TY - JOUR
T1 - Methods of Error Estimation for Delay Power Spectra in 21 cm Cosmology
AU - Hydrogen Epoch of Reionization Array (HERA)
AU - Tan, Jianrong
AU - Liu, Adrian
AU - Kern, Nicholas S.
AU - Abdurashidova, Zara
AU - Aguirre, James E.
AU - Ali, Zaki S.
AU - Balfour, Yanga
AU - Beardsley, Adam P.
AU - Bernardi, Gianni
AU - Billings, Tashalee S.
AU - Bowman, Judd D.
AU - Bradley, Richard F.
AU - Bull, Philip
AU - Burba, Jacob
AU - Carey, Steven
AU - Carilli, Christopher L.
AU - Cheng, Carina
AU - DeBoer, David R.
AU - Dexter, Matt
AU - Acedo, Eloy de Lera
AU - Dillon, Joshua S.
AU - Ely, John
AU - Ewall-Wice, Aaron
AU - Fagnoni, Nicolas
AU - Fritz, Randall
AU - Furlanetto, Steve R.
AU - Gale-Sides, Kingsley
AU - Glendenning, Brian
AU - Gorthi, Deepthi
AU - Greig, Bradley
AU - Grobbelaar, Jasper
AU - Halday, Ziyaad
AU - Hazelton, Bryna J.
AU - Hewitt, Jacqueline N.
AU - Hickish, Jack
AU - Jacobs, Daniel C.
AU - Julius, Austin
AU - Kerrigan, Joshua
AU - Kittiwisit, Piyanat
AU - Kohn, Saul A.
AU - Kolopanis, Matthew
AU - Lanman, Adam
AU - Plante, Paul La
AU - Lekalake, Telalo
AU - MacMahon, David
AU - Malan, Lourence
AU - Malgas, Cresshim
AU - Maree, Matthys
AU - Martinot, Zachary E.
AU - Matsetela, Eunice
PY - 2021/8/10
Y1 - 2021/8/10
N2 - Precise measurements of the 21 cm power spectrum are crucial for understanding the physical processes of hydrogen reionization. Currently, this probe is being pursued by low-frequency radio interferometer arrays. As these experiments come closer to making a first detection of the signal, error estimation will play an increasingly important role in setting robust measurements. Using the delay power spectrum approach, we have produced a critical examination of different ways that one can estimate error bars on the power spectrum. We do this through a synthesis of analytic work, simulations of toy models, and tests on small amounts of real data. We find that, although computed independently, the different error bar methodologies are in good agreement with each other in the noise-dominated regime of the power spectrum. For our preferred methodology, the predicted probability distribution function is consistent with the empirical noise power distributions from both simulated and real data. This diagnosis is mainly in support of the forthcoming HERA upper limit and also is expected to be more generally applicable.
AB - Precise measurements of the 21 cm power spectrum are crucial for understanding the physical processes of hydrogen reionization. Currently, this probe is being pursued by low-frequency radio interferometer arrays. As these experiments come closer to making a first detection of the signal, error estimation will play an increasingly important role in setting robust measurements. Using the delay power spectrum approach, we have produced a critical examination of different ways that one can estimate error bars on the power spectrum. We do this through a synthesis of analytic work, simulations of toy models, and tests on small amounts of real data. We find that, although computed independently, the different error bar methodologies are in good agreement with each other in the noise-dominated regime of the power spectrum. For our preferred methodology, the predicted probability distribution function is consistent with the empirical noise power distributions from both simulated and real data. This diagnosis is mainly in support of the forthcoming HERA upper limit and also is expected to be more generally applicable.
U2 - 10.3847/1538-4365/ac0533
DO - 10.3847/1538-4365/ac0533
M3 - Article
SN - 0067-0049
VL - 255
SP - 26
JO - The Astrophysical Journal Supplement Series
JF - The Astrophysical Journal Supplement Series
IS - 2
M1 - 26
ER -