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101. The Zodiacal Emission Spectrum as Determined by COBE and its Implications

Author

Fixsen, D. J, Dwek, Eli, and Oliversen, R

Subjects
Space Radiation
Abstract

We combine observations from the DIRBE and FIRAS instruments on the COBE satellite to derive an annually-averaged spectrum of the zodiacal cloud in the 10 to 1000 micron wavelength region. The spectrum exhibits a break at approx. 150 microns which indicates a sharp break in the dust size distribution at a radius of about 30 microns The spectrum can be fit with a single blackbody with a lambda(exp -2) emissivity law beyond 150 microns and a temperature of 240 K. We also used a more realistic characterization of the cloud to fit the spectrum, including a distribution of dust temperatures, representing different dust compositions and distances from the sun, as well as a realistic representation of the spatial distribution of the dust. We show that amorphous carbon and silicate dust with respective temperatures of 280 and 274 K at 1 AU, and size distributions with a break at grain radii of 14 and 32 microns, can provide a good fit to the average zodiacal dust spectrum. The total mass of the zodiacal cloud is 2 to 11 Eg (Eg=10(exp 18) g), depending on the grain composition. The lifetime of the cloud, against particle loss by Poynting- Robertson drag and the effects of solar wind, is about 10(exp 5) yr. The required replenishment rate is approx. 10(exp 14) g/yr. If this is provided by asteroid belt alone, the asteroids lifetime would be approx. 3 x 10(exp 10) yr. But comets and Kuiper belt objects may also contribute to the zodiacal cloud.

Published
2002

102. Optimal Fitting of Non-linear Detector Pulses with Nonstationary Noise

Author

Fixsen, D. J, Moseley, S. H, Cabera, B, Figueroa-Felicianco, E, and Oegerle, William

Subjects
Physics (General)
Abstract

Optimal extraction of pulses of constant known shape from a time series with stationary noise is well understood and widely used in detection applications. Applications where high resolution is required over a wide range of input signal amplitudes use much of the dynamic range of the sensor. The noise will in general vary over this signal range, and the response may be a nonlinear function of the energy input. We present an optimal least squares procedure for inferring input energy in such a detector with nonstationary noise and nonlinear energy response.

Published
2002

103. The Long Duration Flight of the TopHat Experiment

Author

Silverberg, R, Aguirre, J, Bezaire, J, Cheng, E, Cordone, S, Christensen, P. R, Cottingham, D, Crawford, T, Fixsen, D, Meyer, S. S, and Oegerle, William

Subjects
Instrumentation And Photography
Abstract

TopHat is a balloon-borne instrument designed to operate on the top of a balloon. From this location, the experiment could efficiently observe using a clean beam with extremely low sidelobes. The experiment was designed to scan a large portion of the sky directly above it and to map the anisotropy of the Cosmic Microwave Background (CMBR) and thermal emission from galactic dust. The instrument used a one meter class telescope with a five band single pixel radiometer spanning the frequency range from 150-600 GHz. The radiometer used bolometric detectors operating at approx. 250 mK. Here, we will report on the flight of the TopHat experiment over Antarctica in January, 2001 and describe the scientific goals, the operation, and in-flight performance.

Published
2002

104. Spectral distortions of the CMB as a probe of inflation, recombination, structure formation and particle physics: Astro2020 Science White Paper

Author

Chluba, J., Kogut, A., Patil, S.P., Abitbol, M.H., Aghanim, N., Ali-Haïmoud, Y., Amin, M.A., Aumont, J., Bartolo, N., Basu, K., Battistelli, E.S., Battye, R., Baumann, D., Ben-Dayan, I., Bolliet, B., Bond, J.R., Bouchet, F.R., Burgess, C.P., Burigana, C., Byrnes, C.T., Cabass, G., Chuss, D.T., Clesse, S., Cole, P.S., Dai, L., de Bernardis, P., Delabrouille, J., Desjacques, V., de Zotti, G., Diacoumis, J.A.D., Dimastrogiovanni, E., Di Valentino, E., Dunkley, J., Durrer, R., Dvorkin, C., Ellis, J., Eriksen, H.K., Fasiello, M., Fixsen, D., Finelli, F., Flauger, R., Galli, S., Garcia-Bellido, J., Gervasi, M., Gluscevic, V., Grin, D., Hart, L., Hernandez-Monteagudo, C., Hill, J.C., Jeong, D., Johnson, B.R., Lagache, G., Lee, E., Lewis, A., Liguori, M., Kamionkowski, M., Khatri, R., Kohri, K., Komatsu, E., Kunze, K.E., Mangilli, A., Masi, S., Mather, J., Matarrese, S., Miville-Deschênes, M.A., Montaruli, T., Münchmeyer, M., Mukherjee, S., Nakama, T., Nati, F., Ota, A., Page, L.A., Pajer, E., Poulin, Vivian, Ravenni, A., Reichardt, C., Remazeilles, M., Rotti, A., Rubiño-Martin, J.A., Sarkar, A., Sarkar, S., Savini, G., Scott, D., Serpico, P.D., Silk, J., Souradeep, T., Spergel, D.N., Starobinsky, A.A., Subrahmanyan, R., Sunyaev, R.A., Switzer, E., Tartari, A., Tashiro, H., Basu Thakur, R., Trombetti, T., Wallisch, B., Wandelt, B.D., Wehus, I.K., Wollack, E.J., Zaldarriaga, M., Zannoni, M., Jodrell Bank Centre for Astrophysics (JBCA), University of Manchester [Manchester], NASA, Institut d'astrophysique spatiale (IAS), Université Paris-Sud - Paris 11 (UP11)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)-Centre National d’Études Spatiales [Paris] (CNES), Institut de recherche en astrophysique et planétologie (IRAP), Université Toulouse III - Paul Sabatier (UT3), Université de Toulouse (UT)-Université de Toulouse (UT)-Institut national des sciences de l'Univers (INSU - CNRS)-Observatoire Midi-Pyrénées (OMP), Institut de Recherche pour le Développement (IRD)-Université Toulouse III - Paul Sabatier (UT3), Université de Toulouse (UT)-Université de Toulouse (UT)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS)-Météo-France -Institut de Recherche pour le Développement (IRD)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS)-Météo-France -Centre National de la Recherche Scientifique (CNRS), Institut d'Astrophysique de Paris (IAP), Institut national des sciences de l'Univers (INSU - CNRS)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), AstroParticule et Cosmologie (APC (UMR_7164)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Cité (UPCité), Département d'Astrophysique (ex SAP) (DAP), Institut de Recherches sur les lois Fondamentales de l'Univers (IRFU), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay, Laboratoire d'Astrophysique de Marseille (LAM), Aix Marseille Université (AMU)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS), Astrophysique Interprétation Modélisation (AIM (UMR7158 / UMR_E_9005 / UM_112)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS), Institut Lagrange de Paris, Laboratoire Univers et Particules de Montpellier (LUPM), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS), Laboratoire d'Annecy-le-Vieux de Physique Théorique (LAPTH), Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), European Project: 725456,CMBSPEC, Université Paris-Sud - Paris 11 (UP11)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS), Institut national des sciences de l'Univers (INSU - CNRS)-Université Toulouse III - Paul Sabatier (UT3), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Observatoire Midi-Pyrénées (OMP), Météo France-Centre National d'Études Spatiales [Toulouse] (CNES)-Université Fédérale Toulouse Midi-Pyrénées-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD)-Météo France-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD)-Centre National de la Recherche Scientifique (CNRS), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS)-Université de Paris (UP), Astrophysique Interprétation Modélisation (AIM (UMR_7158 / UMR_E_9005 / UM_112)), Centre National de la Recherche Scientifique (CNRS)-Institut national des sciences de l'Univers (INSU - CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris Diderot - Paris 7 (UPD7), Sorbonne Université (SU), Université Montpellier 2 - Sciences et Techniques (UM2)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS), Université Fédérale Toulouse Midi-Pyrénées-Centre National de la Recherche Scientifique (CNRS), Observatoire de Paris, PSL Research University (PSL)-PSL Research University (PSL)-Université Paris Diderot - Paris 7 (UPD7)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Sorbonne Universités, Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Observatoire de Paris, PSL Research University (PSL)-PSL Research University (PSL)-Université Paris Diderot - Paris 7 (UPD7), Centre National de la Recherche Scientifique (CNRS)-Institut national des sciences de l'Univers (INSU - CNRS)-Aix Marseille Université (AMU)-Centre National d'Études Spatiales [Toulouse] (CNES), and Université de Montpellier (UM)-Université Montpellier 2 - Sciences et Techniques (UM2)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)

Subjects
polarization: anisotropy, new physics, redshift: dependence, formation, Astrophysics::Cosmology and Extragalactic Astrophysics, dark matter: density, recombination, inflation: model, cosmic background radiation: temperature, cosmic background radiation: energy spectrum, ionization, spectral, correlation function, structure, history, numerical calculations, [PHYS.ASTR]Physics [physics]/Astrophysics [astro-ph]
Abstract

International audience; Following the pioneering observations with COBE in the early 1990s, studies of the cosmic microwave background (CMB) have focused on temperature and polarization anisotropies. CMB spectral distortions - tiny departures of the CMB energy spectrum from that of a perfect blackbody - provide a second, independent probe of fundamental physics, with a reach deep into the primordial Universe. The theoretical foundation of spectral distortions has seen major advances in recent years, which highlight the immense potential of this emerging field. Spectral distortions probe a fundamental property of the Universe - its thermal history - thereby providing additional insight into processes within the cosmological standard model (CSM) as well as new physics beyond. Spectral distortions are an important tool for understanding inflation and the nature of dark matter. They shed new light on the physics of recombination and reionization, both prominent stages in the evolution of our Universe, and furnish critical information on baryonic feedback processes, in addition to probing primordial correlation functions at scales inaccessible to other tracers. In principle the range of signals is vast: many orders of magnitude of discovery space could be explored by detailed observations of the CMB energy spectrum. Several CSM signals are predicted and provide clear experimental targets, some of which are already observable with present-day technology. Confirmation of these signals would extend the reach of the CSM by orders of magnitude in physical scale as the Universe evolves from the initial stages to its present form. The absence of these signals would pose a huge theoretical challenge, immediately pointing to new physics.

Published
2019

106. Sub-Kelvin cooling for two kilopixel bolometer arrays in the PIPER receiver

Author

Switzer, E. R., primary, Ade, P. A. R., additional, Baildon, T., additional, Benford, D., additional, Bennett, C. L., additional, Chuss, D. T., additional, Datta, R., additional, Eimer, J. R., additional, Fixsen, D. J., additional, Gandilo, N. N., additional, Essinger-Hileman, T. M., additional, Halpern, M., additional, Hilton, G., additional, Irwin, K., additional, Jhabvala, C., additional, Kimball, M., additional, Kogut, A., additional, Lazear, J., additional, Lowe, L. N., additional, McMahon, J. J., additional, Miller, T. M., additional, Mirel, P., additional, Moseley, S. H., additional, Pawlyk, S., additional, Rodriguez, S., additional, Sharp, E., additional, Shirron, P., additional, Staguhn, J. G., additional, Sullivan, D. F., additional, Taraschi, P., additional, Tucker, C. E., additional, Walts, A., additional, and Wollack, E. J., additional

Published
2019
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108. Measurement of the cosmic microwave background spectrum by the COBE FIRAS instrument

Author

Mather, J. C, Cheng, E. S, Cottingham, D. A, Eplee, R. E., Jr, Fixsen, D. J, Hewagama, T, Isaacman, R. B, Jensen, K. A, Meyer, S. S, and Noerdlinger, P. D

Subjects
Astrophysics
Abstract

The cosmic microwave background radiation (CMBR) has a blackbody spectrum within 3.4 x 10(exp -8) ergs/sq cm/s/sr cm over the frequency range from 2 to 20/cm (5-0.5 mm). These measurements, derived from the Far-Infrared Absolute Spectrophotomer (FIRAS) instrument on the Cosmic Background Explorer (COBE) satellite, imply stringent limits on energy release in the early universe after t approximately 1 year and redshift z approximately 3 x 10(exp 6). The deviations are less than 0.30% of the peak brightness, with an rms value of 0.01%, and the dimensionless cosmological distortion parameters are limited to the absolute value of y is less than 2.5 x 10(exp -5) and the absolute value of mu is less than 3.3 x 10(exp -4) (95% confidence level). The temperature of the CMBR is 2.726 +/- 0.010 K (95% confidence level systematic).

Published
1994
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109. Cosmic microwave background dipole spectrum measured by the COBE FIRAS instrument

Author

Fixsen, D. J, Cheng, E. S, Cottingham, D. A, Eplee, R. E., Jr, Isaacman, R. B, Mather, J. C, Meyer, S. S, Noerdlinger, P. D, Shafer, R. A, and Weiss, R

Subjects
Astrophysics
Abstract

The Far-Infrared Absolute Spectrophotometer (FIRAS) instrument on the Cosmic Background Explorer (COBE) has determined the dipole spectrum of the cosmic microwave background radiation (CMBR) from 2 to 20/cm. For each frequency the signal is decomposed by fitting to a monopole, a dipole, and a Galactic template for approximately 60% of the sky. The overall dipole spectrum fits the derivative of a Planck function with an amplitude of 3.343 +/- 0.016 mK (95% confidence level), a temperature of 2.714 +/- 0.022 K (95% confidence level), and an rms deviation of 6 x 10(exp -9) ergs/sq cm/s/sr cm limited by a detector and cosmic-ray noise. The monopole temperature is consistent with that determined by direct measurement in the accompanying article by Mather et al.

Published
1994
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110. Calibration of the COBE FIRAS instrument

Author

Fixsen, D. J, Cheng, E. S, Cottingham, D. A, Eplee, R. E., Jr, Hewagama, T, Isaacman, R. B, Jensen, K. A, Mather, J. C, Massa, D. L, and Meyer, S. S

Subjects
Astrophysics
Abstract

The Far-Infrared Absolute Spectrophotometer (FIRAS) instrument on the Cosmic Background Explorer (COBE) satellite was designed to accurately measure the spectrum of the cosmic microwave background radiation (CMBR) in the frequency range 1-95/cm with an angular resolution of 7 deg. We describe the calibration of this instrument, including the method of obtaining calibration data, reduction of data, the instrument model, fitting the model to the calibration data, and application of the resulting model solution to sky observations. The instrument model fits well for calibration data that resemble sky condition. The method of propagating detector noise through the calibration process to yield a covariance matrix of the calibrated sky data is described. The final uncertainties are variable both in frequency and position, but for a typical calibrated sky 2.6 deg square pixel and 0.7/cm spectral element the random detector noise limit is of order of a few times 10(exp -7) ergs/sq cm/s/sr cm for 2-20/cm, and the difference between the sky and the best-fit cosmic blackbody can be measured with a gain uncertainty of less than 3%.

Published
1994
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111. Interpretation of the COBE FIRAS CMBR spectrum

Author

Wright, E. L, Mather, J. C, Fixsen, D. J, Kogut, A, Shafer, R. A, Bennett, C. L, Boggess, N. W, Cheng, E. S, Silverberg, R. F, and Smoot, G. F

Subjects
Astrophysics
Abstract

The cosmic microwave background radiation (CMBR) spectrum measured by the Far-Infrared Absolute Spectrophotometer (FIRAS) instrument on NASA's Cosmic Background Explorer (COBE) is indistinguishable from a blackbody, implying stringent limits on energy release in the early universe later than the time t = 1 yr after the big bang. We compare the FIRAS data to previous precise measurements of the cosmic microwave background spectrum and find a reasonable agreement. We discuss the implications of the absolute value of y is less than 2.5 x 10(exp -5) and the absolute value of mu is less than 3.3 x 10(exp -4) 95% confidence limits found by Mather et al. (1994) on many processes occurring after t = 1 yr, such as explosive structure formation, reionization, and dissipation of small-scale density perturbations. We place limits on models with dust plus Population III stars, or evolving populations of IR galaxies, by directly comparing the Mather et al. spectrum to the model predictions.

Published
1994
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112. Limits of Gaussian fluctuations in the cosmic microwave background at 19.2 GHz

Author

Boughn, S. P, Cheng, E. S, Cottingham, D. A, and Fixsen, D. J

Subjects
Space Radiation
Abstract

The Northern Hemisphere data from the 19.2 GHz full sky survey are analyzed to place limits on the magnitude of Gaussian fluctuations in the cosmic microwave background implied by a variety of correlation functions. Included among the models tested are the monochromatic and Gaussian-shaped families, and those with power-law spectra for n values between -2 and 1. An upper bound is placed on the quadrupole anisotropy of Delta T/T less than 3.2 x 10 exp -5 rms, and an upper bound on scale-invariant (n = 1) fluctuations of a2 less than 4.5 x 10 exp -5 (95 percent confidence level). There is significant contamination of these data from Galactic emission, and improvement of the modeling of the Galaxy could yield a significant reduction of these upper bounds.

Published
1992
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113. Limits on Gaussian fluctuations in the cosmic microwave background at 19.2 GHz

Author

Boughn, S. P, Cheng, E. S, Cottingham, D. A, and Fixsen, D. J

Subjects
Space Radiation
Abstract

The Northern Hemisphere data from the 19.2 GHz full sky survey are analyzed to place limits on the magnitude of Gaussian fluctuations in the cosmic microwave background implied by a variety of correlation functions. Included among the models tested are the monochromatic and Gaussian-shaped families, and those with power law spectra for n from -2 to 1. We place an upper bound on the quadrupole anisotropy of DeltaT/T less than 3.2 x 10 exp -5 rms, and an upper bound on scale-invariant (n = 1) fluctuations of a2 less than 4.5 x 10 exp -5 (95 percent confidence level). There is significant contamination of these data from Galactic emission, and improvement of our modeling of the Galaxy could yield a significant reduction of these upper bounds.

Published
1991

114. Early results from the Far Infrared Absolute Spectrophotometer (FIRAS)

Author

Mather, J. C, Cheng, E. S, Shafer, R. A, Eplee, R. E, Isaacman, R. B, Fixsen, D. J, Read, S. M, Meyer, S. S, Weiss, R, and Wright, E. L

Subjects
Spacecraft Instrumentation
Abstract

The Far Infrared Absolute Spectrophotometer (FIRAS) on the Cosmic Background Explorer (COBE) mapped 98 percent of the sky, 60 percent of it twice, before the liquid helium coolant was exhausted. The FIRAS covers the frequency region from 1 to 100/cm with a 7 deg angular resolution. The spectral resolution is 0.2/cm for frequencies less than 20/cm and 0.8/cm for higher frequencies. Preliminary results include: a limit on the deviations from a Planck curve of 1 percent of the peak brightness from 1 to 20/cm, a temperature of 2.735 +/- 0.06 K, a limit on the Comptonization parameter y of 0.001, on the chemical potential parameter mu of 0.01, a strong limit on the existence of a hot smooth intergalactic medium, and a confirmation that the dipole anisotropy spectrum is that of a Doppler shifted blackbody.

Published
1991

116. The Balloon Experimental Twin Telescope for infrared interferometry (BETTII): first flight

Author

Rinehart, Stephen A., primary, Dhabal, Arnab, primary, Fixsen, D. J., primary, Juanola-Parramon, Roser, primary, Leisawitz, David T., primary, Maher, Stephen F., primary, Mentzell, John E., primary, Mundy, Lee G., primary, Rizzo, Maxime J., primary, Sampler, Henry P., primary, Sharp, Elmer H., primary, Silverberg, Robert F., primary, Casalprim Torres, Marc, primary, Veach, Todd J., primary, Vila Hernández de Lorenzo, Jordi, primary, Ade, Peter A. R., primary, Tucker, Carole E., primary, Pascale, Enzo, primary, and Savini, Giorgio, primary

Published
2018
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117. A balloon borne 19-GHz radiometer

Author

Boughn, S. P, Cheng, E. S, Cottingham, D. A, and Fixsen, D. J

Subjects
Instrumentation And Photography
Abstract

The design and performance of a 19-GHz one-horn maser radiometer is discussed. The antenna is a lensed, conical horn with 3-deg angular resolution. The radiometer is stabilized by chopping against an internal cold load. A novel chopping scheme allows continual calibration of maser gain fluatuations with only a modest penalty in noise. The method of calibrating this instrument is described. The instrument has been used to map the sky with an equivalent blackbody temperature sensitivity of 1 mK per 3 x 3 deg resolution element.

Published
1990
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118. The Radio Synchrotron Background:Conference Summary and Report

Author

Singal, J., Haider, J., Ajello, M., Ballantyne, D. R., Bunn, E., Condon, J., Dowell, J., Fixsen, D., Fornengo, N., Harms, B., Holder, G., Jones, E., Kellermann, K., Kogut, A., Linden, T., Monsalve, R., Mertsch, P., Murphy, E., Orlando, E., Regis, M., Scott, D., Vernstrom, T., Xu, L., Singal, J., Haider, J., Ajello, M., Ballantyne, D. R., Bunn, E., Condon, J., Dowell, J., Fixsen, D., Fornengo, N., Harms, B., Holder, G., Jones, E., Kellermann, K., Kogut, A., Linden, T., Monsalve, R., Mertsch, P., Murphy, E., Orlando, E., Regis, M., Scott, D., Vernstrom, T., and Xu, L.

Published
2018

119. Prospects for polarized foreground removal

Author

Dunkley, J, Amblard, A, Baccigalupi, C, Betoule, M, Chuss, D, Cooray, A, Delabrouille, J, Dickinson, C, Dobler, G, Dotson, J, Eriksen, H, Finkbeiner, D, Fixsen, D, Fosalba, P, Fraisse, A, Hirata, C, Kogut, A, Kristiansen, J, Lawrence, C, Magalhaes, A, Miville-Deschenes, M, Meyer, S, Miller, A, Naess, S, and Page, L

Published
2016

120. Improved Reference Sampling and Subtraction: A Technique for Reducing the Read Noise of Near-infrared Detector Systems

Author

Rauscher, Bernard J., primary, Arendt, Richard G., additional, Fixsen, D. J., additional, Greenhouse, Matthew A., additional, Lander, Matthew, additional, Lindler, Don, additional, Loose, Markus, additional, Moseley, S. H., additional, Mott, D. Brent, additional, Wen, Yiting, additional, Wilson, Donna V., additional, and Xenophontos, Christos, additional

Published
2017
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122. The Space High Angular Resolution Probe for the Infrared (SHARP-IR)

Author

Rinehart, S. A., additional, Rizzo, M. J., additional, Leisawitz, D. T., additional, Staguhn, J. G., additional, DiPirro, M., additional, Mentzell, J. E., additional, Juanola-Parramon, R., additional, Dhabal, A., additional, Mundy, L. G., additional, Moseley, S. H., additional, Mather, J. C., additional, Padgett, D. L., additional, Stapelfeldt, K., additional, Roberge, A., additional, Cordiner, M., additional, Milam, S., additional, Veach, T., additional, and Fixsen, D., additional

Published
2016
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124. Dealing with beam structure in PIXIE

Author

Fixsen, D. J., additional, Kogut, Alan, additional, Hill, Robert S., additional, Nagler, Peter C., additional, Seals, Lenward T., additional, and Howard, Joseph M., additional

Published
2016
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125. Principal components analysis of a JWST NIRSpec detector subsystem

Author

Rauscher, Bernard J., Arendt, Richard, Fixsen, D. J., Greenhouse, Matthew A., Lander, Matthew, Lindler, Don, Loose, Markus, Moseley, S. H., Mott, D. Brent, Wen, Yiting, Wilson, Donna V., and Xenophontos, Christos

Subjects
genetic structures, sense organs, eye diseases
Abstract

SPIE Optical Engineering + Applications, 2013, San Diego, California, United States, We present principal component analysis (PCA) of a flight-representative James Webb Space Telescope Near Infrared Spectrograph (NIRSpec) Detector Subsystem. Although our results are specific to NIRSpec and its T ~ 40 K SIDECAR ASICs and 5 μm cutoff H2RG detector arrays, the underlying technical approach is more general. We describe how we measured the system’s response to small environmental perturbations by modulating a set of bias voltages and temperature. We used this information to compute the system’s principal noise components. Together with information from the astronomical scene, we show how the zeroth principal component can be used to calibrate out the effects of small thermal and electrical instabilities to produce cosmetically cleaner images with significantly less correlated noise. Alternatively, if one were designing a new instrument, one could use PCA to determine a set of environmental requirements (temperature stability, electrical stability, etc.) that enabled the planned instrument to meet performance requirements.

Published
2013
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126. RECOVERY OF LARGE ANGULAR SCALE CMB POLARIZATION FOR INSTRUMENTS EMPLOYING VARIABLE-DELAY POLARIZATION MODULATORS

Author

Miller, N. J., primary, Chuss, D. T., additional, Marriage, T. A., additional, Wollack, E. J., additional, Appel, J. W., additional, Bennett, C. L., additional, Eimer, J., additional, Essinger-Hileman, T., additional, Fixsen, D. J., additional, Harrington, K., additional, Moseley, S. H., additional, Rostem, K., additional, Switzer, E. R., additional, and Watts, D. J., additional

Published
2016
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127. Progress Towards Improved Analysis of TES X-ray Data Using Principal Component Analysis

Author

Busch, S. E., primary, Adams, J. S., additional, Bandler, S. R., additional, Chervenak, J. A., additional, Eckart, M. E., additional, Finkbeiner, F. M., additional, Fixsen, D. J., additional, Kelley, R. L., additional, Kilbourne, C. A., additional, Lee, S.-J., additional, Moseley, S. H., additional, Porst, J.-P., additional, Porter, F. S., additional, Sadleir, J. E., additional, and Smith, S. J., additional

Published
2015
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129. Building an interferometer at the edge of space: pointing and phase control system for BETTII

Author

Rizzo, Maxime J., additional, Rinehart, S. A., additional, Alcorn, J. B., additional, Barclay, R. B., additional, Barry, R. K., additional, Benford, D. J., additional, Dhabal, A., additional, Fixsen, D. J., additional, Gore, A. S., additional, Johnson-Shapoval, S., additional, Leisawitz, D. T., additional, Maher, S. F., additional, Mundy, L. G., additional, Papageorgiou, A., additional, Pascale, E., additional, Rau, A., additional, Silverberg, R. F., additional, Taraschi, P., additional, Veach, T. J., additional, and Weinreich, S., additional

Published
2014
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130. The balloon experimental twin telescope for infrared interferometry (BETTII): interferometry at the edge of the atmosphere

Author

Rinehart, S., additional, Rizzo, M., additional, Fixsen, D., additional, Ade, P., additional, Barclay, R., additional, Barry, R., additional, Benford, D., additional, Dhabal, A., additional, Juanola-Parramon, R., additional, Klemencic, Georgina, additional, Griffin, M., additional, Leisawitz, David T., additional, Maher, S., additional, Mentzell, J., additional, Mundy, Lee G., additional, Pascale, E., additional, Savini, G., additional, Silverberg, Robert F., additional, Staguhn, J., additional, and Veach, T., additional

Published
2014
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133. Probing the Universe's Tilt with the Cosmic Infrared Background Dipole

Author

Fixsen, D. J., Kashlinsky, A., Fixsen, D. J., and Kashlinsky, A.

Abstract

Conventional interpretation of the observed cosmic microwave background (CMB) dipole is that all of it is produced by local peculiar motions. Alternative explanations requiring part of the dipole to be primordial have received support from measurements of large-scale bulk flows. A test of the two hypothesis is whether other cosmic dipoles produced by collapsed structures later than last scattering coincide with the CMB dipole. One background is the cosmic infrared background (CIB) whose absolute spectrum was measured to ~30% by the COBE satellite. Over the 100 to 500 {\mu}m wavelength range its spectral energy distribution can provide a probe of its alignment with CMB. This is tested with the COBE FIRAS dataset which is available for such a measurement because of its low noise and frequency resolution important for Galaxy subtraction. Although the FIRAS instrument noise is in principle low enough to determine the CIB dipole, the Galactic foreground is sufficiently close spectrally to keep the CIB dipole hidden. A similar analysis is performed with DIRBE, which - because of the limited frequency coverage - provides a poorer a dataset. We discuss strategies for measuring the CIB dipole with future instruments to probe the tilt and apply it to the Planck, Herschel and the proposed Pixie missions. We demonstrate that a future FIRAS-like instrument with instrument noise a factor of ~10 lower than FIRAS would make a statistically significant measurement of the CIB dipole. We find that the Planck and Herschel data sets will not allow a robust CIB dipole measurement. The Pixie instrument promises a determination of the CIB dipole and its alignment with either the CMB dipole or the dipole galaxy acceleration vector., Comment: 9 pages 9 figures

Published
2011
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134. The Radio - 2 mm Spectral Index of the Crab Nebula Measured with GISMO

Author

Arendt, R. G., George, J. V., Staguhn, J. G., Benford, D. J., Devlin, M. J., Dicker, S. R., Fixsen, D. J., Irwin, K. D., Jhabvala, C. A., Korngut, P. M., Kovács, A., Maher, S. F., Mason, B. S., Miller, T. M., Moseley, S. H., Navarro, S., Sievers, A., Sievers, J. L., Sharp, E., Wollack, E. J., Arendt, R. G., George, J. V., Staguhn, J. G., Benford, D. J., Devlin, M. J., Dicker, S. R., Fixsen, D. J., Irwin, K. D., Jhabvala, C. A., Korngut, P. M., Kovács, A., Maher, S. F., Mason, B. S., Miller, T. M., Moseley, S. H., Navarro, S., Sievers, A., Sievers, J. L., Sharp, E., and Wollack, E. J.

Abstract

We present results of 2 mm observations of the Crab Nebula, obtained using the Goddard-IRAM Superconducting 2 Millimeter Observer (GISMO) bolometer camera on the IRAM 30 m telescope. Additional 3.3 mm observations with the MUSTANG bolometer array on the Green Bank Telescope are also presented. The integrated 2 mm flux density of the Crab Nebula provides no evidence for the emergence of a second synchrotron component that has been proposed. It is consistent with the radio power law spectrum, extrapolated up to a break frequency of log(nu_{b} [GHz]) = 2.84 +/- 0.29 or nu_{b} = 695^{+651}_{-336} GHz. The Crab Nebula is well-resolved by the ~16.7" beam (FWHM) of GISMO. Comparison to radio data at comparable spatial resolution enables us to confirm significant spatial variation of the spectral index between 21 cm and 2 mm. The main effect is a spectral flattening in the inner region of the Crab Nebula, correlated with the toroidal structure at the center of the nebula that is prominent in the near-IR through X-ray regime., Comment: Accepted for publication in the ApJ

Published
2011
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135. The Temperature of the Cosmic Microwave Background

Author

Fixsen, D. J. and Fixsen, D. J.

Abstract

The FIRAS data are independently recalibrated using the WMAP data to obtain a CMB temperature of 2.7260 +/- 0.0013. Measurements of the temperature of the cosmic microwave background are reviewed. The determination from the measurements from the literature is cosmic microwave background temperature of 2.72548 +/- 0.00057 K., Comment: 6 Pages 3 figures

Published
2009
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136. The Origin of the Universe as Revealed Through the Polarization of the Cosmic Microwave Background

Author

Dodelson, S., Easther, R., Hanany, S., McAllister, L., Meyer, S., Page, L., Ade, P., Amblard, A., Ashoorioon, A., Baccigalupi, C., Balbi, A., Bartlett, J., Bartolo, N., Baumann, D., Beltran, M., Benford, D., Birkinshaw, M., Bock, J., Bond, D., Borrill, J., Bouchet, F., Bridges, M., Bunn, E., Calabrese, E., Cantalupo, C., Caramete, A., Carbone, C., Carroll, S., Chatterjee, S., Chen, X., Church, S., Chuss, D., Contaldi, C., Cooray, A., Creminelli, P., Das, S., De Bernardis, F., de Bernardis, P., Delabrouille, J., Desert, F. -X., Devlin, M., Dickinson, C., Dicker, S., DiPirro, M., Dobbs, M., Dore, O., Dotson, J., Dunkley, J., Dvorkin, C., Eriksen, H. K., Falvella, M. Cristina, Finley, D., Finkbeiner, D., Fixsen, D., Flauger, R., Fosalba, P., Fowler, J., Galli, S., Gates, E., Gear, W., Giraud-Heraud, Y., Gorski, K., Greene, B., Gruppuso, A., Dodelson, S., Easther, R., Hanany, S., McAllister, L., Meyer, S., Page, L., Ade, P., Amblard, A., Ashoorioon, A., Baccigalupi, C., Balbi, A., Bartlett, J., Bartolo, N., Baumann, D., Beltran, M., Benford, D., Birkinshaw, M., Bock, J., Bond, D., Borrill, J., Bouchet, F., Bridges, M., Bunn, E., Calabrese, E., Cantalupo, C., Caramete, A., Carbone, C., Carroll, S., Chatterjee, S., Chen, X., Church, S., Chuss, D., Contaldi, C., Cooray, A., Creminelli, P., Das, S., De Bernardis, F., de Bernardis, P., Delabrouille, J., Desert, F. -X., Devlin, M., Dickinson, C., Dicker, S., DiPirro, M., Dobbs, M., Dore, O., Dotson, J., Dunkley, J., Dvorkin, C., Eriksen, H. K., Falvella, M. Cristina, Finley, D., Finkbeiner, D., Fixsen, D., Flauger, R., Fosalba, P., Fowler, J., Galli, S., Gates, E., Gear, W., Giraud-Heraud, Y., Gorski, K., Greene, B., and Gruppuso, A.

Abstract

Modern cosmology has sharpened questions posed for millennia about the origin of our cosmic habitat. The age-old questions have been transformed into two pressing issues primed for attack in the coming decade: How did the Universe begin? and What physical laws govern the Universe at the highest energies? The clearest window onto these questions is the pattern of polarization in the Cosmic Microwave Background (CMB), which is uniquely sensitive to primordial gravity waves. A detection of the special pattern produced by gravity waves would be not only an unprecedented discovery, but also a direct probe of physics at the earliest observable instants of our Universe. Experiments which map CMB polarization over the coming decade will lead us on our first steps towards answering these age-old questions., Comment: Science White Paper submitted to the US Astro2010 Decadal Survey. Full list of 212 author available at http://cmbpol.uchicago.edu

Published
2009

137. The ARCADE 2 Instrument

Author

Singal, J., Fixsen, D. J., Kogut, A., Levin, S., Limon, M., Lubin, P., Mirel, P., Seiffert, M., Villela, T., Wollack, E., Wuensche, C. A., Singal, J., Fixsen, D. J., Kogut, A., Levin, S., Limon, M., Lubin, P., Mirel, P., Seiffert, M., Villela, T., Wollack, E., and Wuensche, C. A.

Abstract

The second generation Absolute Radiometer for Cosmology, Astrophysics, and Diffuse Emission (ARCADE 2) instrument is a balloon-borne experiment to measure the radiometric temperature of the cosmic microwave background and Galactic and extra-Galactic emission at six frequencies from 3 to 90 GHz. ARCADE 2 utilizes a double-nulled design where emission from the sky is compared to that from an external cryogenic full-aperture blackbody calibrator by cryogenic switching radiometers containing internal blackbody reference loads. In order to further minimize sources of systematic error, ARCADE 2 features a cold fully open aperture with all radiometrically active components maintained at near 2.7 K without windows or other warm objects, achieved through a novel thermal design. We discuss the design and performance of the ARCADE 2 instrument in its 2005 and 2006 flights., Comment: 12 pages, 14 figues, 3 tables, 2 figures added, Accepted to ApJ

Published
2009
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138. ARCADE 2 Observations of Galactic Radio Emission

Author

Kogut, A., Fixsen, D. J., Levin, S. M., Limon, M., Lubin, P. M., Mirel, P., Seiffert, M., Singal, J., Villela, T., Wollack, E., Wuensche, C. A., Kogut, A., Fixsen, D. J., Levin, S. M., Limon, M., Lubin, P. M., Mirel, P., Seiffert, M., Singal, J., Villela, T., Wollack, E., and Wuensche, C. A.

Abstract

We use absolutely calibrated data from the ARCADE 2 flight in July 2006 to model Galactic emission at frequencies 3, 8, and 10 GHz. The spatial structure in the data is consistent with a superposition of free-free and synchrotron emission. Emission with spatial morphology traced by the Haslam 408 MHz survey has spectral index beta_synch = -2.5 +/- 0.1, with free-free emission contributing 0.10 +/- 0.01 of the total Galactic plane emission in the lowest ARCADE 2 band at 3.15 GHz. We estimate the total Galactic emission toward the polar caps using either a simple plane-parallel model with csc|b| dependence or a model of high-latitude radio emission traced by the COBE/FIRAS map of CII emission. Both methods are consistent with a single power-law over the frequency range 22 MHz to 10 GHz, with total Galactic emission towards the north polar cap T_Gal = 0.498 +/- 0.028 K and spectral index beta = -2.55 +/- 0.03 at reference frequency 1 GHz. The well calibrated ARCADE 2 maps provide a new test for spinning dust emission, based on the integrated intensity of emission from the Galactic plane instead of cross-correlations with the thermal dust spatial morphology. The Galactic plane intensity measured by ARCADE 2 is fainter than predicted by models without spinning dust, and is consistent with spinning dust contributing 0.4 +/- 0.1 of the Galactic plane emission at 22 GHz., Comment: 10 poges, 9 figures. Submitted to The Astrophysical Journal

Published
2009
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139. ARCADE 2 Measurement of the Extra-Galactic Sky Temperature at 3-90 GHz

Author

Fixsen, D. J., Kogut, A., Levin, S., Limon, M., Lubin, P., Mirel, P., Seiffert, M., Singal, J., Wollack, E., Villela, T., Wuensche, C. A., Fixsen, D. J., Kogut, A., Levin, S., Limon, M., Lubin, P., Mirel, P., Seiffert, M., Singal, J., Wollack, E., Villela, T., and Wuensche, C. A.

Abstract

The ARCADE 2 instrument has measured the absolute temperature of the sky at frequencies 3, 8, 10, 30, and 90 GHz, using an open-aperture cryogenic instrument observing at balloon altitudes with no emissive windows between the beam-forming optics and the sky. An external blackbody calibrator provides an {\it in situ} reference. Systematic errors were greatly reduced by using differential radiometers and cooling all critical components to physical temperatures approximating the CMB temperature. A linear model is used to compare the output of each radiometer to a set of thermometers on the instrument. Small corrections are made for the residual emission from the flight train, balloon, atmosphere, and foreground Galactic emission. The ARCADE 2 data alone show an extragalactic rise of $50\pm7$ mK at 3.3 GHz in addition to a CMB temperature of $2.730\pm .004$ K. Combining the ARCADE 2 data with data from the literature shows a background power law spectrum of $T=1.26\pm 0.09$ [K] $(\nu/\nu_0)^{-2.60\pm 0.04}$ from 22 MHz to 10 GHz ($\nu_0=1$ GHz) in addition to a CMB temperature of $2.725\pm .001$ K., Comment: 11 pages 5 figures Submitted to ApJ

Published
2009
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140. Interpretation of the Extragalactic Radio Background

Author

Seiffert, M., Fixsen, D. J., Kogut, A., Levin, S. M., Limon, M., Lubin, P. M., Mirel, P., Singal, J., Villela, T., Wollack, E., Wuensche, C. A., Seiffert, M., Fixsen, D. J., Kogut, A., Levin, S. M., Limon, M., Lubin, P. M., Mirel, P., Singal, J., Villela, T., Wollack, E., and Wuensche, C. A.

Abstract

We use absolutely calibrated data between 3 and 90 GHz from the 2006 balloon flight of the ARCADE 2 instrument, along with previous measurements at other frequencies, to constrain models of extragalactic emission. Such emission is a combination of the Cosmic Microwave Background (CMB) monopole, Galactic foreground emission, the integrated contribution of radio emission from external galaxies, any spectral distortions present in the CMB, and any other extragalactic source. After removal of estimates of foreground emission from our own Galaxy, and the estimated contribution of external galaxies, we present fits to a combination of the flat-spectrum CMB and potential spectral distortions in the CMB. We find 2 sigma upper limits to CMB spectral distortions of mu < 5.8 x 10^{-5} and Y_ff < 6.2 x 10^{-5}. We also find a significant detection of a residual signal beyond that which can be explained by the CMB plus the integrated radio emission from galaxies estimated from existing surveys. After subtraction of an estimate of the contribution of discrete radio sources, this unexplained signal is consistent with extragalactic emission in the form of a power law with amplitude 1.06 \pm 0.11 K at 1 GHz and a spectral index of -2.56 \pm 0.04., Comment: 8 pages, 4 figures

Published
2009

141. Research utilization among children's mental health providers

Author

Barwick, MA, Boydell, KM, Stasiulis, E, Ferguson, HB, Blase, K, Fixsen, D, Barwick, MA, Boydell, KM, Stasiulis, E, Ferguson, HB, Blase, K, and Fixsen, D

Abstract

Background: Children with emotional and behavioural disorders should be able to count on receiving care that meets their needs and is based on the best scientific evidence available, however, many do not receive these services. Implementation of evidence-based practice (EBP) relies, in part, on the research utilization practices of mental health care providers. This study reports on a survey of research utilization practices among 80 children's mental health (CMH) service provider organizations in Ontario, Canada. Methods. A web-based survey was distributed to 80 CMH service provider organizations, to which 51 executive directors and 483 children's mental health practitioners responded. Research utilization was assessed using questions with Likert-type responses based on the Canadian Health Services Research Foundation's Four-A's approach: access, assess, adapt, apply. Results. There was general agreement among executive directors and practitioners regarding the capacity of their organizations to use - access, assess, adapt, and apply - research evidence. Overall, both groups rated their organizations as using research information 'somewhat well.' The low response rate to the practitioner survey should be noted. Conclusion. These findings provide a useful benchmark from which changes in reported research utilization in the Ontario CMH sector can be tracked over time, as a function of EBP training and implementation initiatives, for instance. The need to improve access to research evidence should be addressed because it relates to the eventual implementation and uptake of evidence-based practices. Communities of practice are recommended as a strategy that would enable practitioners to build capacity in their adaptation and application of research evidence.

Published
2008

142. CMBPol Mission Concept Study: Prospects for polarized foreground removal

Author

Dunkley, J., Amblard, A., Baccigalupi, C., Betoule, M., Chuss, D., Cooray, A., Delabrouille, J., Dickinson, C., Dobler, G., Dotson, J., Eriksen, H. K., Finkbeiner, D., Fixsen, D., Fosalba, P., Fraisse, A., Hirata, C., Kogut, A., Kristiansen, J., Lawrence, C., Magalhaes, A. M., Miville-Deschenes, M. A., Meyer, S., Miller, A., Naess, S. K., Page, L., Peiris, H. V., Phillips, N., Pierpaoli, E., Rocha, G., Vaillancourt, J. E., Verde, L., Dunkley, J., Amblard, A., Baccigalupi, C., Betoule, M., Chuss, D., Cooray, A., Delabrouille, J., Dickinson, C., Dobler, G., Dotson, J., Eriksen, H. K., Finkbeiner, D., Fixsen, D., Fosalba, P., Fraisse, A., Hirata, C., Kogut, A., Kristiansen, J., Lawrence, C., Magalhaes, A. M., Miville-Deschenes, M. A., Meyer, S., Miller, A., Naess, S. K., Page, L., Peiris, H. V., Phillips, N., Pierpaoli, E., Rocha, G., Vaillancourt, J. E., and Verde, L.

Abstract

In this report we discuss the impact of polarized foregrounds on a future CMBPol satellite mission. We review our current knowledge of Galactic polarized emission at microwave frequencies, including synchrotron and thermal dust emission. We use existing data and our understanding of the physical behavior of the sources of foreground emission to generate sky templates, and start to assess how well primordial gravitational wave signals can be separated from foreground contaminants for a CMBPol mission. At the estimated foreground minimum of ~100 GHz, the polarized foregrounds are expected to be lower than a primordial polarization signal with tensor-to-scalar ratio r=0.01, in a small patch (~1%) of the sky known to have low Galactic emission. Over 75% of the sky we expect the foreground amplitude to exceed the primordial signal by about a factor of eight at the foreground minimum and on scales of two degrees. Only on the largest scales does the polarized foreground amplitude exceed the primordial signal by a larger factor of about 20. The prospects for detecting an r=0.01 signal including degree-scale measurements appear promising, with 5 sigma_r ~0.003 forecast from multiple methods. A mission that observes a range of scales offers better prospects from the foregrounds perspective than one targeting only the lowest few multipoles. We begin to explore how optimizing the composition of frequency channels in the focal plane can maximize our ability to perform component separation, with a range of typically 40 < nu < 300 GHz preferred for ten channels. Foreground cleaning methods are already in place to tackle a CMBPol mission data set, and further investigation of the optimization and detectability of the primordial signal will be useful for mission design., Comment: 42 pages, 14 figures, Foreground Removal Working Group contribution to the CMBPol Mission Concept Study, v2, matches AIP version

Published
2008
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143. Principal components analysis of a JWST NIRSpec detector subsystem

Author

Rauscher, Bernard J., primary, Arendt, Richard G., additional, Fixsen, D. J., additional, Greenhouse, Matthew A., additional, Lander, Matthew, additional, Lindler, Don, additional, Loose, Markus, additional, Moseley, S. H., additional, Mott, D. Brent, additional, Wen, Yiting, additional, Wilson, Donna V., additional, and Xenophontos, Christos, additional

Published
2013
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144. The optical performance of frequency selective bolometers

Author

Perera, T. A., Chen, T. C., Cheng, E. S., Cottingham, D. A., Crawford, T. M., Downes, T. P., Finkbeiner, F. M., Fixsen, D. J., Logan, D. W., Meyer, S. S., Sharp, E. H., Silverberg, R. F., Wilson, G. W., Perera, T. A., Chen, T. C., Cheng, E. S., Cottingham, D. A., Crawford, T. M., Downes, T. P., Finkbeiner, F. M., Fixsen, D. J., Logan, D. W., Meyer, S. S., Sharp, E. H., Silverberg, R. F., and Wilson, G. W.

Abstract

Frequency Selective Bolometers (FSBs) are a new type of detector for millimeter and sub-millimeter wavelengths that are transparent to all but a narrow range of frequencies as set by characteristics of the absorber itself. Therefore, stacks of FSBs tuned to different frequencies provide a low-loss compact method for utilizing a large fraction of the light collected by a telescope. Tests of prototype FSBs, described here, indicate that the absorption spectra are well predicted by models, that peak absolute absorption efficiencies of order 50% are attainable, and that their out-of-band transmission is high., Comment: 32 pages, 9 figures

Published
2006
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148. Design and status of the Balloon Experimental Twin Telescope for infrared interferometry (BETTII): an interferometer at the edge of space

Author

Rinehart, S. A., primary, Barclay, R. B., additional, Barry, R. K., additional, Benford, D. J., additional, Calhoun, P. C., additional, Fixsen, D. J., additional, Gorman, E. T., additional, Jackson, M. L., additional, Jhabvala, C. A., additional, Leisawitz, D. T., additional, Maher, S. F., additional, Mentzell, J. E., additional, Mundy, L. G., additional, Rizzo, M. J., additional, Silverberg, R. F., additional, and Staguhn, J. G., additional

Published
2012
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150. THE RADIO-2 mm SPECTRAL INDEX OF THE CRAB NEBULA MEASURED WITH GISMO

Author

Arendt, R. G., primary, George, J. V., additional, Staguhn, J. G., additional, Benford, D. J., additional, Devlin, M. J., additional, Dicker, S. R., additional, Fixsen, D. J., additional, Irwin, K. D., additional, Jhabvala, C. A., additional, Korngut, P. M., additional, Kovács, A., additional, Maher, S. F., additional, Mason, B. S., additional, Miller, T. M., additional, Moseley, S. H., additional, Navarro, S., additional, Sievers, A., additional, Sievers, J. L., additional, Sharp, E., additional, and Wollack, E. J., additional

Published
2011
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