P-Cygni type Lya profiles exhibited in nearly half of starburst galaxies,
both nearby and high-z, are believed to be formed by an expanding supershell
surrounding a star-forming region. We apply the Monte Carlo code which was
developed previously for static and plane-parallel medium to calculate the Lya
line transfer in a supershell of neutral hydrogen which are expanding radially
in a spherical bulk flow. We consider typical cases that the supershell has the
Lya line-centre optical depth of Ο0β=105β107, a radial expansion
velocity of Veβxp=300km/s,andtheturbulenceofb=40km/s.Wefindthatthereappearafewemissionpeaksatthefrequenciescorrespondingto(2Nβ1)Veβxp,wheretheorderofbackscatteringsN>1.AsVeβxpβ>b,theemergentprofilesbecomesimilartothoseforthestaticmediumandthepeaksarelessprominent.WealsoinvestigatetheeffectsofcolumndensityofthesupershellontheemergentLyaprofiles.Wefindthatthenumberandthefluxratiosofemissionpeaksaredeterminedbyinterplayof\tau_0$ and V_exp of the
supershell. We discuss the effects of dust extinction and the implication of
our works in relation to recent spectroscopic observations of starburst
galaxies.Comment: 15 pages, 6 figures, submitted to MNRA