A. N. Bender
University of Chicago
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Featured researches published by A. N. Bender.
Proceedings of SPIE | 2014
B. A. Benson; Peter A. R. Ade; Z. Ahmed; S. W. Allen; K. Arnold; J. E. Austermann; A. N. Bender; L. E. Bleem; J. E. Carlstrom; C. L. Chang; H. M. Cho; Jean-François Cliche; T. M. Crawford; A. Cukierman; T. de Haan; M. Dobbs; D. Dutcher; W. Everett; A. Gilbert; N. W. Halverson; D. Hanson; N. L. Harrington; K. Hattori; J. W. Henning; G. C. Hilton; Gilbert P. Holder; W. L. Holzapfel; K. D. Irwin; R. Keisler; L. Knox
We describe the design of a new polarization sensitive receiver, spt-3g, for the 10-meter South Pole Telescope (spt). The spt-3g receiver will deliver a factor of ~20 improvement in mapping speed over the current receiver, spt-pol. The sensitivity of the spt-3g receiver will enable the advance from statistical detection of B-mode polarization anisotropy power to high signal-to-noise measurements of the individual modes, i.e., maps. This will lead to precise (~0.06 eV) constraints on the sum of neutrino masses with the potential to directly address the neutrino mass hierarchy. It will allow a separation of the lensing and inflationary B-mode power spectra, improving constraints on the amplitude and shape of the primordial signal, either through spt-3g data alone or in combination with bicep2/keck, which is observing the same area of sky. The measurement of small-scale temperature anisotropy will provide new constraints on the epoch of reionization. Additional science from the spt-3g survey will be significantly enhanced by the synergy with the ongoing optical Dark Energy Survey (des), including: a 1% constraint on the bias of optical tracers of large-scale structure, a measurement of the differential Doppler signal from pairs of galaxy clusters that will test General Relativity on ~200Mpc scales, and improved cosmological constraints from the abundance of clusters of galaxies
Proceedings of SPIE | 2012
J. E. Austermann; K. A. Aird; James A. Beall; D. Becker; A. N. Bender; B. A. Benson; L. E. Bleem; J. Britton; J. E. Carlstrom; C. L. Chang; H. C. Chiang; H. M. Cho; T. M. Crawford; A. T. Crites; A. Datesman; T. de Haan; M. Dobbs; E. M. George; N. W. Halverson; N. L. Harrington; J. W. Henning; G. C. Hilton; G. P. Holder; W. L. Holzapfel; S. Hoover; N. Huang; J. Hubmayr; K. D. Irwin; R. Keisler; J. Kennedy
SPTpol is a dual-frequency polarization-sensitive camera that was deployed on the 10-meter South Pole Telescope in January 2012. SPTpol will measure the polarization anisotropy of the cosmic microwave background (CMB) on angular scales spanning an arcminute to several degrees. The polarization sensitivity of SPTpol will enable a detection of the CMB “B-mode” polarization from the detection of the gravitational lensing of the CMB by large scale structure, and a detection or improved upper limit on a primordial signal due to inationary gravity waves. The two measurements can be used to constrain the sum of the neutrino masses and the energy scale of ination. These science goals can be achieved through the polarization sensitivity of the SPTpol camera and careful control of systematics. The SPTpol camera consists of 768 pixels, each containing two transition-edge sensor (TES) bolometers coupled to orthogonal polarizations, and a total of 1536 bolometers. The pixels are sensitive to light in one of two frequency bands centered at 90 and 150 GHz, with 180 pixels at 90 GHz and 588 pixels at 150 GHz. The SPTpol design has several features designed to control polarization systematics, including: singlemoded feedhorns with low cross-polarization, bolometer pairs well-matched to dfference atmospheric signals, an improved ground shield design based on far-sidelobe measurements of the SPT, and a small beam to reduce temperature to polarization leakage. We present an overview of the SPTpol instrument design, project status, and science projections.
The Astrophysical Journal | 2015
R. Keisler; S. Hoover; N. L. Harrington; J. W. Henning; Peter A. R. Ade; K. A. Aird; J. E. Austermann; J. A. Beall; A. N. Bender; B. A. Benson; L. E. Bleem; J. E. Carlstrom; C. L. Chang; H. C. Chiang; H. M. Cho; R. Citron; T. M. Crawford; A. T. Crites; T. de Haan; M. Dobbs; W. Everett; J. Gallicchio; J. Gao; E. M. George; A. Gilbert; N. W. Halverson; D. Hanson; G. C. Hilton; Gilbert P. Holder; W. L. Holzapfel
We present a measurement of the
The Astrophysical Journal | 2015
K. Story; D. Hanson; Peter A. R. Ade; K. A. Aird; J. E. Austermann; James A. Beall; A. N. Bender; B. A. Benson; L. E. Bleem; J. E. Carlstrom; C. L. Chang; H. C. Chiang; H. M. Cho; R. Citron; T. M. Crawford; A. T. Crites; T. de Haan; M. Dobbs; W. Everett; J. Gallicchio; Jiansong Gao; E. M. George; A. Gilbert; N. W. Halverson; N. L. Harrington; J. W. Henning; G. C. Hilton; Gilbert P. Holder; W. L. Holzapfel; S. Hoover
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The Astrophysical Journal | 2015
A. T. Crites; J. W. Henning; Peter A. R. Ade; K. A. Aird; J. E. Austermann; James A. Beall; A. N. Bender; B. A. Benson; L. E. Bleem; J. E. Carlstrom; C. L. Chang; H. C. Chiang; H. M. Cho; R. Citron; T. M. Crawford; T. de Haan; M. Dobbs; W. Everett; J. Gallicchio; Jiansong Gao; E. M. George; A. Gilbert; N. W. Halverson; D. Hanson; N. L. Harrington; G. C. Hilton; Gilbert P. Holder; W. L. Holzapfel; S. Hoover; Z. Hou
-mode polarization power spectrum (the
Superconductor Science and Technology | 2015
C. M. Posada; Peter A. R. Ade; Z. Ahmed; K. Arnold; J. E. Austermann; A. N. Bender; L. E. Bleem; B. A. Benson; K. L. Byrum; J. E. Carlstrom; C. L. Chang; H. M. Cho; S. T. Ciocys; Jean-François Cliche; T. M. Crawford; A. Cukierman; David A. Czaplewski; Junjia Ding; Ralu Divan; T. de Haan; M. Dobbs; D. Dutcher; W. Everett; A. Gilbert; N. W. Halverson; N. L. Harrington; K. Hattori; J. W. Henning; G. C. Hilton; W. L. Holzapfel
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Proceedings of SPIE | 2014
K. Arnold; N. Stebor; Peter A. R. Ade; Y. Akiba; A. E. Anthony; M. Atlas; D. Barron; A. N. Bender; D. Boettger; J. Borrill; S. C. Chapman; Y. Chinone; A. Cukierman; M. Dobbs; T. Elleflot; J. Errard; G. Fabbian; C. Feng; A. Gilbert; Neil Goeckner-Wald; N. W. Halverson; M. Hasegawa; K. Hattori; M. Hazumi; W. L. Holzapfel; Y. Hori; Y. Inoue; G. Jaehnig; A. H. Jaffe; Nobuhiko Katayama
spectrum) from 100
The Astrophysical Journal | 2018
J. W. Henning; J. T. Sayre; C. L. Reichardt; Peter A. R. Ade; A. J. Anderson; J. E. Austermann; James A. Beall; A. N. Bender; B. A. Benson; L. E. Bleem; J. E. Carlstrom; C. L. Chang; H. C. Chiang; H. M. Cho; R. Citron; C. Corbett Moran; T. M. Crawford; A. T. Crites; T. de Haan; M. Dobbs; Wendeline Everett; J. Gallicchio; E. M. George; A. Gilbert; N. W. Halverson; N. L. Harrington; G. C. Hilton; Gilbert P. Holder; W. L. Holzapfel; S. Hoover
\mathrm{deg}^2
Proceedings of SPIE | 2016
Y. Inoue; Peter A. R. Ade; Y. Akiba; C. Aleman; K. Arnold; C. Baccigalupi; D. Barron; 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; G. A. Fuller; A. Gilbert; Neil Goeckner-Wald; John Groh; G. Hall; N. W. Halverson; T. Hamada; M. Hasegawa
of sky observed with SPTpol, a polarization-sensitive receiver currently installed on the South Pole Telescope. The observations used in this work were taken during 2012 and early 2013 and include data in spectral bands centered at 95 and 150 GHz. We report the
Proceedings of SPIE | 2012
E. M. George; Peter A. R. Ade; K. A. Aird; J. E. Austermann; James A. Beall; D. Becker; A. N. Bender; B. A. Benson; L. E. Bleem; J. Britton; J. E. Carlstrom; C. L. Chang; H. C. Chiang; H. M. Cho; T. M. Crawford; A. T. Crites; A. Datesman; T. de Haan; M. Dobbs; W. Everett; A. Ewall-Wice; N. W. Halverson; N. L. Harrington; J. W. Henning; G. C. Hilton; W. L. Holzapfel; S. Hoover; N. Huang; J. Hubmayr; K. D. Irwin
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