A Glimpse into the Early Universe with FRB 20240304B

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Multi-messenger astrophysics

Astro-COLIBRI

64 episodes

1 week ago

Discussions around tools and discoveries in the novel domain of multi-messenger and time domain astrophysics. We'll highlight recent publications, discuss tools to faciliate observations and generally talk about the cool science behind the most violent explosions in the universe.

Astronomy

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Astronomy

Science

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A Glimpse into the Early Universe with FRB 20240304B

Multi-messenger astrophysics

21 minutes 49 seconds

3 months ago

A Glimpse into the Early Universe with FRB 20240304B

Join us as we explore the groundbreaking discovery of FRB 20240304B, the most distant Fast Radio Burst (FRB) ever detected, offering unprecedented insights into the early universe.

In this episode, we discuss:

• What are Fast Radio Bursts (FRBs)? These enigmatic, millisecond-duration radio signals provide unique information about the plasma permeating our universe, revealing details about magnetic fields and gas distributions.

• The Record-Breaking Discovery: FRB 20240304B was detected by the MeerKAT radio telescope and precisely localized to a host galaxy using the James Webb Space Telescope (JWST).

• A Journey Back in Time: This FRB originates at a redshift of 2.148 ± 0.001, meaning it occurred just 3 billion years after the Big Bang. This discovery doubles the redshift reach of localized FRBs and marks the first FRB detected at "cosmic noon," a peak era of galaxy formation.

• The Host Galaxy's Secrets: FRB 20240304B was traced to a low-mass, clumpy, star-forming galaxy with low metallicity, estimated to be very young with a stellar formation timescale of around 51.7 million years. This makes it atypical compared to previously observed FRB host galaxies.

• Unveiling the Progenitor: The host galaxy's properties – its low stellar mass, active star formation, and low metallicity – strongly favor short-delay time progenitor models, such as those involving young magnetars born in supernovae. This supports the idea that FRB birth rates could trace the cosmic star-formation history.

• Probing the Cosmic Web: The sightline of FRB 20240304B intersects cosmic structures like the Virgo Cluster and a foreground galaxy group, revealing complex magnetic field environments over vast scales. These structures contribute significantly to the FRB's dispersion measure (DM).

• A Critical Milestone: This detection highlights the power of FRBs as cosmological probes, allowing astronomers to trace the distribution of ionized matter and gain insights into galaxy evolution during the universe's most active era. MeerKAT's unique sensitivity was crucial, demonstrating its capability to explore the z > 2 universe.

Reference: Caleb, M., Nanayakkara, T., Stappers, B., et al. (2024). A fast radio burst from the first 3 billion years of the Universe. Excerpts from "2508.01648v1_FRB20240304B.pdf".

Acknowledements: Podcast prepared with Google/NotebookLM. Illustration credits: Danielle Futselaar for MeerTRAP