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Spirals in protoplanetary disks from photon travel time

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arxiv 1608.03147 v1 pith:J45PWCXH submitted 2016-08-10 astro-ph.EP

Spirals in protoplanetary disks from photon travel time

classification astro-ph.EP
keywords lightspiralstimetravelclumpdiskdisksexplain
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Spiral structures are a common feature in scattered-light images of protoplanetary disks, and of great interest as possible tracers of the presence of planets. However, other mechanisms have been put foward to explain them, including self-gravity, disk-envelope interactions, and dead zone boundaries. These mechanisms explain many spirals very well, but are unable to easily account for very loosely wound spirals and single spiral arms. We study the effect of light travel time on the shape of a shadow cast by a clump orbiting close (within ${\sim}1\,$au) of the central star, where there can be significant orbital motion during the light travel time from the clump to the outer disk and then to the sky plane. This delay in light rays reaching the sky plane gives rise to a variety of spiral- and arc-shaped shadows, which we describe with a general fitting formula for a flared, inclined disk.

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