Experiment to Detect the Global EoR Signature explained

The Experiment to Detect the Global EoR Signature (EDGES) is an experiment and radio telescope located in a radio quiet zone at the Murchison Radio-astronomy Observatory in Western Australia. It is a collaboration between Arizona State University and Haystack Observatory, with infrastructure provided by CSIRO. EoR stands for epoch of reionization, a time in cosmic history when neutral atomic hydrogen gas became ionised due to ultraviolet light from the first stars.

Low-band instruments

The experiment has two low-band instruments, each of which has a dipole antenna pointed to the zenith and observing a single polarisation. The antenna is around 2mx1mm (07feetx03feetm) in size, sat on a 30mx30mm (100feetx100feetm) ground shield. It is coupled with a radio receiver, with a 100m cable run to a digital spectrometer. The instruments operate at 50–, and are separated by 150m. Observations started in August 2015.

In 2023, a new version of the low-band antenna in which the electronics are built into the antenna was installed on a larger ground plane of 50 x 50 metres (164 ft x 164 ft) to further reduce the effects of scattering from nearby objects and observations started in June 2023.^[1] ^[2]

78 MHz absorption profile

In March 2018, the collaboration published a paper in Nature announcing the discovery of a broad absorption profile centered at a frequency of

78\pm1

MHz in the sky-averaged signal after subtracting Galactic synchrotron emission. The absorption profile has a width of

	+4
19
	-2

MHz and an amplitude of

	+0.5
0.5
	-0.2

K, against a background RMS of 0.025K, giving it a signal-to-noise ratio of 37. The equivalent redshift is centered at

z ≈ 17

, spanning z=20–15. The signal is possibly due to ultraviolet light from the first stars in the Universe altering the emission of the 21cm line by lowering the temperature of the hydrogen relative to the cosmic microwave background (the mechanism is Wouthuysen–Field coupling). A "more exotic scenario," encouraged by the unexpected strength of the absorption, is that the signal is due to interactions between dark matter and baryons.

In 2021, Melia reported that the deeper absorption is compatible with the alternative Friedmann–Lemaître–Robertson–Walker (FLRW) cosmology known as the Rh = ct universe.^[3]

In 2022, an experiment called Shaped Antenna Measurement of the Background Radio Spectrum (SARAS) led by the Raman Research Institute reported that their measurements didn't replicate EDGES results rejecting them at 95.3% confidence level.^[4] ^[5]

High-band instruments

The high-band instrument is of similar design, and operates at 90–.

External links

Signal from age of the first stars could shake up search for dark matter - www.sciencemag.org
Web site: Brubaker . Ben . 2022-02-28 . Four Years On, New Experiment Sees No Sign of 'Cosmic Dawn' . . en.

Notes and References

Web site: Barrett . J. . Cappallo . R. . Wilson . K. . January 10, 2023 . MRO EDGES-3 Installation, November 2022; EDGES Memo #406 . July 17, 2023 . MIT Haystack Observatory.
Rogers . Alan E. E. . Barrett . John P. . Bowman . Judd D. . Cappallo . Rigel . Lonsdale . Colin J. . Mahesh . Nivedita . Monsalve . Raul A. . Murray . Steven G. . Sims . Peter H. . December 2022 . Analytic Approximations of Scattering Effects on Beam Chromaticity in 21‐cm Global Experiments . Radio Science . en . 57 . 12 . 10.1029/2022RS007558 . 0048-6604. 2212.04526 .
Melia . Fulvio . 2021-03-15 . The anomalous 21-cm absorption at high redshifts . The European Physical Journal C . en . 81 . 3 . 230 . 10.1140/epjc/s10052-021-09029-4 . 1434-6052. 2103.04241 .
Singh . Saurabh . Nambissan T. . Jishnu . Subrahmanyan . Ravi . Udaya Shankar . N. . Girish . B. S. . Raghunathan . A. . Somashekar . R. . Srivani . K. S. . Sathyanarayana Rao . Mayuri . 2022-02-28 . On the detection of a cosmic dawn signal in the radio background . Nature Astronomy . 6 . 5 . en . 607–617 . 10.1038/s41550-022-01610-5 . 2112.06778 . 245124294 . 2397-3366. SharedIt
Castelvecchi . Davide . 2022-02-28 . Did astronomers see hints of first stars? Experiment casts doubt on bold claim . Nature . en . 10.1038/d41586-022-00577-7. 35228734 .