Citation

BibTex format

@article{Gambrel:2021:1538-4357/ac230b,
author = {Gambrel, AE and Rahlin, AS and Song, X and Contaldi, CR and Ade, PAR and Amiri, M and Benton, SJ and Bergman, AS and Bihary, R and Bock, JJ and Bond, JR and Bonetti, JA and Bryan, SA and Chiang, HC and Duivenvoorden, AJ and Eriksen, HK and Farhang, M and Filippini, JP and Fraisse, AA and Freese, K and Galloway, M and Gandilo, NN and Gualtieri, R and Gudmundsson, JE and Halpern, M and Hartley, J and Hasselfield, M and Hilton, G and Holmes, W and Hristov, VV and Huang, Z and Irwin, KD and Jones, WC and Karakci, A and Kuo, CL and Kermish, ZD and Leung, JS-Y and Li, S and Mak, DSY and Mason, PV and Megerian, K and Moncelsi, L and Morford, TA and Nagy, JM and Netterfield, CB and Nolta, M and O'Brient, R and Osherson, B and Padilla, IL and Racine, B and Reintsema, C and Ruhl, JE and Ruud, TM and Shariff, JA and Shaw, EC and Shiu, C and Soler, JD and Trangsrud, A and Tucker, C and Tucker, RS and Turner, AD and van, der List JF and Weber, AC and Wehus, IK and Wen, S and Wiebe, DV and Young, EY},
doi = {1538-4357/ac230b},
journal = {The Astrophysical Journal: an international review of astronomy and astronomical physics},
pages = {1--17},
title = {The XFaster power spectrum and likelihood estimator for the analysis of cosmic microwave background maps},
url = {http://dx.doi.org/10.3847/1538-4357/ac230b},
volume = {922},
year = {2021}
}
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RIS format (EndNote, RefMan)

TY  - JOUR
AB  - We present the XFaster analysis package, a fast, iterative angular power spectrum estimator based on a diagonal approximation to the quadratic Fisher matrix estimator. It uses Monte Carlo simulations to compute noise biases and filter transfer functions and is thus a hybrid of both Monte Carlo and quadratic estimator methods. In contrast to conventional pseudo-C–based methods, the algorithm described here requires a minimal number of simulations and does not require them to be precisely representative of the data to estimate accurate covariance matrices for the bandpowers. The formalism works with polarization-sensitive observations and also data sets with identical, partially overlapping, or independent survey regions. The method was first implemented for the analysis of BOOMERanG data and also used as part of the Planck analysis. Here we describe the full, publicly available analysis package, written in Python, as developed for the analysis of data from the 2015 flight of the Spider instrument. The package includes extensions for self-consistently estimating null spectra and estimating fits for Galactic foreground contributions. We show results from the extensive validation of XFaster using simulations and its application to the Spider data set.
AU  - Gambrel,AE
AU  - Rahlin,AS
AU  - Song,X
AU  - Contaldi,CR
AU  - Ade,PAR
AU  - Amiri,M
AU  - Benton,SJ
AU  - Bergman,AS
AU  - Bihary,R
AU  - Bock,JJ
AU  - Bond,JR
AU  - Bonetti,JA
AU  - Bryan,SA
AU  - Chiang,HC
AU  - Duivenvoorden,AJ
AU  - Eriksen,HK
AU  - Farhang,M
AU  - Filippini,JP
AU  - Fraisse,AA
AU  - Freese,K
AU  - Galloway,M
AU  - Gandilo,NN
AU  - Gualtieri,R
AU  - Gudmundsson,JE
AU  - Halpern,M
AU  - Hartley,J
AU  - Hasselfield,M
AU  - Hilton,G
AU  - Holmes,W
AU  - Hristov,VV
AU  - Huang,Z
AU  - Irwin,KD
AU  - Jones,WC
AU  - Karakci,A
AU  - Kuo,CL
AU  - Kermish,ZD
AU  - Leung,JS-Y
AU  - Li,S
AU  - Mak,DSY
AU  - Mason,PV
AU  - Megerian,K
AU  - Moncelsi,L
AU  - Morford,TA
AU  - Nagy,JM
AU  - Netterfield,CB
AU  - Nolta,M
AU  - O'Brient,R
AU  - Osherson,B
AU  - Padilla,IL
AU  - Racine,B
AU  - Reintsema,C
AU  - Ruhl,JE
AU  - Ruud,TM
AU  - Shariff,JA
AU  - Shaw,EC
AU  - Shiu,C
AU  - Soler,JD
AU  - Trangsrud,A
AU  - Tucker,C
AU  - Tucker,RS
AU  - Turner,AD
AU  - van,der List JF
AU  - Weber,AC
AU  - Wehus,IK
AU  - Wen,S
AU  - Wiebe,DV
AU  - Young,EY
DO  - 1538-4357/ac230b
EP  - 17
PY  - 2021///
SN  - 0004-637X
SP  - 1
TI  - The XFaster power spectrum and likelihood estimator for the analysis of cosmic microwave background maps
T2  - The Astrophysical Journal: an international review of astronomy and astronomical physics
UR  - http://dx.doi.org/10.3847/1538-4357/ac230b
UR  - http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000722398000001&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=1ba7043ffcc86c417c072aa74d649202
UR  - https://iopscience.iop.org/article/10.3847/1538-4357/ac230b
UR  - http://hdl.handle.net/10044/1/93465
VL  - 922
ER  -
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