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The Square Kilometre Array (SKA) is a planned large radio interferometer designed to operate over a wide range of frequencies, and with an order of magnitude greater sensitivity and survey speed than any current radio telescope. The SKA will address many important topics in astronomy, ranging from planet formation to distant galaxies. However, in this work, we consider the perspective of the SKA as a facility for studying physics. We review four areas in which the SKA is expected to make major contributions to our understanding of fundamental physics: cosmic dawn and reionisation; gravity and gravitational radiation; cosmology and dark energy; and dark matter and astroparticle physics. These discussions demonstrate that the SKA will be a spectacular physics machine, which will provide many new breakthroughs and novel insights on matter, energy, and spacetime.

Fundamental physics with the Square Kilometre Array

Camera S.
Co-first
;Fornengo N.;Regis M.;
2020-01-01

Abstract

The Square Kilometre Array (SKA) is a planned large radio interferometer designed to operate over a wide range of frequencies, and with an order of magnitude greater sensitivity and survey speed than any current radio telescope. The SKA will address many important topics in astronomy, ranging from planet formation to distant galaxies. However, in this work, we consider the perspective of the SKA as a facility for studying physics. We review four areas in which the SKA is expected to make major contributions to our understanding of fundamental physics: cosmic dawn and reionisation; gravity and gravitational radiation; cosmology and dark energy; and dark matter and astroparticle physics. These discussions demonstrate that the SKA will be a spectacular physics machine, which will provide many new breakthroughs and novel insights on matter, energy, and spacetime.
2020
37
e002
1
52
https://arxiv.org/abs/1810.02680
astroparticle physics; cosmology; gravitation; pulsars: general; reionisation; telescopes
Weltman A.; Bull P.; Camera S.; Kelley K.; Padmanabhan H.; Pritchard J.; Raccanelli A.; Riemer-Sorensen S.; Shao L.; Andrianomena S.; Athanassoula E.; Bacon D.; Barkana R.; Bertone G.; Boehm C.; Bonvin C.; Bosma A.; Bruggen M.; Burigana C.; Calore F.; Cembranos J.A.R.; Clarkson C.; Connors R.M.T.; Cruz-Dombriz A.D.L.; Dunsby P.K.S.; Fonseca J.; Fornengo N.; Gaggero D.; Harrison I.; Larena J.; Ma Y.-Z.; Maartens R.; Mendez-Isla M.; Mohanty S.D.; Murray S.; Parkinson D.; Pourtsidou A.; Quinn P.J.; Regis M.; Saha P.; Sahlen M.; Sakellariadou M.; Silk J.; Trombetti T.; Vazza F.; Venumadhav T.; Vidotto F.; Villaescusa-Navarro F.; Wang Y.; Weniger C.; Wolz L.; Zhang F.; Gaensler B.M.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2318/1728155
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