MWN Shock (Single Flare): Difference between revisions
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Emma Platts (talk | contribs) No edit summary |
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|OIRCounterpart = -- | |OIRCounterpart = -- | ||
|XrayCounterpart = -- | |XrayCounterpart = -- | ||
|GammarayCounterpart = HEGF, sGRB if aligned | |GammarayCounterpart = HEGF, sGRB if jet aligned | ||
|GWCounterpart = Yes | |GWCounterpart = Yes | ||
|NeutrinoCounterpart = -- | |NeutrinoCounterpart = -- |
Revision as of 07:50, 27 September 2018
Category | Progenitor | Type | Energy Mechanism | Emission Mechanism | Counterparts | References | Brief Comments | ||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
LF Radio | HF Radio | Microwave | Terahertz | Optical/IR | X-rays | Gamma-rays | Gravitational Waves | Neutrinos | |||||||
SNR (Magnetars) | MWD Shock (Single Flare) | Single | Maser | Synch. | Yes | Afterglow | -- | -- | -- | -- | HEGF, sGRB if jet aligned | Yes | -- | http://adsabs.harvard.edu/abs/2010vaoa.conf..129P, http://adsabs.harvard.edu/abs/2014MNRAS.442L...9L, http://adsabs.harvard.edu/abs/2017MNRAS.467.3542M | None |
Definitions: LF Radio (3 MHz to 3 GHz); HF Radio (3 GHz to 30 GHz); Microwave (30 to 300 GHz)
Model Description
One of the first postulations for the Lorimer burst was a magnetar hyperflare. Since then the idea has been widely considered and built upon. An FRB model analogous to the pulsar wind bubble model above has been proposed, with the power now deriving from the magnetic energy of a magnetar, and the shock resulting from a giant flare impacting a magnetar wind nebula (MWN). A powerful synchrotron maser consistent with FRBs is formed at the termination shock, either by magnetic reconnection or a ring-like distribution of gyrating particles at the shock front.
Observational Constraints
Emission is expected to have a hump in the nebula spectrum near the nebula's self-absorption frequency.