A Constraint on Primordial B-modes from the First Flight of the Spider Balloon-borne Telescope

P. A.R. Ade; M. Amiri; S. J. Benton; A. S. Bergman; R. Bihary; J. J. Bock; J. R. Bond; J. A. Bonetti; S. A. Bryan; H. C. Chiang; C. R. Contaldi; O. Doré; A. J. Duivenvoorden; H. K. Eriksen; M. Farhang; J. P. Filippini; A. A. Fraisse; K. Freese; M. Galloway; A. E. Gambrel; N. N. Gandilo; K. Ganga; R. Gualtieri; J. E. Gudmundsson; M. Halpern; J. Hartley; M. Hasselfield; G. Hilton; W. Holmes; V. V. Hristov; Z. Huang; K. D. Irwin; W. C. Jones; A. Karakci; C. L. Kuo; Z. D. Kermish; J. S.Y. Leung; S. Li; D. S.Y. Mak; P. V. Mason; K. Megerian; L. Moncelsi; T. A. Morford; J. M. Nagy; C. B. Netterfield; M. Nolta; R. O'Brient; B. Osherson; I. L. Padilla; B. Racine; A. S. Rahlin; C. Reintsema; J. E. Ruhl; M. C. Runyan; T. M. Ruud; J. A. Shariff; E. C. Shaw; C. Shiu; J. D. Soler; X. Song; A. Trangsrud; C. Tucker; R. S. Tucker; A. D. Turner; J. F. Van Der List; A. C. Weber; I. K. Wehus; S. Wen; D. V. Wiebe; E. Y. Young

doi:10.3847/1538-4357/ac20df

A Constraint on Primordial B-modes from the First Flight of the Spider Balloon-borne Telescope

P. A.R. Ade, M. Amiri, S. J. Benton, A. S. Bergman, R. Bihary, J. J. Bock, J. R. Bond, J. A. Bonetti, S. A. Bryan, H. C. Chiang, C. R. Contaldi, O. Doré, A. J. Duivenvoorden, H. K. Eriksen, M. Farhang, J. P. Filippini, A. A. Fraisse, K. Freese, M. Galloway, A. E. GambrelN. N. Gandilo, K. Ganga, R. Gualtieri, J. E. Gudmundsson, M. Halpern, J. Hartley, M. Hasselfield, G. Hilton, W. Holmes, V. V. Hristov, Z. Huang, K. D. Irwin, W. C. Jones, A. Karakci, C. L. Kuo, Z. D. Kermish, J. S.Y. Leung, S. Li, D. S.Y. Mak, P. V. Mason, K. Megerian, L. Moncelsi, T. A. Morford, J. M. Nagy, C. B. Netterfield, M. Nolta, R. O'Brient, B. Osherson, I. L. Padilla, B. Racine, A. S. Rahlin, C. Reintsema, J. E. Ruhl, M. C. Runyan, T. M. Ruud, J. A. Shariff, E. C. Shaw, C. Shiu, J. D. Soler, X. Song, A. Trangsrud, C. Tucker, R. S. Tucker, A. D. Turner, J. F. Van Der List, A. C. Weber, I. K. Wehus, S. Wen, D. V. Wiebe, E. Y. Young

Earth and Space Exploration, School of (SESE)

Research output: Contribution to journal › Article › peer-review

27 Scopus citations

Abstract

We present the first linear polarization measurements from the 2015 long-duration balloon flight of Spider, which is an experiment that is designed to map the polarization of the cosmic microwave background (CMB) on degree angular scales. The results from these measurements include maps and angular power spectra from observations of 4.8% of the sky at 95 and 150 GHz, along with the results of internal consistency tests on these data. While the polarized CMB anisotropy from primordial density perturbations is the dominant signal in this region of sky, Galactic dust emission is also detected with high significance. Galactic synchrotron emission is found to be negligible in the Spider bands. We employ two independent foreground-removal techniques to explore the sensitivity of the cosmological result to the assumptions made by each. The primary method uses a dust template derived from Planck data to subtract the Galactic dust signal. A second approach, which constitutes a joint analysis of Spider and Planck data in the harmonic domain, assumes a modified-blackbody model for the spectral energy distribution of the dust with no constraint on its spatial morphology. Using a likelihood that jointly samples the template amplitude and r parameter space, we derive 95% upper limits on the primordial tensor-to-scalar ratio from Feldman-Cousins and Bayesian constructions, finding r < 0.11 and r < 0.19, respectively. Roughly half the uncertainty in r derives from noise associated with the template subtraction. New data at 280 GHz from Spider's second flight will complement the Planck polarization maps, providing powerful measurements of the polarized Galactic dust emission.

Original language	English (US)
Article number	174
Journal	Astrophysical Journal
Volume	927
Issue number	2
DOIs	https://doi.org/10.3847/1538-4357/ac20df
State	Published - Mar 1 2022

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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10.3847/1538-4357/ac20df

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Ade, P. A. R., Amiri, M., Benton, S. J., Bergman, A. S., Bihary, R., Bock, J. J., Bond, J. R., Bonetti, J. A., Bryan, S. A., Chiang, H. C., Contaldi, C. R., Doré, O., Duivenvoorden, A. J., Eriksen, H. K., Farhang, M., Filippini, J. P., Fraisse, A. A., Freese, K., Galloway, M., ... Young, E. Y. (2022). A Constraint on Primordial B-modes from the First Flight of the Spider Balloon-borne Telescope. Astrophysical Journal, 927(2), Article 174. https://doi.org/10.3847/1538-4357/ac20df

Ade, PAR, Amiri, M, Benton, SJ, Bergman, AS, Bihary, R, Bock, JJ, Bond, JR, Bonetti, JA, Bryan, SA, Chiang, HC, Contaldi, CR, Doré, O, Duivenvoorden, AJ, Eriksen, HK, Farhang, M, Filippini, JP, Fraisse, AA, Freese, K, Galloway, M, Gambrel, AE, Gandilo, NN, Ganga, K, Gualtieri, R, Gudmundsson, JE, Halpern, M, Hartley, J, Hasselfield, M, Hilton, G, Holmes, W, Hristov, VV, Huang, Z, Irwin, KD, Jones, WC, Karakci, A, Kuo, CL, Kermish, ZD, Leung, JSY, Li, S, Mak, DSY, Mason, PV, Megerian, K, Moncelsi, L, Morford, TA, Nagy, JM, Netterfield, CB, Nolta, M, O'Brient, R, Osherson, B, Padilla, IL, Racine, B, Rahlin, AS, Reintsema, C, Ruhl, JE, Runyan, MC, Ruud, TM, Shariff, JA, Shaw, EC, Shiu, C, Soler, JD, Song, X, Trangsrud, A, Tucker, C, Tucker, RS, Turner, AD, Van Der List, JF, Weber, AC, Wehus, IK, Wen, S, Wiebe, DV & Young, EY 2022, 'A Constraint on Primordial B-modes from the First Flight of the Spider Balloon-borne Telescope', Astrophysical Journal, vol. 927, no. 2, 174. https://doi.org/10.3847/1538-4357/ac20df

@article{96ba0258ca284b95ae849584105b4e75,

title = "A Constraint on Primordial B-modes from the First Flight of the Spider Balloon-borne Telescope",

abstract = "We present the first linear polarization measurements from the 2015 long-duration balloon flight of Spider, which is an experiment that is designed to map the polarization of the cosmic microwave background (CMB) on degree angular scales. The results from these measurements include maps and angular power spectra from observations of 4.8% of the sky at 95 and 150 GHz, along with the results of internal consistency tests on these data. While the polarized CMB anisotropy from primordial density perturbations is the dominant signal in this region of sky, Galactic dust emission is also detected with high significance. Galactic synchrotron emission is found to be negligible in the Spider bands. We employ two independent foreground-removal techniques to explore the sensitivity of the cosmological result to the assumptions made by each. The primary method uses a dust template derived from Planck data to subtract the Galactic dust signal. A second approach, which constitutes a joint analysis of Spider and Planck data in the harmonic domain, assumes a modified-blackbody model for the spectral energy distribution of the dust with no constraint on its spatial morphology. Using a likelihood that jointly samples the template amplitude and r parameter space, we derive 95% upper limits on the primordial tensor-to-scalar ratio from Feldman-Cousins and Bayesian constructions, finding r < 0.11 and r < 0.19, respectively. Roughly half the uncertainty in r derives from noise associated with the template subtraction. New data at 280 GHz from Spider's second flight will complement the Planck polarization maps, providing powerful measurements of the polarized Galactic dust emission.",

author = "Ade, {P. A.R.} and M. Amiri and Benton, {S. J.} and Bergman, {A. S.} and R. Bihary and Bock, {J. J.} and Bond, {J. R.} and Bonetti, {J. A.} and Bryan, {S. A.} and Chiang, {H. C.} and Contaldi, {C. R.} and O. Dor{\'e} and Duivenvoorden, {A. J.} and Eriksen, {H. K.} and M. Farhang and Filippini, {J. P.} and Fraisse, {A. A.} and K. Freese and M. Galloway and Gambrel, {A. E.} and Gandilo, {N. N.} and K. Ganga and R. Gualtieri and Gudmundsson, {J. E.} and M. Halpern and J. Hartley and M. Hasselfield and G. Hilton and W. Holmes and Hristov, {V. V.} and Z. Huang and Irwin, {K. D.} and Jones, {W. C.} and A. Karakci and Kuo, {C. L.} and Kermish, {Z. D.} and Leung, {J. S.Y.} and S. Li and Mak, {D. S.Y.} and Mason, {P. V.} and K. Megerian and L. Moncelsi and Morford, {T. A.} and Nagy, {J. M.} and Netterfield, {C. B.} and M. Nolta and R. O'Brient and B. Osherson and Padilla, {I. L.} and B. Racine and Rahlin, {A. S.} and C. Reintsema and Ruhl, {J. E.} and Runyan, {M. C.} and Ruud, {T. M.} and Shariff, {J. A.} and Shaw, {E. C.} and C. Shiu and Soler, {J. D.} and X. Song and A. Trangsrud and C. Tucker and Tucker, {R. S.} and Turner, {A. D.} and {Van Der List}, {J. F.} and Weber, {A. C.} and Wehus, {I. K.} and S. Wen and Wiebe, {D. V.} and Young, {E. Y.}",

year = "2022",

month = mar,

day = "1",

doi = "10.3847/1538-4357/ac20df",

language = "English (US)",

volume = "927",

journal = "Astrophysical Journal",

issn = "0004-637X",

publisher = "IOP Publishing Ltd.",

number = "2",

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TY - JOUR

T1 - A Constraint on Primordial B-modes from the First Flight of the Spider Balloon-borne Telescope

AU - Ade, P. A.R.

AU - Amiri, M.

AU - Benton, S. J.

AU - Bergman, A. S.

AU - Bihary, R.

AU - Bock, J. J.

AU - Bond, J. R.

AU - Bonetti, J. A.

AU - Bryan, S. A.

AU - Chiang, H. C.

AU - Contaldi, C. R.

AU - Doré, O.

AU - Duivenvoorden, A. J.

AU - Eriksen, H. K.

AU - Farhang, M.

AU - Filippini, J. P.

AU - Fraisse, A. A.

AU - Freese, K.

AU - Galloway, M.

AU - Gambrel, A. E.

AU - Gandilo, N. N.

AU - Ganga, K.

AU - Gualtieri, R.

AU - Gudmundsson, J. E.

AU - Halpern, M.

AU - Hartley, J.

AU - Hasselfield, M.

AU - Hilton, G.

AU - Holmes, W.

AU - Hristov, V. V.

AU - Huang, Z.

AU - Irwin, K. D.

AU - Jones, W. C.

AU - Karakci, A.

AU - Kuo, C. L.

AU - Kermish, Z. D.

AU - Leung, J. S.Y.

AU - Li, S.

AU - Mak, D. S.Y.

AU - Mason, P. V.

AU - Megerian, K.

AU - Moncelsi, L.

AU - Morford, T. A.

AU - Nagy, J. M.

AU - Netterfield, C. B.

AU - Nolta, M.

AU - O'Brient, R.

AU - Osherson, B.

AU - Padilla, I. L.

AU - Racine, B.

AU - Rahlin, A. S.

AU - Reintsema, C.

AU - Ruhl, J. E.

AU - Runyan, M. C.

AU - Ruud, T. M.

AU - Shariff, J. A.

AU - Shaw, E. C.

AU - Shiu, C.

AU - Soler, J. D.

AU - Song, X.

AU - Trangsrud, A.

AU - Tucker, C.

AU - Tucker, R. S.

AU - Turner, A. D.

AU - Van Der List, J. F.

AU - Weber, A. C.

AU - Wehus, I. K.

AU - Wen, S.

AU - Wiebe, D. V.

AU - Young, E. Y.

PY - 2022/3/1

Y1 - 2022/3/1

N2 - We present the first linear polarization measurements from the 2015 long-duration balloon flight of Spider, which is an experiment that is designed to map the polarization of the cosmic microwave background (CMB) on degree angular scales. The results from these measurements include maps and angular power spectra from observations of 4.8% of the sky at 95 and 150 GHz, along with the results of internal consistency tests on these data. While the polarized CMB anisotropy from primordial density perturbations is the dominant signal in this region of sky, Galactic dust emission is also detected with high significance. Galactic synchrotron emission is found to be negligible in the Spider bands. We employ two independent foreground-removal techniques to explore the sensitivity of the cosmological result to the assumptions made by each. The primary method uses a dust template derived from Planck data to subtract the Galactic dust signal. A second approach, which constitutes a joint analysis of Spider and Planck data in the harmonic domain, assumes a modified-blackbody model for the spectral energy distribution of the dust with no constraint on its spatial morphology. Using a likelihood that jointly samples the template amplitude and r parameter space, we derive 95% upper limits on the primordial tensor-to-scalar ratio from Feldman-Cousins and Bayesian constructions, finding r < 0.11 and r < 0.19, respectively. Roughly half the uncertainty in r derives from noise associated with the template subtraction. New data at 280 GHz from Spider's second flight will complement the Planck polarization maps, providing powerful measurements of the polarized Galactic dust emission.

AB - We present the first linear polarization measurements from the 2015 long-duration balloon flight of Spider, which is an experiment that is designed to map the polarization of the cosmic microwave background (CMB) on degree angular scales. The results from these measurements include maps and angular power spectra from observations of 4.8% of the sky at 95 and 150 GHz, along with the results of internal consistency tests on these data. While the polarized CMB anisotropy from primordial density perturbations is the dominant signal in this region of sky, Galactic dust emission is also detected with high significance. Galactic synchrotron emission is found to be negligible in the Spider bands. We employ two independent foreground-removal techniques to explore the sensitivity of the cosmological result to the assumptions made by each. The primary method uses a dust template derived from Planck data to subtract the Galactic dust signal. A second approach, which constitutes a joint analysis of Spider and Planck data in the harmonic domain, assumes a modified-blackbody model for the spectral energy distribution of the dust with no constraint on its spatial morphology. Using a likelihood that jointly samples the template amplitude and r parameter space, we derive 95% upper limits on the primordial tensor-to-scalar ratio from Feldman-Cousins and Bayesian constructions, finding r < 0.11 and r < 0.19, respectively. Roughly half the uncertainty in r derives from noise associated with the template subtraction. New data at 280 GHz from Spider's second flight will complement the Planck polarization maps, providing powerful measurements of the polarized Galactic dust emission.

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U2 - 10.3847/1538-4357/ac20df

DO - 10.3847/1538-4357/ac20df

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AN - SCOPUS:85126716024

SN - 0004-637X

VL - 927

JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 2

M1 - 174

ER -

A Constraint on Primordial B-modes from the First Flight of the Spider Balloon-borne Telescope

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