GRB 230307A Formed No Dust or Was Not a Binary Neutron Star Merger

Abstract

We present a new analysis of the JWST infrared spectra of GRB 230307A (AT 2023vfi), a long gamma-ray burst (GRB) with an infrared excess and spectral lines suggestive of significant heavy r-process production. The spectra, taken 29 and 61~days after the GRB trigger, have blackbody-like continua with T eff ≈ 550 K and an emission line near 2.1 μm, previously attributed to [Te III]. This line identification has been used as evidence for an r-process-powered kilonova (KN), despite no KN model producing a blackbody-like spectrum at late times. Such an infrared continuum could be emitted by newly formed dust, and we model the thermal emission to infer dust properties, including composition and mass. We find that the emission requires at least 3--6 × 10-3~M of carbon or silicate dust, which is inconsistent with r-process yields expected from a neutron star merger. Alternatively, the continuum could be from 2× 10-3~M of metallic iron dust, which is mildly consistent (at 3σ) with KN models, but such dust is unlikely to form in the expanding ejecta. GRB 230307A's low late-time luminosity also constrains the amount of radioactive 56Ni produced to <2.6 × 10-3~M (3σ). No KN model can simultaneously form the necessary dust for the infrared continuum and heavy elements for the [Te III] line. We conclude that the blackbody continuum is not due to dust emission, or GRB 230307A did not originate from a binary compact-object merger.

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