Magnetospheric cavity modes can decay through various loss processes. Energ
y leakage across the magnetopause is one such process that is commonly negl
ected. Here we consider what the actual effect of the neglected magnetopaus
e leakage might be on cavity mode lifetime and hence on coupled transverse
mode wave growth. First, we review the linear theory of fast mode wave refl
ection at a tangential discontinuity to show that magnetopause leakage is s
ignificant. For realistic subsolar magnetopause conditions we estimate that
20-60% of magnetospheric fast mode wave Poynting flux incident on the magn
etopause is transmitted through the magnetopause and out of the magnetosphe
ric cavity. Second, we demonstrate the effect of magnetopause leakage on ma
gnetospheric cavity modes using an MHD simulation. The simulation is of a b
ox-like cavity with a dipolar variation of the magnetospheric magnetic fiel
d and realistic conditions at the subsolar magnetopause, based upon in situ
spacecraft observations. The simulation results show that a purely fast mo
de cavity oscillation decays due to leakage of fast mode wave energy across
the magnetopause. The decay rate that arises from magnetopause leakage is
comparable to that found in previous simulations from coupling of fast mode
energy into transverse mode field line resonances. Thus we conclude that m
agnetopause leakage is likely to enhance the decay rate of fast and transve
rse cavity mode oscillations and should be taken into account in field line
resonance theory and especially its application to observations.