Your search keyword '"Bonetti, J. A."' showing total 211 results

1. Analysis of Polarized Dust Emission from the First Flight of the SPIDER Balloon-Borne Telescope

Author

SPIDER Collaboration, 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., Filippini, J. P., Fraisse, A. A., Freese, K., Galloway, M., Gambrel, A. E., Gandilo, N. N., Ganga, K., Gourapura, S., Gualtieri, R., Gudmundsson, J. E., Halpern, M., Hartley, J., Hasselfield, M., Hilton, G., Holmes, W., Hristov, V. V., Huang, Z., Irwin, K. D., Jones, W. C., Karakci, A., Kuo, C. L., Kermish, Z. D., Leung, J. S. -Y., Li, S., Mak, D. S. Y., Mason, P. V., Megerian, K., Moncelsi, L., Morford, T. A., Nagy, J. M., Netterfield, C. B., Nolta, M., O'Brient, R., Osherson, B., Padilla, I. L., Racine, B., Rahlin, A. S., Reintsema, C., Ruhl, J. E., Runyan, M. C., Ruud, T. M., Shariff, J. A., Shaw, E. C., Shiu, C., Soler, J. D., Song, X., Trangsrud, A., Tucker, C., Tucker, R. S., Turner, A. D., van der List, J. F., Weber, A. C., Wehus, I. K., Wiebe, D. V., and Young, E. Y.

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Using data from the first flight of SPIDER and from Planck HFI, we probe the properties of polarized emission from interstellar dust in the SPIDER observing region. Component separation algorithms operating in both the spatial and harmonic domains are applied to probe their consistency and to quantify modeling errors associated with their assumptions. Analyses spanning the full SPIDER region demonstrate that i) the spectral energy distribution of diffuse Galactic dust emission is broadly consistent with a modified-blackbody (MBB) model with a spectral index of $\beta_\mathrm{d}=1.45\pm0.05$ $(1.47\pm0.06)$ for $E$ ($B$)-mode polarization, slightly lower than that reported by Planck for the full sky; ii) its angular power spectrum is broadly consistent with a power law; and iii) there is no significant detection of line-of-sight decorrelation of the astrophysical polarization. The size of the SPIDER region further allows for a statistically meaningful analysis of the variation in foreground properties within it. Assuming a fixed dust temperature $T_\mathrm{d}=19.6$ K, an analysis of two independent sub-regions of that field results in inferred values of $\beta_\mathrm{d}=1.52\pm0.06$ and $\beta_\mathrm{d}=1.09\pm0.09$, which are inconsistent at the $3.9\,\sigma$ level. Furthermore, a joint analysis of SPIDER and Planck 217 and 353 GHz data within a subset of the SPIDER region is inconsistent with a simple MBB at more than $3\,\sigma$, assuming a common morphology of polarized dust emission over the full range of frequencies. These modeling uncertainties have a small--but non-negligible--impact on limits on the cosmological tensor-to-scalar ratio derived from the \spider dataset. The fidelity of the component separation approaches of future CMB polarization experiments may thus have a significant impact on their constraining power., Comment: 21 pages, 15 figures

Published

2024

2. In-flight gain monitoring of SPIDER's transition-edge sensor arrays

Author

Filippini, J. P., Gambrel, A. E., Rahlin, A. S., Young, E. Y., 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., Dore, O., Duivenvoorden, A. J., Eriksen, H. K., Farhang, M., Fraisse, A. A., Freese, K., Galloway, M., Gandilo, N. N., Ganga, K., Gualtieri, R., Gudmundsson, J. E., Halpern, M., Hartley, J., Hasselfield, M., Hilton, G., Holmes, W., Hristov, V. V., Huang, Z., Irwin, K. D., Jones, W. C., Karakci, A., Kuo, C. L., Kermish, Z. D., Leung, J. S. -Y., Li, S., Mak, D. S. Y., Mason, P. V., Megerian, K., Moncelsi, L., Morford, T. A., Nagy, J. M., Netterfield, C. B., Nolta, M., O'Brient, R., Osherson, B., Padilla, I. L., Racine, B., Reintsema, C., Ruhl, J. E., Runyan, M. C., Ruud, T. M., Shariff, J. A., Shaw, E. C., Shiu, C., Soler, J. D., Song, X., Trangsrud, A., Tucker, C., Tucker, R. S., Turner, A. D., van der List, J. F., Weber, A. C., Wehus, I. K., Wen, S., and Wiebe, D. V.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

Experiments deploying large arrays of transition-edge sensors (TESs) often require a robust method to monitor gain variations with minimal loss of observing time. We propose a sensitive and non-intrusive method for monitoring variations in TES responsivity using small square waves applied to the TES bias. We construct an estimator for a TES's small-signal power response from its electrical response that is exact in the limit of strong electrothermal feedback. We discuss the application and validation of this method using flight data from SPIDER, a balloon-borne telescope that observes the polarization of the cosmic microwave background with more than 2000 TESs. This method may prove useful for future balloon- and space-based instruments, where observing time and ground control bandwidth are limited., Comment: 7 pages, 3 figures; Proceedings of the 19th International Workshop on Low Temperature Detectors (LTD19); Minor updates to match published version

Published

2021

3. A Simulation-Based Method for Correcting Mode Coupling in CMB Angular Power Spectra

Author

Leung, J. S. -Y., Hartley, J., Nagy, J. M., Netterfield, C. B., Shariff, J. A., 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., Gambrel, A. E., Gandilo, N. N., Ganga, K., Gualtieri, R., Gudmundsson, J. E., Halpern, M., Hasselfield, M., Hilton, G., Holmes, W., Hristov, V. V., Huang, Z., Irwin, K. D., Jones, W. C., Karakci, A., Kuo, C. L., Kermish, Z. D., Li, S., Mak, D. S. Y., Mason, P. V., Megerian, K., Moncelsi, L., Morford, T. A., Nolta, M., O'Brient, R., Osherson, B., Padilla, I. L., Racine, B., Rahlin, A. S., Reintsema, C., Ruhl, J. E., Runyan, M. C., Ruud, T. M., Shaw, E. C., Shiu, C., Soler, J. D., Song, X., Trangsrud, A., Tucker, C., Tucker, R. S., Turner, A. D., van der List, J. F., Weber, A. C., Wehus, I. K., Wen, S., Wiebe, D. V., and Young, E. Y.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Modern CMB analysis pipelines regularly employ complex time-domain filters, beam models, masking, and other techniques during the production of sky maps and their corresponding angular power spectra. However, these processes can generate couplings between multipoles from the same spectrum and from different spectra, in addition to the typical power attenuation. Within the context of pseudo-$C_\ell$ based, MASTER-style analyses, the net effect of the time-domain filtering is commonly approximated by a multiplicative transfer function, $F_{\ell}$, that can fail to capture mode mixing and is dependent on the spectrum of the signal. To address these shortcomings, we have developed a simulation-based spectral correction approach that constructs a two-dimensional transfer matrix, $J_{\ell\ell'}$, which contains information about mode mixing in addition to mode attenuation. We demonstrate the application of this approach on data from the first flight of the SPIDER balloon-borne CMB experiment., Comment: 14 pages, 7 figures; updated to match published version

Published

2021

4. The XFaster Power Spectrum and Likelihood Estimator for the Analysis of Cosmic Microwave Background Maps

Author

Gambrel, A. E., Rahlin, A. S., Song, X., Contaldi, C. R., 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., Duivenvoorden, A. J., Eriksen, H. K., Farhang, M., Filippini, J. P., Fraisse, A. A., Freese, K., Galloway, M., Gandilo, N. N., Gualtieri, R., Gudmundsson, J. E., Halpern, M., Hartley, J., Hasselfield, M., Hilton, G., Holmes, W., Hristov, V. V., Huang, Z., Irwin, K. D., Jones, W. C., Karakci, A., Kuo, C. L., Kermish, Z. D., Leung, J. S. -Y., Li, S., Mak, D. S. Y., Mason, P. V., Megerian, K., Moncelsi, L., Morford, T. A., Nagy, J. M., Netterfield, C. B., Nolta, M., O'Brient, R., Osherson, B., Padilla, I. L., Racine, B., Reintsema, C., Ruhl, J. E., Ruud, T. M., Shariff, J. A., Shaw, E. C., Shiu, C., Soler, J. D., Trangsrud, A., Tucker, C., Tucker, R. S., Turner, A. D., van der List, J. F., Weber, A. C., Wehus, I. K., Wen, S., Wiebe, D. V., and Young, E. Y.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We present the XFaster analysis package. XFaster is a fast, iterative angular power spectrum estimator based on a diagonal approximation to the quadratic Fisher matrix estimator. XFaster uses Monte Carlo simulations to compute noise biases and filter transfer functions and is thus a hybrid of both Monte Carlo and quadratic estimator methods. In contrast to conventional pseudo-$C_\ell$ based methods, the algorithm described here requires a minimal number of simulations, and does not require them to be precisely representative of the data to estimate accurate covariance matrices for the bandpowers. The formalism works with polarization-sensitive observations and also data sets with identical, partially overlapping, or independent survey regions. The method was first implemented for the analysis of BOOMERanG data, and also used as part of the Planck analysis. Here, we describe the full, publicly available analysis package, written in Python, as developed for the analysis of data from the 2015 flight of the SPIDER instrument. The package includes extensions for self-consistently estimating null spectra and for estimating fits for Galactic foreground contributions. We show results from the extensive validation of XFaster using simulations, and its application to the SPIDER data set., Comment: 18 pages, 11 figures

Published

2021

5. A Constraint on Primordial $B$-Modes from the First Flight of the SPIDER Balloon-Borne Telescope

Author

SPIDER Collaboration, 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., Gambrel, A. E., Gandilo, N. N., Ganga, K., Gualtieri, R., Gudmundsson, J. E., Halpern, M., Hartley, J., Hasselfield, M., Hilton, G., Holmes, W., Hristov, V. V., Huang, Z., Irwin, K. D., Jones, W. C., Karakci, A., Kuo, C. L., Kermish, Z. D., Leung, J. S. -Y., Li, S., Mak, D. S. Y., Mason, P. V., Megerian, K., Moncelsi, L., Morford, T. A., Nagy, J. M., Netterfield, C. B., Nolta, M., O'Brient, R., Osherson, B., Padilla, I. L., Racine, B., Rahlin, A. S., Reintsema, C., Ruhl, J. E., Runyan, M. C., Ruud, T. M., Shariff, J. A., Shaw, E. C., Shiu, C., Soler, J. D., Song, X., Trangsrud, A., Tucker, C., Tucker, R. S., Turner, A. D., van der List, J. F., Weber, A. C., Wehus, I. K., Wen, S., Wiebe, D. V., and Young, E. Y.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We present the first linear polarization measurements from the 2015 long-duration balloon flight of SPIDER, an experiment designed to map the polarization of the cosmic microwave background (CMB) on degree angular scales. 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 in order 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, employing 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., Comment: 29 pages, 13 figures

Published

2021

6. A simple approach to the quantum theory of nonlinear fiber optics

Author

Bonetti, J., Sánchez, A. D., Hernandez, S. M., and Grosz, D. F.

Subjects

Quantum Physics

Abstract

We put forth an approach to obtain a quantum master equation for the propagation of light in nonlinear fiber optics by relying on simple quantum pictures of the processes (linear and nonlinear) occurring along propagation in an optical fiber. This equation is shown to be in excellent agreement with the classical Generalized Nonlinear Schrodinger Equation and predicts the effects of self-steepening and spontaneous Raman scattering. Last, we apply these results to the analysis of two cases of relevance in quantum technologies: single-photon frequency translation and spontaneous four-wave mixing.

Published

2019

7. In-Flight Gain Monitoring of SPIDER’s Transition-Edge Sensor Arrays

Author

Filippini, J. P., Gambrel, A. E., Rahlin, A. S., Young, E. Y., 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., Fraisse, A. A., Freese, K., Galloway, M., Gandilo, N. N., Ganga, K., Gualtieri, R., Gudmundsson, J. E., Halpern, M., Hartley, J., Hasselfield, M., Hilton, G., Holmes, W., Hristov, V. V., Huang, Z., Irwin, K. D., Jones, W. C., Karakci, A., Kuo, C. L., Kermish, Z. D., Leung, J. S.- Y., Li, S., Mak, D. S. Y., Mason, P. V., Megerian, K., Moncelsi, L., Morford, T. A., Nagy, J. M., Netterfield, C. B., Nolta, M., O’Brient, R., Osherson, B., Padilla, I. L., Racine, B., Reintsema, C., Ruhl, J. E., Runyan, M. C., Ruud, T. M., Shariff, J. A., Shaw, E. C., Shiu, C., Soler, J. D., Song, X., Trangsrud, A., Tucker, C., Tucker, R. S., Turner, A. D., List, J. F. van der, Weber, A. C., Wehus, I. K., Wen, S., and Wiebe, D. V.

Published

2022

8. A frequency-coded QKD scheme with an extension to qu-quarts

Author

Bonetti, J., Hernandez, S. M., and Grosz, D. F.

Subjects

Quantum Physics

Abstract

We propose a novel scheme to implement the BB84 quantum key distribution (QKD) protocol in optical fibers based on a quantum frequency-translation (QFT) process. Unlike conventional QKD systems, which rely on photon polarization/phase to encode qubits, our proposal utilizes photons of different frequencies. Qubits are thus expected to reach longer propagation distances due to the photon frequency state being more robust against mechanical and/or thermal fluctuations of the transmitting medium. Finally, we put forth an extension to a security-enhanced four-character-alphabet (qu-quarts) QKD scheme., Comment: 6 pages, 5 figures

Published

2018

9. A geometrical view of scalar modulation instability

Author

Hernandez, S. M., Fierens, P. I., Bonetti, J., Sánchez, A. D., and Grosz, D. F.

Subjects

Physics - Optics

Abstract

We present a novel approach to the analysis of a full model of scalar modulation instability (MI) by means of a simple geometrical description in the power vs. frequency plane. This formulation allows to relate the shape of the MI gain to any arbitrary dispersion profile of the medium. As a result, we derive a straightforward explanation of the non-trivial dependence of the cutoff power on high-order dispersion and obtain explicitly the power that maximizes the gain. Our approach puts forth a powerful tool to synthesize a desired MI gain with the potential application to a vast number of parametric-amplification and supercontinuum-generation devices whose functioning relies upon modulation instability., Comment: arXiv admin note: text overlap with arXiv:1605.01761

Published

2016

10. Analytical study of coherence in seeded modulation instability

Author

Bonetti, J., Hernandez, S. M., Fierens, P. I., and Grosz, D. F.

Subjects

Physics - Optics

Abstract

We derive analytical expressions for the coherence in the onset of modulation instability, in excellent agreement with thorough numerical simulations. As usual, we start by a linear perturbation analysis, where broadband noise is added to a continuous wave (CW) pump; then, we investigate the effect of adding a deterministic seed to the CW pump, a case of singular interest as it is commonly encountered in parametric amplification schemes. Results for the dependence of coherence on parameters such as fiber type, pump power, propagated distance, seed signal-to-noise ratio are presented. Finally, we show the importance of including higher-order linear and nonlinear dispersion when dealing with generation in longer wavelength regions (mid IR). We believe these results to be of relevance when applied to the analysis of the coherence properties of supercontinua generated from CW pumps., Comment: 6 pages, 8 figures

Published

2016

11. Antenna-coupled TES bolometers used in BICEP2, Keck array, and SPIDER

Author

Ade, P. A. R., Aikin, R. W., Amiri, M., Barkats, D., Benton, S. J., Bischoff, C. A., Bock, J. J., Bonetti, J. A., Brevik, J. A., Buder, I., Bullock, E., Chattopadhyay, G., Davis, G., Day, P. K., Dowell, C. D., Duband, L., Filippini, J. P., Fliescher, S., Golwala, S. R., Halpern, M., Hasselfield, M., Hildebrandt, S. R., Hilton, G. C., Hristov, V., Hui, H., Irwin, K. D., Jones, W. C., Karkare, K. S., Kaufman, J. P., Keating, B. G., Kefeli, S., Kernasovskiy, S. A., Kovac, J. M., Kuo, C. L., Leduc, H. G., Leitch, E. M., Llombart, N., Lueker, M., Mason, P., Megerian, K., Moncelsi, L., Netterfield, C. B., Nguyen, H. T., O'Brient, R., Ogburn Iv, R. W., Orlando, A., Pryke, C., Rahlin, A. S., Reintsema, C. D., Richter, S., Runyan, M. C., Schwarz, R., Sheehy, C. D., Staniszewski, Z. K., Sudiwala, R. V., Teply, G. P., Tolan, J. E., Trangsrud, A., Tucker, R. S., Turner, A. D., Vieregg, A. G., Weber, A., Wiebe, D. V., Wilson, P., Wong, C. L., Yoon, K. W., and Zmuidzinas, J.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

We have developed antenna-coupled transition-edge sensor (TES) bolometers for a wide range of cosmic microwave background (CMB) polarimetry experiments, including BICEP2, Keck Array, and the balloon borne SPIDER. These detectors have reached maturity and this paper reports on their design principles, overall performance, and key challenges associated with design and production. Our detector arrays repeatedly produce spectral bands with 20%-30% bandwidth at 95, 150, or 220~GHz. The integrated antenna arrays synthesize symmetric co-aligned beams with controlled side-lobe levels. Cross-polarized response on boresight is typically ~0.5%, consistent with cross-talk in our multiplexed readout system. End-to-end optical efficiencies in our cameras are routinely 35% or higher, with per detector sensitivities of NET~300 uKrts. Thanks to the scalability of this design, we have deployed 2560 detectors as 1280 matched pairs in Keck Array with a combined instantaneous sensitivity of ~9 uKrts, as measured directly from CMB maps in the 2013 season. Similar arrays have recently flown in the SPIDER instrument, and development of this technology is ongoing., Comment: 16 pgs, 20 figs

Published

2015

12. Enhanced Anti-stokes Raman Gain in Nonlinear Waveguides

Author

Sanchez, A. D., Hernandez, S. M., Bonetti, J., Grosz, D. F., Fierens, P. I., Abarbanel, Henry D. I., Series Editor, Braha, Dan, Series Editor, Érdi, Péter, Series Editor, Friston, Karl J., Series Editor, Haken, Hermann, Series Editor, Jirsa, Viktor, Series Editor, Kacprzyk, Janusz, Series Editor, Kaneko, Kunihiko, Series Editor, Kelso, Scott, Founding Editor, Kirkilionis, Markus, Series Editor, Kurths, Jürgen, Series Editor, Menezes, Ronaldo, Series Editor, Nowak, Andrzej, Series Editor, Qudrat-Ullah, Hassan, Series Editor, Reichl, Linda, Series Editor, Schuster, Peter, Series Editor, Schweitzer, Frank, Series Editor, Sornette, Didier, Series Editor, Thurner, Stefan, Series Editor, In, Visarath, editor, Longhini, Patrick, editor, and Palacios, Antonio, editor

Published

2019

13. Quasi-analytical Perturbation Analysis of the Generalized Nonlinear Schrödinger Equation

Author

Bonetti, J., Hernandez, S. M., Fierens, P. I., Temprana, E., Grosz, D. F., Abarbanel, Henry D. I., Series Editor, Braha, Dan, Series Editor, Érdi, Péter, Series Editor, Friston, Karl J., Series Editor, Haken, Hermann, Series Editor, Jirsa, Viktor, Series Editor, Kacprzyk, Janusz, Series Editor, Kaneko, Kunihiko, Series Editor, Kelso, Scott, Founding Editor, Kirkilionis, Markus, Series Editor, Kurths, Jürgen, Series Editor, Menezes, Ronaldo, Series Editor, Nowak, Andrzej, Series Editor, Qudrat-Ullah, Hassan, Series Editor, Reichl, Linda, Series Editor, Schuster, Peter, Series Editor, Schweitzer, Frank, Series Editor, Sornette, Didier, Series Editor, Thurner, Stefan, Series Editor, In, Visarath, editor, Longhini, Patrick, editor, and Palacios, Antonio, editor

Published

2019

14. A higher-order perturbation analysis of the nonlinear Schrödinger equation

Author

Bonetti, J., Hernandez, S.M., Fierens, P.I., and Grosz, D.F.

Published

2019

15. Antenna-coupled TES bolometers for the Keck Array, Spider, and Polar-1

Author

O'Brient, R., Ade, P. A. R., Ahmed, Z., Aikin, R. W., Amiri, M., Benton, S., Bischoff, C., Bock, J. J., Bonetti, J. A., Brevik, J. A., Burger, B., Davis, G., Day, P., Dowell, C. D., Duband, L., Filippini, J. P., Fliescher, S., Golwala, S. R., Grayson, J., Halpern, M., Hasselfield, M., Hilton, G., Hristov, V. V., Hui, H., Irwin, K., Kernasovskiy, S., Kovac, J. M., Kuo, C. L., Leitch, E., Lueker, M., Megerian, K., Moncelsi, L., Netterfield, C. B., Nguyen, H. T., Ogburn IV, R. W., Pryke, C. L., Reintsema, C., Ruhl, J. E., Runyan, M. C., Schwarz, R., Sheehy, C. D., Staniszewski, Z., Sudiwala, R., Teply, G., Tolan, J. E., Turner, A. D., Tucker, R. S., Vieregg, A., Wiebe, D. V., Wilson, P., Wong, C. L., Wu, W. L. K., and Yoon, K. W.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

Between the BICEP2 and Keck Array experiments, we have deployed over 1500 dual polarized antenna coupled bolometers to map the Cosmic Microwave Background's polarization. We have been able to rapidly deploy these detectors because they are completely planar with an integrated phased-array antenna. Through our experience in these experiments, we have learned of several challenges with this technology- specifically the beam synthesis in the antenna- and in this paper we report on how we have modified our designs to mitigate these challenges. In particular, we discus differential steering errors between the polarization pairs' beam centroids due to microstrip cross talk and gradients of penetration depth in the niobium thin films of our millimeter wave circuits. We also discuss how we have suppressed side lobe response with a Gaussian taper of our antenna illumination pattern. These improvements will be used in Spider, Polar-1, and this season's retrofit of Keck Array., Comment: Presented at SPIE Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy VI, July 6, 2012. To be published in Proceedings of SPIE Volume 8452

Published

2012

16. Optimization and sensitivity of the Keck Array

Author

Kernasovskiy, S., Ade, P. A. R., Aikin, R. W., Amiri, M., Benton, S., Bischoff, C., Bock, J. J., Bonetti, J. A., Brevik, J. A., Burger, B., Davis, G., Dowell, C. D., Duband, L., Filippini, J. P., Fliescher, S., Golwala, S. R., Halpern, M., Hasselfield, M., Hiltion, G., Hristov, V. V., Irwin, K., Kovac, J. M., Kuo, C. L., Leitch, E., Lueker, M., Netterfield, C. B., Nguyen, H. T., O'Brient, R., Ogburn IV, R. W., Pryke, C. L., Reintsema, C., Ruhl, J. E., Runyan, M. C., Schwarz, R., Sheehy, C. D., Staniszewski, Z., Sudiwala, R., Teply, G., Tolan, J. E., Turner, A. D., Vieregg, A., Wiebe, D. V., Wilson, P., and Wongg, C. L.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

The Keck Array (SPUD) began observing the cosmic microwave background's polarization in the winter of 2011 at the South Pole. The Keck Array follows the success of the predecessor experiments Bicep and Bicep2, using five on-axis refracting telescopes. These have a combined imaging array of 2500 antenna-coupled TES bolometers read with a SQUID-based time domain multiplexing system. We will discuss the detector noise and the optimization of the readout. The achieved sensitivity of the Keck Array is 11.5 {\mu}K_(CMB)*sqrt{s} in the 2012 configuration., Comment: Presented at SPIE 2012 Astronomical Telescopes and Instrumentation Conference. Will be published in the proceedings

Published

2012

17. Optical Characterization of the Keck Array Polarimeter at the South Pole

Author

Vieregg, A. G., Ade, P. A. R., Aikin, R., Bischoff, C., Bock, J. J., Bonetti, J. A., Bradford, K. J., Brevik, J. A., Dowell, C. D., Duband, L., Filippini, J. P., Fliescher, S., Golwala, S. R., Gordon, M. S., Halpern, M., Hilton, G., Hristov, V. V., Irwin, K., Kernasovskiy, S., Kovac, J. M., Kuo, C. L., Leitch, E., Lueker, M., Montroy, T., Netterfield, C. B., Nguyen, H. T., O'Brient, R., Ogburn IV, R. W., Pryke, C., Ruhl, J. E., Runyan, M., Schwarz, R., Sheehy, C., Staniszewski, Z., Sudiwala, R., Teply, G., Tolan, J., Turner, A. D., Wilson, P., and Wong, C. L.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The Keck Array (SPUD) is a set of microwave polarimeters that observes from the South Pole at degree angular scales in search of a signature of Inflation imprinted as B-mode polarization in the Cosmic Microwave Background (CMB). The first three Keck Array receivers were deployed during the 2010-2011 Austral summer, followed by two new receivers in the 2011-2012 summer season, completing the full five-receiver array. All five receivers are currently observing at 150 GHz. The Keck Array employs the field-proven BICEP/BICEP2 strategy of using small, cold, on-axis refractive optics, providing excellent control of systematics while maintaining a large field of view. This design allows for full characterization of far-field optical performance using microwave sources on the ground. We describe our efforts to characterize the main beam shape and beam shape mismatch between co-located orthogonally-polarized detector pairs, and discuss the implications of measured differential beam parameters on temperature to polarization leakage in CMB analysis., Comment: 13 pages, 11 figures, Proceedings of the SPIE, Vol 8452: Millimeter, Submillimeter and Far-Infrared Detectors and Instrumentation for Astronomy VI, July 2012

Published

2012

18. BICEP2 and Keck Array operational overview and status of observations

Author

Ogburn IV, R. W., Ade, P. A. R., Aikin, R. W., Amiri, M., Benton, S. J., Bischoff, C. A., Bock, J. J., Bonetti, J. A., Brevik, J. A., Bullock, E., Burger, B., Davis, G., Dowell, C. D., Duband, L., Filippini, J. P., Fliescher, S., Golwala, S. R., Gordon, M., Halpern, M., Hasselfield, M., Hilton, G., Hristov, V. V., Hui, H., Irwin, K., Kaufman, J. P., Keating, B. G., Kernasovskiy, S. A., Kovac, J. M., Kuo, C. L., Leitch, E. M., Lueker, M., Montroy, T., Netterfield, C. B., Nguyen, H. T., O'Brient, R., Orlando, A., Pryke, C. L., Reintsema, C., Richter, S., Ruhl, J. E., Runyan, M. C., Schwarz, R., Sheehy, C. D., Staniszewski, Z. K., Sudiwala, R. V., Teply, G. P., Thompson, K., Tolan, J. E., Turner, A. D., Vieregg, A. G., Wiebe, D. V., Wilson, P., and Wong, C. L.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

The BICEP2 and Keck Array experiments are designed to measure the polarization of the cosmic microwave background (CMB) on angular scales of 2-4 degrees (l=50-100). This is the region in which the B-mode signal, a signature prediction of cosmic inflation, is expected to peak. BICEP2 was deployed to the South Pole at the end of 2009 and is in the middle of its third year of observing with 500 polarization-sensitive detectors at 150 GHz. The Keck Array was deployed to the South Pole at the end of 2010, initially with three receivers--each similar to BICEP2. An additional two receivers have been added during the 2011-12 summer. We give an overview of the two experiments, report on substantial gains in the sensitivity of the two experiments after post-deployment optimization, and show preliminary maps of CMB polarization from BICEP2., Comment: Presented at SPIE Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy VI, July 6, 2012. To be published in Proceedings of SPIE Volume 8452

Published

2012

19. SPIDER: Probing the Early Universe with a Suborbital Polarimeter

Author

Fraisse, A. A., Ade, P. A. R., Amiri, M., Benton, S. J., Bock, J. J., Bond, J. R., Bonetti, J. A., Bryan, S., Burger, B., Chiang, H. C., Clark, C. N., Contaldi, C. R., Crill, B. P., Davis, G., Doré, O., Farhang, M., Filippini, J. P., Fissel, L. M., Gandilo, N. N., Golwala, S., Gudmundsson, J. E., Hasselfield, M., Hilton, G., Holmes, W., Hristov, V. V., Irwin, K., Jones, W. C., Kuo, C. L., MacTavish, C. J., Mason, P. V., Montroy, T. E., Morford, T. A., Netterfield, C. B., O'Dea, D. T., Rahlin, A. S., Reintsema, C., Ruhl, J. E., Runyan, M. C., Schenker, M. A., Shariff, J. A., Soler, J. D., Trangsrud, A., Tucker, C., Tucker, R. S., Turner, A. D., and Wiebe, D.

Subjects

Astrophysics - Cosmology and Extragalactic Astrophysics

Abstract

We evaluate the ability of SPIDER, a balloon-borne polarimeter, to detect a divergence-free polarization pattern ("B-modes") in the Cosmic Microwave Background (CMB). In the inflationary scenario, the amplitude of this signal is proportional to that of the primordial scalar perturbations through the tensor-to-scalar ratio r. We show that the expected level of systematic error in the SPIDER instrument is significantly below the amplitude of an interesting cosmological signal with r=0.03. We present a scanning strategy that enables us to minimize uncertainty in the reconstruction of the Stokes parameters used to characterize the CMB, while accessing a relatively wide range of angular scales. Evaluating the amplitude of the polarized Galactic emission in the SPIDER field, we conclude that the polarized emission from interstellar dust is as bright or brighter than the cosmological signal at all SPIDER frequencies (90 GHz, 150 GHz, and 280 GHz), a situation similar to that found in the "Southern Hole." We show that two ~20-day flights of the SPIDER instrument can constrain the amplitude of the B-mode signal to r<0.03 (99% CL) even when foreground contamination is taken into account. In the absence of foregrounds, the same limit can be reached after one 20-day flight., Comment: 29 pages, 8 figures, 4 tables; v2: matches published version, flight schedule updated, two typos fixed in Table 2, references and minor clarifications added, results unchanged

Published

2011

20. Thermal architecture for the SPIDER flight cryostat

Author

Gudmundsson, J. E., Ade, P. A. R., Amiri, M., Benton, S. J., Bihary, R., Bock, J. J., Bond, J. R., Bonetti, J. A., Bryan, S. A., Chiang, H. C., Contaldi, C. R., Crill, B. P., O'Dea, D., Farhang, M., Filippini, J. P., Fissel, L. M., Gandilo, N. N., Golwala, S. R., Halpern, M., Hasselfield, M., Helson, K. R., Hilton, G., Holmes, W., Hristov, V. V., Irwin, K. D., Jones, W. C., Kuo, C. L., MacTavish, C. J., Mason, P. V., Montroy, T. E., Morford, T. A., Netterfield, C. B., Rahlin, A. S., Reintsema, C. D., Ruhl, J. E., Runyan, M. C., Schenker, M. A., Shariff, J. A., Soler, J. D., Trangsrud, A., Tucker, C., Tucker, R. S., and Turner, A. D.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Physics - Instrumentation and Detectors

Abstract

We describe the cryogenic system for SPIDER, a balloon-borne microwave polarimeter that will map 8% of the sky with degree-scale angular resolution. The system consists of a 1284 L liquid helium cryostat and a 16 L capillary-filled superfluid helium tank, which provide base operating temperatures of 4 K and 1.5 K, respectively. Closed-cycle helium-3 adsorption refrigerators supply sub-Kelvin cooling power to multiple focal planes, which are housed in monochromatic telescope inserts. The main helium tank is suspended inside the vacuum vessel with thermally insulating fiberglass flexures, and shielded from thermal radiation by a combination of two vapor cooled shields and multi-layer insulation. This system allows for an extremely low instrumental background and a hold time in excess of 25 days. The total mass of the cryogenic system, including cryogens, is approximately 1000 kg. This enables conventional long duration balloon flights. We will discuss the design, thermal analysis, and qualification of the cryogenic system., Comment: 11 pages, 4 figures; as published in the conference proceedings for SPIE Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy V (2010)

Published

2011

21. Design and performance of the Spider instrument

Author

Runyan, M. C., Ade, P. A. R., Amiri, M., Benton, S., Bihary, R., Bock, J. J., Bond, J. R., Bonetti, J. A., Bryan, S. A., Chiang, H. C., Contaldi, C. R., Crill, B. P., Dore, O., O'Dea, D., Farhang, M., Filippini, J. P., Fissel, L., Gandilo, N., Golwala, S. R., Gudmundsson, J. E., Hasselfield, M., Halpern, M., Hilton, G., Holmes, W., Hristov, V. V., Irwin, K. D., Jones, W. C., Kuo, C. L., MacTavish, C. J., Mason, P. V., Morford, T. A., Montroy, T. E., Netterfield, C. B., Rahlin, A. S., Reintsema, C. D., Ruhl, J. E., Schenker, M. A., Shariff, J., Soler, J. D., Trangsrud, A., Tucker, R. S., Tucker, C., and Turner, A.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

Here we describe the design and performance of the Spider instrument. Spider is a balloon-borne cosmic microwave background polarization imager that will map part of the sky at 90, 145, and 280 GHz with sub-degree resolution and high sensitivity. This paper discusses the general design principles of the instrument inserts, mechanical structures, optics, focal plane architecture, thermal architecture, and magnetic shielding of the TES sensors and SQUID multiplexer. We also describe the optical, noise, and magnetic shielding performance of the 145 GHz prototype instrument insert., Comment: 12 pages, 5 figures, Proceedings of SPIE, Astronomical Telescopes and Instrumentation 2010, San Diego, CA

Published

2011

22. SPIDER: a balloon-borne CMB polarimeter for large angular scales

Author

Filippini, J. P., Ade, P. A. R., Amiri, M., Benton, S. J., Bihary, R., Bock, J. J., Bond, J. R., Bonetti, J. A., Bryan, S. A., Burger, B., Chiang, H. C., Contaldi, C. R., Crill, B. P., Doré, O., Farhang, M., Fissel, L. M., Gandilo, N. N., Golwala, S. R., Gudmundsson, J. E., Halpern, M., Hasselfield, M., Hilton, G., Holmes, W., Hristov, V. V., Irwin, K. D., Jones, W. C., Kuo, C. L., MacTavish, C. J., Mason, P. V., Montroy, T. E., Morford, T. A., Netterfield, C. B., O'Dea, D. T., Rahlin, A. S., Reintsema, C. D., Ruhl, J. E., Runyan, M. C., Schenker, M. A., Shariff, J. A., Soler, J. D., Trangsrud, A., Tucker, C., Tucker, R. S., and Turner, A. D.

Subjects

Astrophysics - Cosmology and Extragalactic Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

We describe SPIDER, a balloon-borne instrument to map the polarization of the millimeter-wave sky with degree angular resolution. Spider consists of six monochromatic refracting telescopes, each illuminating a focal plane of large-format antenna-coupled bolometer arrays. A total of 2,624 superconducting transition-edge sensors are distributed among three observing bands centered at 90, 150, and 280 GHz. A cold half-wave plate at the aperture of each telescope modulates the polarization of incoming light to control systematics. Spider's first flight will be a 20-30-day Antarctic balloon campaign in December 2011. This flight will map \sim8% of the sky to achieve unprecedented sensitivity to the polarization signature of the gravitational wave background predicted by inflationary cosmology. The Spider mission will also serve as a proving ground for these detector technologies in preparation for a future satellite mission., Comment: 12 pages, 6 figures; as published in the conference proceedings for SPIE Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy V (2010)

Published

2011

23. The Keck Array: a pulse tube cooled CMB polarimeter

Author

Sheehy, C. D., Ade, P. A. R., Aikin, R. W., Amiri, M., Benton, S., Bischoff, C., Bock, J. J., Bonetti, J. A., Brevik, J. A., Burger, B., Dowell, C. D., Duband, L., Filippini, J. P., Golwala, S. R., Halpern, M., Hasselfield, M., Hilton, G., Hristov, V. V., Irwin, K., Kaufman, J. P., Keating, B. G., Kovac, J. M., Kuo, C. L., Lange, A. E., Leitch, E. M., Lueker, M., Netterfield, C. B., Nguyen, H. T., Ogburn IV, R. W., Orlando, A., Pryke, C. L., Reintsema, C., Richter, S., Ruhl, J. E., Runyan, M. C., Staniszewski, Z., Stokes, S., Sudiwala, R., Teply, G., Thompson, K. L., Tolan, J. E., Turner, A. D., Wilson, P., and Wong, C. L.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Cosmology and Extragalactic Astrophysics

Abstract

The Keck Array is a cosmic microwave background (CMB) polarimeter that will begin observing from the South Pole in late 2010. The initial deployment will consist of three telescopes similar to BICEP2 housed in ultra-compact, pulse tube cooled cryostats. Two more receivers will be added the following year. In these proceedings we report on the design and performance of the Keck cryostat. We also report some initial results on the performance of antenna-coupled TES detectors operating in the presence of a pulse tube. We find that the performance of the detectors is not seriously impacted by the replacement of BICEP2's liquid helium cryostat with a pulse tube cooled cryostat., Comment: 8 pages, 6 figures; SPIE proceedings for Millimeter, Submillimeter and Far-Infrared Detectors and Instrumentation for Astronomy V (Conference 7741, June 2010, San Diego, CA, USA)

Published

2011

24. Spider Optimization II: Optical, Magnetic and Foreground Effects

Author

O'Dea, D. T., Ade, P. A. R., Amiri, M., Benton, S. J., Bock, J. J., Bond, J. R., Bonetti, J. A., Bryan, S., Burger, B., Chiang, H. C., Clark, C. N., Contaldi, C. R., Crill, B. P., Davis, G., Dore, O., Farhang, M., Filippini, J. P., Fissel, L. M., Fraisse, A. A., Gandilo, N. N., Golwala, S., Gudmundsson, J. E., Hasselfield, M., Hilton, G., Holmes, W., Hristov, V. V., Irwin, K., Jones, W. C., Kuo, C. L., MacTavish, C. J., Mason, P. V., Montroy, T. E., Morford, T. A., Netterfield, C. B., Rahlin, A. S., Reintsema, C., Ruhl, J. E., Runyan, M. C., Schenker, M. A., Shariff, J. A., Soler, J. D., Trangsrud, A., Tucker, C., Tucker, R. S., Turner, A. D., and Wiebe, D.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

Spider is a balloon-borne instrument designed to map the polarization of the cosmic microwave background (CMB) with degree-scale resolution over a large fraction of the sky. Spider's main goal is to measure the amplitude of primordial gravitational waves through their imprint on the polarization of the CMB if the tensor-to-scalar ratio, r, is greater than 0.03. To achieve this goal, instrumental systematic errors must be controlled with unprecedented accuracy. Here, we build on previous work to use simulations of Spider observations to examine the impact of several systematic effects that have been characterized through testing and modeling of various instrument components. In particular, we investigate the impact of the non-ideal spectral response of the half-wave plates, coupling between focal plane components and the Earth's magnetic field, and beam mismatches and asymmetries. We also present a model of diffuse polarized foreground emission based on a three-dimensional model of the Galactic magnetic field and dust, and study the interaction of this foreground emission with our observation strategy and instrumental effects. We find that the expected level of foreground and systematic contamination is sufficiently low for Spider to achieve its science goals., Comment: submitted to APJ, 15 pages, 12 figures

Published

2011

25. Antenna-coupled TES Bolometer Arrays for BICEP2/Keck and SPIDER

Author

Orlando, A., Aikin, R. W, Amiri, M., Bock, J. J., Bonetti, J. A., Brevik, J. A., Burger, B., Chattopadthyay, G., Day, P. K., Filippini, J. P., Golwala, S. R., Halpern, M., Hasselfield, M., Hilton, G. C., Irwin, K. D., Kenyon, M., Kovac, J. M., Kuo, C. L., Lange, A. E., LeDuc, H. G., Llombart, N., Nguyen, H. T., Ogburn, R. W., Reintsema, C. D., Runyan, M. C., Staniszewski, Z., Sudiwala, R., Teply, G., Trangsrud, A. R., Turner, A. D., and Wilson, P.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

BICEP2/Keck and SPIDER are cosmic microwave background (CMB) polarimeters targeting the B-mode polarization induced by primordial gravitational waves from inflation. They will be using planar arrays of polarization sensitive antenna-coupled TES bolometers, operating at frequencies between 90 GHz and 220 GHz. At 150 GHz each array consists of 64 polarimeters and four of these arrays are assembled together to make a focal plane, for a total of 256 dual-polarization elements (512 TES sensors). The detector arrays are integrated with a time-domain SQUID multiplexer developed at NIST and read out using the multi-channels electronics (MCE) developed at the University of British Columbia. Following our progress in improving detector parameters uniformity across the arrays and fabrication yield, our main effort has focused on improving detector arrays optical and noise performances, in order to produce science grade focal planes achieving target sensitivities. We report on changes in detector design implemented to optimize such performances and following focal plane arrays characterization. BICEP2 has deployed a first 150 GHz science grade focal plane to the South Pole in December 2009., Comment: 10 pages, 7 figures; SPIE proceedings for Millimeter, Submillimeter and Far-Infrared Detectors and Instrumentation for Astronomy V (Conference 7741, June 2010, San Diego, CA, USA)

Published

2010

26. Antenna-coupled TES bolometer arrays for CMB polarimetry

Author

Kuo, C. L., Bock, J. J., Bonetti, J. A., Brevik, J., Chattopadhyay, G., Day, P. K., Golwala, S., Kenyon, M., Lange, A. E., LeDuc, H. G., Nguyen, H., Ogburn, R. W., Orlando, A., Trangsrud, A., Turner, A., Wang, G., and Zmuidzinas, J.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Cosmology and Extragalactic Astrophysics

Abstract

We describe the design and performance of polarization selective antenna-coupled TES arrays that will be used in several upcoming Cosmic Microwave Background (CMB) experiments: SPIDER, BICEP-2/SPUD. The fully lithographic polarimeter arrays utilize planar phased-antennas for collimation (F/4 beam) and microstrip filters for band definition (25% bandwidth). These devices demonstrate high optical efficiency, excellent beam shapes, and well-defined spectral bands. The dual-polarization antennas provide well-matched beams and low cross polarization response, both important for high-fidelity polarization measurements. These devices have so far been developed for the 100 GHz and 150 GHz bands, two premier millimeter-wave atmospheric windows for CMB observations. In the near future, the flexible microstrip-coupled architecture can provide photon noise-limited detection for the entire frequency range of the CMBPOL mission. This paper is a summary of the progress we have made since the 2006 SPIE meeting in Orlando, FL.

Published

2009

27. On the Spectral Dynamics of Noise-Seeded Modulation Instability in Optical Fibers

Author

Fierens, P. I., Hernandez, S. M., Bonetti, J., Grosz, D. F., Kacprzyk, Janusz, Series editor, In, Visarath, editor, Longhini, Patrick, editor, and Palacios, Antonio, editor

Published

2017

28. Electronic Transport in Underdoped YBCO Nanowires: Possible Observation of Stripe Domains

Author

Bonetti, J. A., Caplan, D. S., Van Harlingen, D. J., and Weissman, M. B.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

We have measured the transport properties of a series of underdoped YBa2Cu3O7 nanowires fabricated with widths of 100-250 nm. We observe large telegraph-like fluctuations in the resistance between the pseudogap temperature T* and the superconducting transition temperature Tc, consistent with the formation and dynamics of a domain structure such as that created by charge stripes. We also find anomalous hysteretic steps in the current-voltage characteristics well below Tc., Comment: 4 pages, 5 figures

Published

2004

29. Temporal reflection and refraction in the presence of a zero-nonlinearity wavelength

Author

Sparapani, A. C., primary, Bonetti, J., additional, Linale, N., additional, Hernandez, S. M., additional, Fierens, P. I., additional, and Grosz, D. F., additional

Published

2023

30. Deliverable 3.2. Maps of present ecosystem pressures (fishing, shipping, pollution and other)

Author

Fernandes, J.A., Mateo, M., Sagarminaga, Y., Lekunberri, X., Furey, T., Kozachenco, M., Pedreschi, D., Proud, R., Ostle, C., Shannon, L., Sink, K., Skein, L., Majiedt, P., Souza, V. A., Garcia Scherer, M. E., Gasalla, M. A., Ribeiro Gandra, T. B., Floeter, S. R., Bonetti, J., Ramirez, E., Llope, M., Gomes, I., Serrano, D., Pham, C., Afonso, P., Brierley, A., and Chust, G.

Abstract

The goal of this deliverable is to assess availability of FAIR spatial data about human activity using global datasets, and to identify obstacles (knowledge gaps) to mapping their corresponding environmental pressures at the scale of the Atlantic Ocean basin to support ecosystem-based management. It also provides advice towards improving mapping based on machine learning/artificial intelligence (AI). WP1 & 7 identified the sectors affecting the marine environment, the pressures they create, and the ecological characteristics affected. Eighteen sectors, with 19 associated pressures that could impact 25 different ecosystem components were identified. In this deliverable, only the widely distributed sectors relevant across the whole ocean are considered: fishing, shipping, aquaculture, oil exploitation, telecommunications, scientific exploration and seabed minerals. Fishing intensity by main groups of fishing gears has been estimated by supervised classification of Automatic Identification System (AIS) data. These approaches have been able to distinguish between fishing and routing activity of individual vessels, while assigning up to 7 main fishing gear types. These are aggregated here into pelagic and bottom fishing activities to match the grouping of ecosystem components in these two groups. AIS data is most useful in the high seas since in coastal areas, smaller vessels do not require AIS, except in some regions of Europe. At the Canary Current Sea CS pelagic fishing shows the highest intensities around the Canaries and Cabo Verde archipelagos and all the way from western Sahara to Guinea-Bissau. On the contrary, bottom trawling concentrates closer to the coast off the coasts of northern Morocco and from western Sahara to Guinea-Bissau. At North Mid Atlantic Ridge CS scale, AIS data shows pelagic fishing is widely distributed except in the northern part, and bottom fishing seems to be concentrated on the Islands. At South Mid Atlantic Ridge CS, scale AIS data shows a wide distribution of pelagic fishing whereas bottom fishing seems to be poorly covered. At Brazilian Shelf CS scale, bottom and pelagic fishing are widely distributed on the area. Shipping activities can be also inferred from AIS data. AIS systems reporting position through a satellite system are mandatory in all passenger ships irrespective of size, all vessels > 300 MT (gross) transiting international routes, and any cargo ship > 500 MT transiting within national waters. Global patterns reveal that highest shipping intensity is concentrated in coastal areas with narrow routes connecting Asia, Africa and Europe. Connectivity between these continents and America is broader with a medium intensity over large areas. This can be observed in the Europe connection with North America, Europe connection to South America, South Africa connection with South America and in the connection of Asia with North America and with Australia. At the Atlantic scale, the areas of highest shipping intensity are concentrated in European coastal waters. These higher intensity paths cross the southern Celtic Sea, Canary Current, and western Benguela Current case studies. The rest of the case studies also contain relatively high intensity paths, but not as extreme. The large area covered by high intensity paths in Canary Current, Benguela Current and South Brazilian Shelf case studies is noteworthy. The North Mid Atlantic has moderate intensity paths covering most of its area with two higher intensity paths crossing it. The Norwegian Sea and the South Mid Atlantic Ridge case studies include large areas of low shipping intensity. We focus on three main sources of pollution: 1) Marine litter (widespread diffuse input), and in particular plastics (microplastics and macroplastics) and 2) Aquaculture platforms, as proxy of marine pollution sources (point source). feed, leading to major environmental concerns. 3) River discharges and nutrients (in between widespread and point source). Although river discharge and associated nutrients are a natural pressure in the coastal environment, anthropogenically polluted rivers can significantly alter the health of marine ecosystems, especially as metallic pollutants are associated with sediments. Open litter data is sparse and focused mainly on European waters. Continuous Plankton Recorder, which can also be used to sample plastics, covers not only European waters, but also an important part of Northwest Atlantic area. After revising multiples sources of river discharges and nutrients discharges the WaterGAP 2.2d model and the Global River Water Quality Archive have been identified as the best sources of data at the Atlantic Ocean and global scales. Aquaculture data is very limited even in European open datasets and it can be addressed applying machine learning to satellite data. Other seabed related data include oil exploitation, telecommunications, scientific exploration and seabed minerals. These data are integrated for European waters in EMODnet Seabed Habitats. In the Norwegian Sea, Celtic Sea, Benguela Current and South Brazilian Shelf additional local sources of oil exploitation data were available. In terms of telecommunications data, published data are predominantly landing stations and schematic routes. Regarding accurate spatial data on scientific surveys, only a few openly available sources have been identified at national and regional levels, and metadata are not standardised to be able to easily identify specific locations. Seabed mineral potential has been collated by EMODnet Seabed Habitats for most of the case study areas, except for the Benguela Current where local data were provided. Additional seabed mineral data were also provided for the South Brazilian Shelf, North Mid Atlantic Ridge and Benguela Current case study areas. The term big data was coined to capture the meaning of the emerging trend in large and heterogeneous data exploitation. In addition to its sheer volume, big data exhibit other unique characteristics as compared with traditional data. For instance, big data are commonly unstructured and require real-time analysis. This development calls for new computer science related system architectures for data acquisition, transmission, storage, and large-scale data processing mechanisms. Big data techniques enhanced by machine learning methods can increase the use of such data and their applicability to ecosystem-based management. Machine learning has already proven its potential in marine science. It has been applied, for example, to fisheries forecasting, automatic classification of plankton samples, identification of schools by species of fish in acoustic survey data, litter classification and litter forecasting. However, if AI methods are not fit for purpose, then trade-offs to accomplish appropriate performances can be missed or overfitting can lead to over confidence on AI capacity if proper validation and ground truth verification is not performed. This report highlights big data and machine learning-based datasets that are available to perform assessments at the level of the whole Atlantic Ocean. These datasets focus on the activities that impact open-ocean marine environments (shipping, fishing and litter) and coastal areas (river discharges and flows, and the growing aquaculture activity). The differentiation between fishing and non-fishing (e.g. travel) activities of fishing vessels as well as distinguishing the fishing gear is needed to go from mapping activities to pressures. For example, a fishing vessel en route to a fishing site will generate different levels and types of noise and emissions than it will whilst fishing. Noise and emissions will also differ depending on the fishing gear being used. Furthermore, the highest direct pressure exerted on the ecosystem occurs during fishing due to the removal of fish and bycatch, or litter generation from losing fishing gear and/or onboard activities. Members of ICES working group WGSHIP are actively working on the development of a conceptual framework for mapping the pressures and impacts of shipping.

Published

2023

31. Quantum key distribution via frequency translation in a nonlinear optical fiber.

Author

Bonetti, J., Hernandez, S. M., and Grosz, D. F.

Subjects

*POLARIZED photons, *LIGHT transmission, *OPTICAL fibers, *QUANTUM networks (Optics)

Abstract

We propose a simple and original implementation of the BB84 quantum key distribution protocol via a quantum frequency-translation process in a nonlinear optical fiber. Unlike most conventional quantum key distribution implementations, which rely on the photon polarization/phase, encoding quantum information in the photon frequency state is inherently more stable against mechanical and/or thermal fluctuations over transmission media such as optical fibers. We also show the proposed scheme to be naturally expandable to larger character sets, and demonstrate a straightforward extension to a four-character alphabet (qu-quarts), providing enhanced security for quantum key distribution applications. [ABSTRACT FROM AUTHOR]

Published

2023

32. A Simulation-based Method for Correcting Mode Coupling in CMB Angular Power Spectra

Author

Leung, J. S.-Y., Hartley, J., Nagy, J. M., Netterfield, C. B., Shariff, J. A., 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., Dore, O., Duivenvoorden, A. J., Eriksen, H. K., Farhang, M., Filippini, J. P., Fraisse, A. A., Freese, Katherine, Galloway, M., Gambrel, A. E., Gandilo, N. N., Ganga, K., Gualtieri, R., Gudmundsson, Jón E., Halpern, M., Hasselfield, M., Hilton, G., Holmes, W., Hristov, V. V., Huang, Z., Irwin, K. D., Jones, W. C., Karakci, A., Kuo, C. L., Kermish, Z. D., Li, S., Mak, D. S. Y., Mason, P., Megerian, K., Moncelsi, L., Morford, T. A., Nolta, M., Osherson, B., Padilla, I. L., Racine, B., Rahlin, A. S., Reintsema, C., Ruhl, J. E., Runyan, M. C., Ruud, T. M., Shaw, E. C., Shiu, C., Soler, J. D., Song, X., Trangsrud, A., Tucker, C., Tucker, R. S., Turner, A. D., van der List, J. F., Weber, A. C., Wehus, I. K., Wen, S., Wiebe, D., Young, E. Y., Leung, J. S.-Y., Hartley, J., Nagy, J. M., Netterfield, C. B., Shariff, J. A., 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., Dore, O., Duivenvoorden, A. J., Eriksen, H. K., Farhang, M., Filippini, J. P., Fraisse, A. A., Freese, Katherine, Galloway, M., Gambrel, A. E., Gandilo, N. N., Ganga, K., Gualtieri, R., Gudmundsson, Jón E., Halpern, M., Hasselfield, M., Hilton, G., Holmes, W., Hristov, V. V., Huang, Z., Irwin, K. D., Jones, W. C., Karakci, A., Kuo, C. L., Kermish, Z. D., Li, S., Mak, D. S. Y., Mason, P., Megerian, K., Moncelsi, L., Morford, T. A., Nolta, M., Osherson, B., Padilla, I. L., Racine, B., Rahlin, A. S., Reintsema, C., Ruhl, J. E., Runyan, M. C., Ruud, T. M., Shaw, E. C., Shiu, C., Soler, J. D., Song, X., Trangsrud, A., Tucker, C., Tucker, R. S., Turner, A. D., van der List, J. F., Weber, A. C., Wehus, I. K., Wen, S., Wiebe, D., and Young, E. Y.

Abstract

Modern cosmic microwave background (CMB) analysis pipelines regularly employ complex time-domain filters, beam models, masking, and other techniques during the production of sky maps and their corresponding angular power spectra. However, these processes can generate couplings between multipoles from the same spectrum and from different spectra, in addition to the typical power attenuation. Within the context of pseudo-C-l based, MASTER-style analyses, the net effect of the time-domain filtering is commonly approximated by a multiplicative transfer function, F-l , that can fail to capture mode mixing and is dependent on the spectrum of the signal. To address these shortcomings, we have developed a simulation-based spectral correction approach that constructs a two-dimensional transfer matrix, J(ll'), which contains information about mode mixing in addition to mode attenuation. We demonstrate the application of this approach on data from the first flight of the Spider balloon-borne CMB experiment.

Published

2022

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

Author

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, Adri J., Eriksen, H. K., Farhang, M., Filippini, J. P., Fraisse, A. A., Freese, Katherine, Galloway, M., Gambrel, A. E., Gandilo, N. N., Ganga, K., Gualtieri, R., Gudmundsson, Jón E., Halpern, M., Hartley, J., Hasselfield, M., Hilton, G., Holmes, W., Hristov, V. V., Huang, Z., Irwin, K. D., Jones, W. C., Karakci, A., Kuo, C. L., Kermish, Z. D., Leung, J. S.-Y., Li, S., Mak, D. S. Y., Mason, P., Megerian, K., Moncelsi, L., Morford, T. A., Nagy, J. M., Netterfield, C. B., Nolta, M., O'Brient, R., Osherson, B., Padilla, I. L., Racine, B., Rahlin, A. S., Reintsema, C., Ruhl, J. E., Runyan, M. C., Ruud, T. M., Shariff, J. A., Shaw, E. C., Shiu, C., Soler, J. D., Song, X., Trangsrud, A., Tucker, C., Tucker, R. S., Turner, A. D., van der List, J. F., Weber, A. C., Wehus, I. K., Wen, S., Wiebe, D., Young, E. Y., 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, Adri J., Eriksen, H. K., Farhang, M., Filippini, J. P., Fraisse, A. A., Freese, Katherine, Galloway, M., Gambrel, A. E., Gandilo, N. N., Ganga, K., Gualtieri, R., Gudmundsson, Jón E., Halpern, M., Hartley, J., Hasselfield, M., Hilton, G., Holmes, W., Hristov, V. V., Huang, Z., Irwin, K. D., Jones, W. C., Karakci, A., Kuo, C. L., Kermish, Z. D., Leung, J. S.-Y., Li, S., Mak, D. S. Y., Mason, P., Megerian, K., Moncelsi, L., Morford, T. A., Nagy, J. M., Netterfield, C. B., Nolta, M., O'Brient, R., Osherson, B., Padilla, I. L., Racine, B., Rahlin, A. S., Reintsema, C., Ruhl, J. E., Runyan, M. C., Ruud, T. M., Shariff, J. A., Shaw, E. C., Shiu, C., Soler, J. D., Song, X., Trangsrud, A., Tucker, C., Tucker, R. S., Turner, A. D., van der List, J. F., Weber, A. C., Wehus, I. K., Wen, S., Wiebe, D., and Young, E. Y.

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.

Published

2022

34. Heralded single-photon sources based on 2D-decorated nanowires

Author

Bonetti, J., primary, Linale, N., additional, and Grosz, D.F., additional

Published

2022

35. A Simulation-based Method for Correcting Mode Coupling in CMB Angular Power Spectra

Author

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

Published

2022

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

Author

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

Published

2022

37. Dispersive waves and radiation trapping in optical fibers with a zero-nonlinearity wavelength

Author

Hernandez, S. M., primary, Sparapani, A., additional, Linale, N., additional, Bonetti, J., additional, Grosz, D. F., additional, and Fierens, P. I., additional

Published

2022

38. All-optical pulse-train generation through the temporal analogue of a laser

Author

Sparapani, A., primary, Fernández, G., additional, Sánchez, A.D., additional, Bonetti, J., additional, Linale, N., additional, and Grosz, D.F., additional

Published

2022

39. Pre-selection of Areas for Shrimp Culture in a Subtropical Brazilian Lagoon Based on Multicriteria Hydrological Evaluation

Author

Beltrame, E., Bonetti, C., and Bonetti, J.

Published

2006

40. The Influence of Natural and Anthropogenic Agents in the Determination of Sedimentary Environments at Itapocu Estuarine-Lagoonal System, Santa Catarina, Brazil

Author

Bonetti, C., Bonetti, J., and Beltrame, E.

Published

2006

41. The XFaster Power Spectrum and Likelihood Estimator for the Analysis of Cosmic Microwave Background Maps

Author

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

Published

2021

42. EFFECTS OF ANNUAL WINTER COVER CROPS ON SOYBEAN AND MAIZE YIELD IN SOUTH OF BRAZIL

Author

Pitta, C. S. R., primary, Bonetti, J. A., additional, Lavratti, A., additional, Ribas, A. F., additional, Bhering, D. D. M., additional, and Roncatto, E., additional

Published

2021

43. DESEMPENHO DA SOJA SOB DIFERENTES TRÁFEGOS AGRÍCOLAS E PLANTAS DE COBERTURA DE OUTONO-INVERNO

Author

PITTA, C. S. R., primary, BONETTI, J. A., additional, LAVRATTI, A., additional, STANCK, D., additional, and FINK, J. R., additional

Published

2021

44. Soliton solutions and self-steepening in the photon-conserving nonlinear Schrödinger equation.

Author

Hernandez, S. M., Bonetti, J., Linale, N., Grosz, D. F., and Fierens, P. I.

Subjects

*SCHRODINGER equation, *OPTICAL waveguides, *PHOTON counting, *NONLINEAR Schrodinger equation, *ARBITRARY constants, *LIGHT propagation, *SOLITONS

Abstract

We have recently introduced a new modeling equation for the propagation of pulses in optical waveguides, the photon-conserving Nonlinear Schrödinger Equation (pcNLSE) which, unlike the canonical NLSE, guarantees strict conservation of both the energy and the number of photons for any arbitrary frequency-dependent nonlinearity. In this paper, we analyze some properties of this new equation in the familiar case where the nonlinear coefficient of the waveguide does not change sign. We show that the pcNLSE effectively adds a correction term to the NLSE proportional to the deviation of the self-steepening (SS) parameter from the photon-conserving condition in the NLSE. Furthermore, we describe the role of the self-steepening parameter in the context of the conservation of the number of photons and derive an analytical expression for the relation of the SS parameter with the time delay experienced by pulses upon propagation. Finally, we put forth soliton-like solutions of the pcNLSE that, unlike NLSE solitons, conserve the number of photons for any arbitrary SS parameter. [ABSTRACT FROM AUTHOR]

Published

2022

45. Deciphering Co‐Seismic Sedimentary Processes in the Mediterranean Sea Using Elemental, Organic Carbon, and Isotopic Data

Author

Polonia, A., primary, Bonetti, C., additional, Bonetti, J., additional, Çağatay, M. N., additional, Gallerani, A., additional, Gasperini, L., additional, Nelson, C. H., additional, and Romano, S., additional

Published

2021

46. A Constraint on Primordial B-Modes from the First Flight of the SPIDER Balloon-Borne Telescope

Author

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., Gambrel, A. E., Gandilo, N. N., Ganga, K., Gualtieri, R., Gudmundsson, J. E., Halpern, M., Hartley, J., Hasselfield, M., Hilton, G., Holmes, W., Hristov, V. V., Huang, Z., Irwin, K. D., Jones, W. C., Karakci, A., Kuo, C. L., Kermish, Z. D., Leung, J. S. -Y., Li, S., Mak, D. S. Y., Mason, P. V., Megerian, K., Moncelsi, L., Morford, T. A., Nagy, J. M., Netterfield, C. B., Nolta, M., O'Brient, R., Osherson, B., Padilla, I. L., Racine, B., Rahlin, A. S., Reintsema, C., Ruhl, J. E., Runyan, M. C., Ruud, T. M., Shariff, J. A., Shaw, E. C., Shiu, C., Soler, J. D., Song, X., Trangsrud, A., Tucker, C., Tucker, R. S., Turner, A. D., List, J. F. van der, Weber, A. C., Wehus, I. K., Wen, S., Wiebe, D. V., Young, E. Y., 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., Gambrel, A. E., Gandilo, N. N., Ganga, K., Gualtieri, R., Gudmundsson, J. E., Halpern, M., Hartley, J., Hasselfield, M., Hilton, G., Holmes, W., Hristov, V. V., Huang, Z., Irwin, K. D., Jones, W. C., Karakci, A., Kuo, C. L., Kermish, Z. D., Leung, J. S. -Y., Li, S., Mak, D. S. Y., Mason, P. V., Megerian, K., Moncelsi, L., Morford, T. A., Nagy, J. M., Netterfield, C. B., Nolta, M., O'Brient, R., Osherson, B., Padilla, I. L., Racine, B., Rahlin, A. S., Reintsema, C., Ruhl, J. E., Runyan, M. C., Ruud, T. M., Shariff, J. A., Shaw, E. C., Shiu, C., Soler, J. D., Song, X., Trangsrud, A., Tucker, C., Tucker, R. S., Turner, A. D., List, J. F. van der, Weber, A. C., Wehus, I. K., Wen, S., Wiebe, D. V., and Young, E. Y.

Abstract

We present the first linear polarization measurements from the 2015 long-duration balloon flight of SPIDER, an experiment designed to map the polarization of the cosmic microwave background (CMB) on degree angular scales. 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 in order 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, employing 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.

Published

2021

47. The Keck Array: A Multi Camera CMB Polarimeter at the South Pole

Author

Staniszewski, Z., Aikin, R. W., Amiri, M., Benton, S. J., Bischoff, C., Bock, J. J., Bonetti, J. A., Brevik, J. A., Burger, B., Dowell, C. D., Duband, L., Filippini, J. P., Golwala, S. R., Halpern, M., Hasselfield, M., Hilton, G., Hristov, V. V., Irwin, K., Kovac, J. M., Kuo, C. L., Lueker, M., Montroy, T., Nguyen, H. T., Ogburn, IV, R. W., O’Brient, R., Orlando, A., Pryke, C., Reintsema, C., Ruhl, J. E., Schwarz, R., Sheehy, C., Stokes, S., Thompson, K. L., Teply, G., Tolan, J. E., Turner, A. D., Vieregg, A. G., Wilson, P., Wiebe, D., and Wong, C. L.

Published

2012

48. Characterization and Fabrication of the TES Arrays for the Spider, Keck and BICEP2 CMB Polarimeters

Author

Bonetti, J. A., Turner, A. D., Bock, J. J., Brevik, J. A., Day, P. K., Filippini, J., Golwala, S. R., Holmes, W., Jones, W. C., Kenyon, M., Kovac, J. M., Kuo, C. L., LeDuc, H. G., Lueker, M., Nguyen, H. T., O’brient, R., Orlando, A., Runyan, M., Staniszewski, Z., Sudiwala, R., and Trangsrud, A.

Published

2012

49. A Novel Superconducting Detector Based on Fluxoid Quantization

Author

Bonetti, J. A., Jones, W. C., and Holmes, W.

Published

2012

50. Quantum Noise in Fibers with Arbitrary Nonlinear Profiles

Author

Bonetti, J., primary, Grosz, D. F., additional, and Hernandez, S. M., additional

Published

2021