ELSI

Research & Activities

ELSI Seminar

Shadows round the campfire: what young stars' infrared variability reveals about protoplanetary disks

Speaker
Neal Turner (Jet Propulsion Laboratory, California Institute of Technology)
Date
October 5, 2015
Time
16:00
Room

ELSI-1 Building - 102 ELSI Hall

Abstract:
Young stars' infrared emission shows several puzzling features:variability uncorrelated with visible-light changes, foreground extinction that recurs erratically on weekly timescales, and excesses over the stellar photosphere too large to explain with starlight absorbed and re-emitted by a hydrostatic protostellar disk. I will
discuss how each of these features can be explained by a time-varying, magnetically-supported disk atmosphere analogous to prominences on the Sun. Such an atmosphere naturally appears in MHD calculations of
magneto-rotational turbulence. Through Monte Carlo radiative transfer calculations I will show that such an atmosphere yields variability amplitudes as observed. Since the starlight-absorbing surface lies higher than in hydrostatic models, a greater fraction of the stellar
luminosity is reprocessed into the infrared, accounting for the larger excesses. The atmosphere rises high enough to obscure the star in systems viewed near edge-on, and can explain the week-long extinction
events, provided only that the dust in the outer parts of the disk has undergone some growth or settling, as likely required for planet formation to begin.