Authorea

Erik Tollerud edited abstract.tex about 9 years ago

Commit id: 8ec424815577c6c0bf4c717e28d1cc9ef1366921

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%and are comparable to a virial-radius crossing time. These quenching timescales can be $1-2\gyr$ longer if environmental preprocessing in lower-mass groups prior to MW/M31 infall is important. We compare with timescales for more massive satellites from previous works, which indicates that the environmental quenching timescale increases rapidly with satellite $\mstar$, peaking at $\approx9.5\gyr$ for $\mstar\sim10^9\msun$, and rapidly decreases at higher $\mstar$ to less than $5\gyr$ at $\mstar>5\times10^9\msun$. Thus, satellites with $\mstar\sim10^9\msun$, similar to Magellanic-Cloud Magellanic Cloud masses, exhibit the longest environmental quenching timescales.