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28 May 2023 to 2 June 2023
Tianfu Cosmic Ray Research Centre
Asia/Shanghai timezone

A long-duration gamma-ray burst with a peculiar origin

Not scheduled
35m
Tianfu Cosmic Ray Research Centre

Tianfu Cosmic Ray Research Centre

No. 1500 Kezhi Road, Tianfu New Area, Chengdu, Chin
poster

Speaker

Binbin Zhang (Nanjing University)

Description

It is generally believed that long-duration gamma-ray bursts (GRBs) are associated with massive star core-collapse, whereas short-duration GRBs are associated with mergers of compact star binaries. However, growing observations have suggested that oddball GRBs do exist, and multiple criteria (prompt emission properties, supernova/kilonova associations, and host galaxy properties) rather than burst duration only are needed to classify GRBs physically. A previously reported long-duration burst, GRB 060614, could be viewed as a short GRB with extended emission if it were observed at a larger distance and was associated with a kilonova-like feature. As a result, it belongs to the Type-I (compact star merger) GRB category and is likely of the binary neutron star merger origin. Here we report a peculiar long-duration gamma-ray burst, GRB 211211A, whose prompt emission properties in many aspects differ from all known Type-I GRBs, yet its multi-band observations suggest a non-massive-star origin. In particular, significant excess emission in both optical and near-infrared wavelengths has been discovered, which resembles kilonova emission as observed in some Type-I GRBs. These observations point towards a new progenitor type of GRBs. A scenario invoking a white dwarf-neutron star merger with a post-merger magnetar engine provides a self-consistent interpretation for all the observations, including prompt gamma-rays, early X-ray afterglow, as well as the engine-fed kilonova emission.

Primary author

Binbin Zhang (Nanjing University)

Presentation materials

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