J. Peloton
University of Sussex
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Publication
Featured researches published by J. Peloton.
arXiv: Cosmology and Nongalactic Astrophysics | 2016
Kevork N. Abazajian; Peter Adshead; Z. Ahmed; S. W. Allen; David Alonso; K. Arnold; C. Baccigalupi; J. G. Bartlett; Nicholas Battaglia; B. A. Benson; C. Bischoff; J. Borrill; Victor Buza; Erminia Calabrese; Robert R. Caldwell; J. E. Carlstrom; C. L. Chang; T. M. Crawford; Francis-Yan Cyr-Racine; Francesco De Bernardis; Tijmen de Haan; Serego Alighieri Sperello di; Joanna Dunkley; Cora Dvorkin; J. Errard; Giulio Fabbian; Stephen M. Feeney; Simone Ferraro; Jeffrey P. Filippini; Raphael Flauger
This book lays out the scientific goals to be addressed by the next-generation ground-based cosmic microwave background experiment, CMB-S4, envisioned to consist of dedicated telescopes at the South Pole, the high Chilean Atacama plateau and possibly a northern hemisphere site, all equipped with new superconducting cameras. CMB-S4 will dramatically advance cosmological studies by crossing critical thresholds in the search for the B-mode polarization signature of primordial gravitational waves, in the determination of the number and masses of the neutrinos, in the search for evidence of new light relics, in constraining the nature of dark energy, and in testing general relativity on large scales.
Physical Review Letters | 2014
Peter A. R. Ade; Y. Akiba; A. E. Anthony; K. Arnold; M. Atlas; D. Barron; D. Boettger; J. Borrill; Sydney Chapman; Y. Chinone; M. Dobbs; T. Elleflot; J. Errard; G. Fabbian; Chang Feng; D. Flanigan; A. Gilbert; William F. Grainger; N. W. Halverson; M. Hasegawa; K. Hattori; M. Hazumi; W. L. Holzapfel; Y. Hori; J. Howard; P. Hyland; Y. Inoue; G. Jaehnig; A. H. Jaffe; Brian Keating
Gravitational lensing due to the large-scale distribution of matter in the cosmos distorts the primordial cosmic microwave background (CMB) and thereby induces new, small-scale B-mode polarization. This signal carries detailed information about the distribution of all the gravitating matter between the observer and CMB last scattering surface. We report the first direct evidence for polarization lensing based on purely CMB information, from using the four-point correlations of even- and odd-parity E- and B-mode polarization mapped over ∼30 square degrees of the sky measured by the POLARBEAR experiment. These data were analyzed using a blind analysis framework and checked for spurious systematic contamination using null tests and simulations. Evidence for the signal of polarization lensing and lensing B modes is found at 4.2σ (stat+sys) significance. The amplitude of matter fluctuations is measured with a precision of 27%, and is found to be consistent with the Lambda cold dark matter cosmological model. This measurement demonstrates a new technique, capable of mapping all gravitating matter in the Universe, sensitive to the sum of neutrino masses, and essential for cleaning the lensing B-mode signal in searches for primordial gravitational waves.
Physical Review D | 2015
Peter A. R. Ade; K. Arnold; M. Atlas; C. Baccigalupi; D. Barron; D. Boettger; J. Borrill; S. C. Chapman; Y. Chinone; A. Cukierman; M. Dobbs; A. Ducout; Rolando Dünner; T. Elleflot; J. Errard; Giulio Fabbian; Stephen M. Feeney; Chang Feng; A. Gilbert; Neil Goeckner-Wald; John Groh; Grantland Hall; N. W. Halverson; M. Hasegawa; K. Hattori; M. Hazumi; Charles Hill; W. L. Holzapfel; Y. Hori; Logan Howe
Author(s): Ade, PAR; Arnold, K; Atlas, M; Baccigalupi, C; Barron, D; Boettger, D; Borrill, J; Chapman, S; Chinone, Y; Cukierman, A; Dobbs, M; Ducout, A; Dunner, R; Elleflot, T; Errard, J; Fabbian, G; Feeney, S; Feng, C; Gilbert, A; Goeckner-Wald, N; Groh, J; Hall, G; Halverson, NW; Hasegawa, M; Hattori, K; Hazumi, M; Hill, C; Holzapfel, WL; Hori, Y; Howe, L; Inoue, Y; Jaehnig, GC; Jaffe, AH; Jeong, O; Katayama, N; Kaufman, JP; Keating, B; Kermish, Z; Keskitalo, R; Kisner, T; Kusaka, A; Le Jeune, M; Lee, AT; Leitch, EM; Leon, D; Li, Y; Linder, E; Lowry, L; Matsuda, F; Matsumura, T; Miller, N; Montgomery, J; Myers, MJ; Navaroli, M; Nishino, H; Okamura, T; Paar, H; Peloton, J; Pogosian, L; Poletti, D; Puglisi, G; Raum, C; Rebeiz, G; Reichardt, CL; Richards, PL; Ross, C; Rotermund, KM; Schenck, DE; Sherwin, BD; Shimon, M; Shirley, I; Siritanasak, P; Smecher, G; Stebor, N; Steinbach, B; Suzuki, A; Suzuki, JI; Tajima, O; Takakura, S; Tikhomirov, A; Tomaru, T; Whitehorn, N; Wilson, B; Yadav, A; Zahn, A | Abstract:
The Astrophysical Journal | 2017
Peter A. R. Ade; M. Aguilar; Y. Akiba; K. Arnold; C. Baccigalupi; D. Barron; D. Beck; Federico Bianchini; D. Boettger; J. Borrill; S. C. Chapman; Y. Chinone; Kevin D. Crowley; A. Cukierman; Rolando Dünner; M. Dobbs; A. Ducout; T. Elleflot; J. Errard; G. Fabbian; Stephen M. Feeney; Chang Feng; T. Fujino; Nicholas Galitzki; A. Gilbert; Neil Goeckner-Wald; John Groh; Grantland Hall; N. W. Halverson; T. Hamada
We report an improved measurement of the cosmic microwave background B-mode polarization power spectrum with the Polarbear experiment at 150 GHz. By adding new data collected during the second season of observations (2013–2014) to re-analyzed data from the first season (2012–2013), we have reduced twofold the band-power uncertainties. The band powers are reported over angular multipoles
Physical Review D | 2017
J. Peloton; Marcel Schmittfull; Antony Lewis; J. Carron; Oliver Zahn
500\leqslant {\ell }\leqslant 2100
Journal of Cosmology and Astroparticle Physics | 2017
S. Takakura; Mario Aguilar; Yoshiki Akiba; K. Arnold; C. Baccigalupi; D. Barron; Shawn Beckman; D. Boettger; J. Borrill; S. C. Chapman; Y. Chinone; A. Cukierman; A. Ducout; T. Elleflot; J. Errard; Giulio Fabbian; Takuro Fujino; Nicholas Galitzki; Neil Goeckner-Wald; N. W. Halverson; M. Hasegawa; K. Hattori; M. Hazumi; Charles Hill; Logan Howe; Y. Inoue; A. H. Jaffe; O. Jeong; D. Kaneko; Nobuhiko Katayama
, where the dominant B-mode signal is expected to be due to the gravitational lensing of E-modes. We reject the null hypothesis of no B-mode polarization at a confidence of 3.1σ including both statistical and systematic uncertainties. We test the consistency of the measured B-modes with the Λ Cold Dark Matter (ΛCDM) framework by fitting for a single lensing amplitude parameter A L relative to the Planck 2015 best-fit model prediction. We obtain
Proceedings of SPIE | 2016
N. Stebor; Peter A. R. Ade; Y. Akiba; C. Aleman; K. Arnold; C. Baccigalupi; D. Barron; S. Beckman; A. N. Bender; D. Boettger; J. Borrill; S. C. Chapman; Y. Chinone; A. Cukierman; T. de Haan; M. Dobbs; A. Ducout; Rolando Dünner; T. Elleflot; J. Errard; G. Fabbian; Stephen M. Feeney; Chang Feng; T. Fujino; G. A. Fuller; A. Gilbert; Neil Goeckner-Wald; John Groh; G. Hall; N. W. Halverson
{A}_{L}={0.60}_{-0.24}^{+0.26}(\mathrm{stat}{)}_{-0.04}^{+0.00}(\mathrm{inst})
Astronomy and Astrophysics | 2017
D. Poletti; Giulio Fabbian; Maude Le Jeune; J. Peloton; K. Arnold; C. Baccigalupi; D. Barron; Shawn Beckman; J. Borrill; S. C. Chapman; Y. Chinone; A. Cukierman; A. Ducout; T. Elleflot; J. Errard; Stephen M. Feeney; Neil Goeckner-Wald; John Groh; Grantland Hall; M. Hasegawa; Masashi Hazumi; Charles Hill; Logan Howe; Y. Inoue; A. H. Jaffe; O. Jeong; Nobuhiko Katayama; Brian Keating; Reijo Keskitalo; T. S. Kisner
± 0.14(foreground) ± 0.04(multi), where
Publications of The Korean Astronomical Society | 2015
Peter A. R. Ade; Y. Akiba; A. E. Anthony; K. Arnold; M. Atlas; D. Barron; D. Boettger; J. Borrill; Sydney Chapman; Y. Chinone; M. Dobbs; T. Elleflot; J. Errard; G. Fabbian; Chang Feng; D. Flanigan; A. Gilbert; William F. Grainger; N. W. Halverson; M. Hasegawa; K. Hattori; M. Hazumi; W. L. Holzapfel; Y. Hori; J. Howard; P. Hyland; Y. Inoue; G. Jaehnig; A. H. Jaffe; Brian Keating
{A}_{L}=1
Journal of Low Temperature Physics | 2018
B. Westbrook; Peter A. R. Ade; M. Aguilar; Y. Akiba; K. Arnold; C. Baccigalupi; D. Barron; D. Beck; S. Beckman; A. N. Bender; Federico Bianchini; D. Boettger; J. Borrill; S. C. Chapman; Y. Chinone; G. Coppi; Kevin D. Crowley; A. Cukierman; T. de Haan; Rolando Dünner; M. Dobbs; T. Elleflot; J. Errard; G. Fabbian; Stephen M. Feeney; Chang Feng; G. A. Fuller; Nicholas Galitzki; A. Gilbert; Neil Goeckner-Wald
is the fiducial ΛCDM value.
