Global deceleration and inward movements of X-ray knots and rims of RCW 103

Abstract

Kinematics of shocks, ejecta knots, and the compact remnant of a supernova remnant gives an insight into the nature of the progenitor and surrounding environment. We report on a proper motion measurement of X-ray knots and rims of the magnetar-hosting supernova remnant RCW 103. Chandra data obtained in three epochs, 1999, 2010, and 2016 are used. We find a global deceleration of 12 knots and rims both in northern and southern regions within the last 24 yrs, even though its age is thought to be larger than 2 kyr. Some of them even changed their moving directions from outward ( 1,000 km s-1) to inward ( -2,000 km s-1). Our findings can be explained with a collision with a high-density medium both in the northern and southern edges of the remnant, although the remnant may still be expanding in the wind-blown cavity. The proper motion of the associated magnetar 1E161348-5055 is possibly detected with a velocity of ≈ 500 km s-1.

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