--- Papers of the week --- 0 retweets / 1 like https://t.co/V0MmTGXCUI
--- Papers of the week --- 0 retweets / 1 like https://t.co/V0MmTHeFWI
#RUPhysics Author Correction: The REACH radiometer for detecting the 21-cm hydrogen signal from redshift z ≈ 7.5–28 (Nature Astronomy, (2022), 6, 8, (984-998), https://t.co/jSFRtliiQM)
RT @higgsinocat: The REACH radiometer for detecting the 21-cm hydrogen signal from redshift 7.5 to 28. (arXiv:2210.07409v1 [https://t.co/br…
RT @higgsinocat: The REACH radiometer for detecting the 21-cm hydrogen signal from redshift 7.5 to 28. (arXiv:2210.07409v1 [https://t.co/br…
The REACH radiometer for detecting the 21-cm hydrogen signal from redshift 7.5 to 28. (arXiv:2210.07409v1 [https://t.co/brMgLD5fvK]) relevance:45% https://t.co/ivH4ELYaeV #darkmatter https://t.co/mArKrlSwDs
[2210.07409] E. de Lera Acedo, D.I.L. de Villiers, N. Razavi-Ghods et al.: The REACH radiometer for detecting the 21-cm hydrogen signal from redshift 7.5 to 28 https://t.co/xu1Jjs78hy https://t.co/pqyhhCsWGk #astro_ph_CO
Great to see REACH featured in Nature astronomy. Trying to control the systematics for global 21cm observations of the Cosmic Dawn. Exciting experiment. https://t.co/voM3nhUGM9 https://t.co/GbFE8JoN3w
A new method that will allow astronomers to 'see' through the fog of the early Universe and detect light from the first stars and galaxies. Full story👉https://t.co/WYBjdLypKd
#RUPhysics The REACH radiometer for detecting the 21-cm hydrogen signal from redshift z approximate to 7.5-28 https://t.co/jSFRtlzUfm
#RUPhysics The REACH radiometer for detecting the 21-cm hydrogen signal from redshift z ≈ 7.5–28 https://t.co/jSFRtlzUfm
RT @STFC_Matters: STFC Ernest Rutherford Fellow Dr. Eloy de Lera Acedo (@AP_MRAO) from @Cambridge_Uni has helped develop a method that will…
RT @STFC_Matters: STFC Ernest Rutherford Fellow Dr. Eloy de Lera Acedo (@AP_MRAO) from @Cambridge_Uni has helped develop a method that will…
STFC Ernest Rutherford Fellow Dr. Eloy de Lera Acedo (@AP_MRAO) from @Cambridge_Uni has helped develop a method that will allow researchers to ‘see’ through the fog of the early Universe to observe the Cosmic Dawn!🌌 @NatureAstronomy article here 👉 https:/
RT @CosmicRami: This looks really interesting! A new experiment, utilising two antennas, an ultra-wideband system, and Bayesian calibratio…
This looks really interesting! A new experiment, utilising two antennas, an ultra-wideband system, and Bayesian calibration/analysis methods, aims to look back to Cosmic Dawn and the Epoch-of-Reionziation (z ~ 7.5-28) with the 21-cm hydrogen line. https:
RT @NaturePortfolio: A @NatureAstronomy paper presents the Radio Experiment for the Analysis of Cosmic Hydrogen, which aims to detect the s…
RT @NaturePortfolio: A @NatureAstronomy paper presents the Radio Experiment for the Analysis of Cosmic Hydrogen, which aims to detect the s…
RT @NaturePortfolio: A @NatureAstronomy paper presents the Radio Experiment for the Analysis of Cosmic Hydrogen, which aims to detect the s…
RT @NaturePortfolio: A @NatureAstronomy paper presents the Radio Experiment for the Analysis of Cosmic Hydrogen, which aims to detect the s…
A @NatureAstronomy paper presents the Radio Experiment for the Analysis of Cosmic Hydrogen, which aims to detect the sky-averaged 21-cm neutral hydrogen line from the early Universe. https://t.co/ME4QSe61X8 https://t.co/rTYiNTlDYK
The REACH radiometer for detecting the 21-cm hydrogen signal from redshift z ≈ 7.5–28 - Nature Astronomy https://t.co/LaXfrXXgS0
RT @NatureAstronomy: The Radio Experiment for the Analysis of Cosmic Hydrogen (REACH) is two antennas that are aiming to detect the global…
very excited to start working on REACH this Oct! The field of 21-cm cosmology is just getting started with all these next-gen telescopes!! 🌌
RT @AP_MRAO: The REACH mission paper has been published, and we are proud to have an amazing team in Cambridge, like Dr Will Handley, lead…
This is probably one of the latest research articles co-authored by our colleague and friend Prof. Richard Hills. It was always a pleasure to have his insightful contributions https://t.co/EbEUnQKaph
RT @NatureAstronomy: The Radio Experiment for the Analysis of Cosmic Hydrogen (REACH) is two antennas that are aiming to detect the global…
RT @AP_MRAO: The REACH mission paper has been published, and we are proud to have an amazing team in Cambridge, like Dr Will Handley, lead…
The REACH mission paper has been published, and we are proud to have an amazing team in Cambridge, like Dr Will Handley, lead of data science, or Dr Anastasia Fialkov, whose state-of-the-art models of the cosmic dawn 21-cm signal power the data pipeline h
RT @NatureAstronomy: The Radio Experiment for the Analysis of Cosmic Hydrogen (REACH) is two antennas that are aiming to detect the global…
RT @NatureAstronomy: The Radio Experiment for the Analysis of Cosmic Hydrogen (REACH) is two antennas that are aiming to detect the global…
The Radio Experiment for the Analysis of Cosmic Hydrogen (REACH) is two antennas that are aiming to detect the global Epoch of Reionization signature and substantiate the EDGES signal: https://t.co/5wAB7iVtyo @AP_MRAO https://t.co/765mmke3QY