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Revision as of 01:28, 15 October 2018

Welcome to the FRB Theory Wiki!

This is a collaborative effort between theorists and astronomers to discuss and track theories and observations pertaining to fast radio bursts (FRBs). The field of FRBs is in its fairly nascent stages and theories are abound. It is getting hard to keep abreast of the latest ideas and observations. This wiki aims to do the following:

  1. Track published FRB theories, their predictions in different wavebands, current observational constraints, and future tests.
  2. Serve as a discussion board to hash out finer points of theories, possible extensions and modifications.
  3. Serve as a tracer of the zeitgeist and how (over the next decade or so) science converges on the answer(s).
  4. Publish 'state of theory' snapshots every year (with all contributors invited to be authors).

The FRB theory catalog and this wiki were first published as PAPER REFERENCE. Please cite XXX if it was of use to your work.

Email Shriharsh Tendulkar or Amanda Weltman if you need more help/information.

Contributing to the Wiki

You are invited to contribute to the discussion by signing in/making an account (at the top right corner). This wiki is divided into the summary page, that concisely tabulates current FRB theories, and the individual theory discussion pages, where further discussion takes place. See [Instructions] for more details.

Rules and Guidelines

Detailed Instructions

We expect a healthy and frank discussion of ideas on this wiki. As many of these ideas are fairly personal, arguments can get heated. We would like to remind users that this is public discussion forum. The basic rule to follow is the golden rule: Treat others (and others' ideas) the way you'd like to yourself or your ideas be treated. Be fair and polite, using the same tone as a good referee report. Moderators may send warnings or ban users for not following this rule.

We expect that people will use their real names and email addresses in the login. The moderators may ask you to update your user information.

Follow the setup of the wiki in general --- For example, if a section requests a concise summary, please keep it short. Moderators will be going through editing and wordsmithing to keep a uniform look.

Summary Table

Name Category Progenitor Type Energy Mechanism Emission Mechanism LF Radio Counterpart HF Radio Counterpart Microwave Counterpart THz Counterpart OIR Counterpart X ray Counterpart Gamma ray Counterpart GW Counterpart Neutrino Counterpart References Comments
NS-WD Accretion Accretion NS-WD Repeat Mag. reconnection Curv. Yes -- -- -- -- -- Yes, but unlikely detectable -- -- URL None
AGN-KBH AGN AGN-KBH Interaction Repeat Maser Synch. Yes -- -- -- Supernova -- Yes Yes Yes URL Neutrinos from preceding SN and from collapse to BH.
AGN-SS AGN AGN-Strange Star Interaction Repeat Electron oscillation -- Yes -- -- -- Thermal -- Yes Yes Yes URL Neutrinos from preceding SN and from collapse to BH. GW from collapse and persistent GWs from SS.
Wandering Beam AGN Wandering Beam Repeat -- Synch. Yes -- -- -- -- Yes -- -- -- URL None
Jet-Caviton AGN Jet-Caviton Interaction Both Electron scattering Bremsst. Yes Yes -- -- -- -- Possible GRB Yes -- URL URL Persistent scintillating radio emission.
SS Crust Collapse Strange Star Crust Single Mag. reconnection Curv. Yes -- -- -- -- -- -- Yes -- URL None
NS to BH (DM-Induced) Collapse NS to BH Single Mag. reconnection Curv. Yes -- -- -- -- -- -- Yes -- URL None
NS to Quark Star Collapse NS to Quark Star Single β-decay Synch. Yes -- -- -- -- Yes Yes Yes -- URL The burst is predicted to be several seconds, explainable if the de-dispersion process that stacks f
NS to KNBH Collapse NS to KNBH Single Mag. reconnection Curv. Yes -- -- -- -- Possible afterglow Possible GRB Yes -- URL URL URL Possible X-ray afterglow and a short/long GRB created in NS birth prior to the FRB.
Axion Quark Nugget and NS Collision / Interaction Axion Quark Nugget and NS Repeat Mag. reconnection Curv. Yes Possible Possible -- -- -- -- -- -- URL None

More...