initial Results.tex about 8 years ago

Commit id: 43d640d2c8c4a01ac33477e1aed2080c60651b67

deletions | additions

Here are some softballs... \section{Results} Contributions from each group will ideally include time evolutions of \emph{Hydro quantities} \begin{enumerate} \item central density [g/cm$^{3}$], electron/lepton fraction, and entropy [$k_\mathrm{B}/\mathrm{baryon}$] \item PNS mass [g] (defined as $\rho>10^{11}\,\mathrm{g}\,\mathrm{cm}^{-3}$) \item Mass accretion rate @ $500\,$km [g/s] \item min/mean/max shock radius [cm] \item low order shock deformations ($a_1/a_0$) \item others.... \end{enumerate} \emph{Neutrino quantities} \begin{enumerate} \item $\nu_e$, $\bar{\nu}_e$, and $\nu_x$ luminosities @ $500\,$km [erg/s] \item $\nu_e$, $\bar{\nu}_e$, and $\nu_x$ average energies @ $500\,$km [MeV] \item $\nu_e$, $\bar{\nu}_e$, and $\nu_x$ rms energies @ $500\,$km [MeV] \item $\nu_e$, $\bar{\nu}_e$, and $\nu_x$ neutrinosphere radius [cm] (define above) \item Net heating ($\dot{Q}_\mathrm{heat}$ [erg/s] (please clearly state criteria for gain region above) \item Gain radius [cm] (again, clearly define) \item Mass of gain region [g] \item $\tau_\mathrm{advection} = M_\mathrm{gain}/\dot{M}$ [s] \item $E_\mathrm{gain}$ [erg] (clearly define above) \item $\tau_\mathrm{heat} = E_\mathm{gain}/\dot{Q}_\mathrm{heat}$ [s] \end{enumerate}