School of Physics - Research Publications

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Start date: 2012 × End date: 2013 × Type: Conference Paper ×

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    Performance and on-sky optical characterization of the SPTpol instrument
    George, EM ; Ade, P ; Aird, KA ; Austermann, JE ; Beall, JA ; Becker, D ; Bender, A ; Benson, BA ; Bleem, LE ; Britton, J ; Carlstrom, JE ; Chang, CL ; Chiang, HC ; Cho, H-M ; Crawford, TM ; Crites, AT ; Datesman, A ; de Haan, T ; Dobbs, MA ; Everett, W ; Ewall-Wice, A ; Halverson, NW ; Harrington, N ; Henning, JW ; Hilton, GC ; Holzapfel, WL ; Hoover, S ; Huang, N ; Hubmayr, J ; Irwin, KD ; Karfunkle, M ; Keisler, R ; Kennedy, J ; Lee, AT ; Leitch, E ; Li, D ; Lueker, M ; Marrone, DP ; McMahon, JJ ; Mehl, J ; Meyer, SS ; Montgomery, J ; Montroy, TE ; Nagy, J ; Natoli, T ; Nibarger, JP ; Niemack, MD ; Novosad, V ; Padin, S ; Pryke, C ; Reichardt, CL ; Ruhl, JE ; Saliwanchik, BR ; Sayre, JT ; Schaffer, KK ; Shirokoff, E ; Story, K ; Tucker, C ; Vanderlinde, K ; Vieira, JD ; Wang, G ; Williamson, R ; Yefremenko, V ; Yoon, KW ; Young, E ; Holland, WS ; Zmuidzinas, J (SPIE-INT SOC OPTICAL ENGINEERING, 2012)
    In January 2012, the 10m South Pole Telescope (SPT) was equipped with a polarization-sensitive camera, SPTpol, in order to measure the polarization anisotropy of the cosmic microwave background (CMB). Measurements of the polarization of the CMB at small angular scales (~several arcminutes) can detect the gravitational lensing of the CMB by large scale structure and constrain the sum of the neutrino masses. At large angular scales (~few degrees) CMB measurements can constrain the energy scale of Inflation. SPTpol is a two-color mm-wave camera that consists of 180 polarimeters at 90 GHz and 588 polarimeters at 150 GHz, with each polarimeter consisting of a dual transition edge sensor (TES) bolometers. The full complement of 150 GHz detectors consists of 7 arrays of 84 ortho-mode transducers (OMTs) that are stripline coupled to two TES detectors per OMT, developed by the TRUCE collaboration and fabricated at NIST. Each 90 GHz pixel consists of two antenna-coupled absorbers coupled to two TES detectors, developed with Argonne National Labs. The 1536 total detectors are read out with digital frequency-domain multiplexing (DfMUX). The SPTpol deployment represents the first on-sky tests of both of these detector technologies, and is one of the first deployed instruments using DfMUX readout technology. We present the details of the design, commissioning, deployment, on-sky optical characterization and detector performance of the complete SPTpol focal plane.
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    SPTpol: an instrument for CMB polarization measurements with the South Pole Telescope
    Austermann, JE ; Aird, KA ; Beall, JA ; Becker, D ; Bender, A ; Benson, BA ; Bleem, LE ; Britton, J ; Carlstrom, JE ; Chang, CL ; Chiang, HC ; Cho, H-M ; Crawford, TM ; Crites, AT ; Datesman, A ; de Haan, T ; Dobbs, MA ; George, EM ; Halverson, NW ; Harrington, N ; Henning, JW ; Hilton, GC ; Holder, GP ; Holzapfel, WL ; Hoover, S ; Huang, N ; Hubmayr, J ; Irwin, KD ; Keisler, R ; Kennedy, J ; Knox, L ; Lee, AT ; Leitch, E ; Li, D ; Lueker, M ; Marrone, DP ; McMahon, JJ ; Mehl, J ; Meyer, SS ; Montroy, TE ; Natoli, T ; Nibarger, JP ; Niemack, MD ; Novosad, V ; Padin, S ; Pryke, C ; Reichardt, CL ; Ruhl, JE ; Saliwanchik, BR ; Sayre, JT ; Schaffer, KK ; Shirokoff, E ; Stark, AA ; Story, K ; Vanderlinde, K ; Vieira, JD ; Wang, G ; Williamson, R ; Yefremenko, V ; Woon, KW ; Zahn, O ; Holland, WS ; Zmuidzinas, J (SPIE-INT SOC OPTICAL ENGINEERING, 2012)
    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 inflationary gravity waves. The two measurements can be used to constrain the sum of the neutrino masses and the energy scale of inflation. 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: single-moded feedhorns with low cross-polarization, bolometer pairs well-matched to difference 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.
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    Feedhorn-Coupled TES Polarimeter Camera Modules at 150 GHz for CMB Polarization Measurements with SPTpol
    Henning, JW ; Ade, P ; Aird, KA ; Austermann, JE ; Beall, JA ; Becker, D ; Benson, BA ; Bleem, LE ; Britton, J ; Carlstrom, JE ; Chang, CL ; Cho, H-M ; Crawford, TM ; Crites, AT ; Datesman, A ; de Haan, T ; Dobbs, MA ; Everett, W ; Ewall-Wice, A ; George, EM ; Halverson, NW ; Harrington, N ; Hilton, GC ; Holzapfel, WL ; Hubmayr, J ; Irwin, KD ; Karfunkle, M ; Keisler, R ; Kennedy, J ; Lee, AT ; Leitch, E ; Li, D ; Lueker, M ; Marrone, DP ; McMahon, JJ ; Mehl, J ; Meyer, SS ; Montgomery, J ; Montroy, TE ; Nagy, J ; Natoli, T ; Nibarger, JP ; Niemack, MD ; Novosad, V ; Padin, S ; Pryke, C ; Reichardt, CL ; Ruhl, JE ; Saliwanchik, BR ; Sayre, JT ; Schaffer, KK ; Shirokoff, E ; Stroy, K ; Tucker, C ; Vanderlinde, K ; Vieira, JD ; Wang, G ; Williamson, R ; Yefremenko, V ; Yoon, KW ; Young, E ; Holland, WS ; Zmuidzinas, J (SPIE-INT SOC OPTICAL ENGINEERING, 2012)
    The SPTpol camera is a dichroic polarimetric receiver at 90 and 150 GHz. Deployed in January 2012 on the South Pole Telescope (SPT), SPTpol is looking for faint polarization signals in the Cosmic Microwave Background (CMB). The camera consists of 180 individual Transition Edge Sensor (TES) polarimeters at 90 GHz and seven 84-polarimeter camera modules (a total of 588 polarimeters) at 150 GHz. We present the design, dark characterization, and in-lab optical properties of the 150 GHz camera modules. The modules consist of photolithographed arrays of TES polarimeters coupled to silicon platelet arrays of corrugated feedhorns, both of which are fabricated at NIST-Boulder. In addition to mounting hardware and RF shielding, each module also contains a set of passive readout electronics for digital frequency-domain multiplexing. A single module, therefore, is fully functional as a miniature focal plane and can be tested independently. Across the modules tested before deployment, the detectors average a critical temperature of 478 mK, normal resistance R_N of 1.2 Ohm, unloaded saturation power of 22.5 pW, (detector-only) optical efficiency of ~ 90%, and have electrothermal time constants < 1 ms in transition.
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    Design and characterization of 90 GHz feedhorn-coupled TES polarimeter pixels in the SPTpol camera
    Sayre, JT ; Ade, P ; Aird, KA ; Austermann, JE ; Beall, JA ; Becker, D ; Benson, BA ; Bleem, LE ; Britton, J ; Carlstrom, JE ; Chang, CL ; Cho, H-M ; Crawford, TM ; Crites, AT ; Datesman, A ; de Haan, T ; Dobbs, MA ; Everett, W ; Ewall-Wice, A ; George, EM ; Halverson, NW ; Harrington, N ; Henning, JW ; Hilton, GC ; Holzapfel, WL ; Hubmayr, J ; Irwin, KD ; Karfunkle, M ; Keisler, R ; Kennedy, J ; Lee, AT ; Leitch, E ; Li, D ; Lueker, M ; Marrone, DP ; McMahon, JJ ; Mehl, J ; Meyer, SS ; Montgomery, J ; Montroy, TE ; Nagy, J ; Natoli, T ; Nibarger, JP ; Niemack, MD ; Novosad, V ; Padin, S ; Pryke, C ; Reichardt, CL ; Ruhl, JE ; Saliwanchik, BR ; Schaffer, KK ; Shirokoff, E ; Story, K ; Tucker, C ; Vanderlinde, K ; Vieira, JD ; Wang, G ; Williamson, R ; Yefremenko, V ; Yoon, KW ; Young, E ; Holland, WS ; Zmuidzinas, J (SPIE-INT SOC OPTICAL ENGINEERING, 2012)
    The SPTpol camera is a two-color, polarization-sensitive bolometer receiver, and was installed on the 10 meter South Pole Telescope in January 2012. SPTpol is designed to study the faint polarization signals in the Cosmic Microwave Background, with two primary scientific goals. One is to constrain the tensor-to-scalar ratio of perturbations in the primordial plasma, and thus constrain the space of permissible inflationary models. The other is to measure the weak lensing effect of large-scale structure on CMB polarization, which can be used to constrain the sum of neutrino masses as well as other growth-related parameters. The SPTpol focal plane consists of seven 84-element monolithic arrays of 150 GHz pixels (588 total) and 180 individual 90 GHz single-pixel modules. In this paper we present the design and characterization of the 90 GHz modules.
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    The bolometric focal plane array of the POLARBEAR CMB experiment
    Arnold, K ; Ade, PAR ; Anthony, AE ; Barron, D ; Boettger, D ; Borrill, J ; Chapman, S ; Chinone, Y ; Dobbs, MA ; Errard, J ; Fabbian, G ; Flanigan, D ; Fuller, G ; Ghribi, A ; Grainger, W ; Halverson, N ; Hasegawa, M ; Hattori, K ; Hazumi, M ; Holzapfel, WL ; Howard, J ; Hyland, P ; Jaffe, A ; Keating, B ; Kermish, Z ; Kisner, T ; Le Jeune, M ; Lee, AT ; Linder, E ; Lungu, M ; Matsuda, F ; Matsumura, T ; Miller, NJ ; Meng, X ; Morii, H ; Moyerman, S ; Myers, MJ ; Nishino, H ; Paar, H ; Quealy, E ; Reichardt, C ; Richards, PL ; Ross, C ; Shimizu, A ; Shimmin, C ; Shimon, M ; Sholl, M ; Siritanasak, P ; Spieler, H ; Stebor, N ; Steinbach, B ; Stompor, R ; Suzuki, A ; Tomaru, T ; Tucker, C ; Zahn, O ; Holland, WS ; Zmuidzinas, J (SPIE-INT SOC OPTICAL ENGINEERING, 2012)
    The Polarbear Cosmic Microwave Background (CMB) polarization experiment is currently observing from the Atacama Desert in Northern Chile. It will characterize the expected B-mode polarization due to gravitational lensing of the CMB, and search for the possible B-mode signature of inflationary gravitational waves. Its 250 mK focal plane detector array consists of 1,274 polarization-sensitive antenna-coupled bolometers, each with an associated lithographed band-defining filter. Each detector's planar antenna structure is coupled to the telescope's optical system through a contacting dielectric lenslet, an architecture unique in current CMB experiments. We present the initial characterization of this focal plane.
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    A Novel Multi-Scale Modeling Approach for Determining the Bulk Properties of Difficult-to-Characterise Composites
    FINLAYSON, TR ; Mignone, PJ ; Wang, M ; Echlin, MP ; Mottura, A ; Pollack, TM ; Riley, DP ; Franks, GV ; McIntyre, G ; Mole, R (Australian Institute of Phjysics, 2013)