SN 2002bu—ANOTHER SN 2008S-LIKE TRANSIENT

We observed supernova (SN) 2002bu in the near-IR with the Hubble Space Telescope (HST), the mid-IR with the Spitzer Space Telescope, and in X-rays with Swift 10 years after the explosion. If the faint L sub(H) ~ 10 super(2) L[middot in circle] HST near-IR source at the transient position is the near-IR counterpart of SN 2002bu, then the source has dramatically faded between 2004 and 2012, from L [Asymptotically = to] 10 super(6.0) L[middot in circle] to L [Asymptotically = to] 10 super(4.5) L[middot in circle]. It is still heavily obscured, [tau] sub(v) [Asymptotically = to] 5 in graphitic dust models, with almost all the energy radiated in the mid-IR. The radius of the dust emission is increasing as R [is proportional to] super(0.7+ or -0.4) and the optical depth is dropping as [tau] sub(v) [is proportional to] t super(-1.3+ or -0.4). The evolution expected for an expanding shell of material, [tau] sub(v) [is proportional to] t super(-2), is ruled out at approximately 2[sigma], while the [tau] sub(v) [is proportional to] t super(-0.8) to t super(-1) optical depth scaling for a shock passing through a pre-existing wind is consistent with the data. If the near-IR source is a chance superposition, the present-day source can be moderately more luminous, significantly more obscured and evolving more slowly. While we failed to detect X-ray emission, the X-ray flux limits are consistent with the present-day emissions being powered by an expanding shock wave. SN 2002bu is clearly a member of the SN 2008S class of transients, but continued monitoring of the evolution of the spectral energy distribution is needed to conclusively determine the nature of the transient.