Your search keyword '"Hillbrand, Seth"' showing total 107 results

1. Search for Dark Photon Dark Matter: Dark E-Field Radio Pilot Experiment

Author

Godfrey, Benjamin, Tyson, J. Anthony, Hillbrand, Seth, Balajthy, Jon, Polin, Daniel, Tripathi, S. Mani, Klomp, Shelby, Levine, Joseph, MacFadden, Nate, Kolner, Brian H., Smith, Molly R., Stucky, Paul, Phipps, Arran, Graham, Peter, and Irwin, Kent

Subjects

Physics - Instrumentation and Detectors, High Energy Physics - Experiment

Abstract

We are building an experiment to search for dark matter in the form of dark photons in the nano- to milli-eV mass range. This experiment is the electromagnetic dual of magnetic detector dark radio experiments. It is also a frequency-time dual experiment in two ways: We search for a high-Q signal in wide-band data rather than tuning a high-$Q$ resonator, and we measure electric rather than magnetic fields. In this paper we describe a pilot experiment using room temperature electronics which demonstrates feasibility and sets useful limits to the kinetic coupling $\epsilon \sim 10^{-12}$ over 50--300 MHz. With a factor of 2000 increase in real-time spectral coverage, and lower system noise temperature, it will soon be possible to search a wide range of masses at 100 times this sensitivity. We describe the planned experiment in two phases: Phase-I will implement a wide band, 5-million channel, real-time FFT processor over the 30--300 MHz range with a back-end time-domain optimal filter to search for the predicted $Q\sim 10^6$ line using low-noise amplifiers. We have completed spot frequency calibrations using a biconical dipole antenna in a shielded room that extrapolate to a $5 \sigma$ limit of $\epsilon\sim 10^{-13}$ for the coupling from the dark field, per month of integration. Phase-II will extend the search to 20 GHz using cryogenic preamplifiers and new antennas., Comment: 11 pages, 13 figures. Updated to published version. Corrected minor error in Fig 12 x-axis; results unchanged

Published

2021

2. The EBEX Balloon Borne Experiment - Detectors and Readout

Author

The EBEX Collaboration, Abitbol, Maximilian, Aboobaker, Asad M., Ade, Peter, Araujo, Derek, Aubin, François, Baccigalupi, Carlo, Bao, Chaoyun, Chapman, Daniel, Didier, Joy, Dobbs, Matt, Feeney, Stephen M., Geach, Christopher, Grainger, Will, Hanany, Shaul, Helson, Kyle, Hillbrand, Seth, Hilton, Gene, Hubmayr, Johannes, Irwin, Kent, Jaffe, Andrew, Johnson, Bradley, Jones, Terry, Klein, Jeff, Korotkov, Andrei, Lee, Adrian, Levinson, Lorne, Limon, Michele, MacDermid, Kevin, Miller, Amber D., Milligan, Michael, Raach, Kate, Reichborn-Kjennerud, Britt, Reintsema, Carl, Sagiv, Ilan, Smecher, Graeme, Tucker, Gregory S., Westbrook, Benjamin, Young, Karl, and Zilic, Kyle

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

EBEX was a long-duration balloon-borne experiment to measure the polarization of the cosmic microwave background. The experiment had three frequency bands centered at 150, 250, and 410 GHz and was the first to use a kilo-pixel array of transition edge sensor (TES) bolometers aboard a balloon platform; shortly after reaching float we operated 504, 342, and 109 TESs at each of the bands, respectively. We describe the design and characterization of the array and the readout system. We give the distributions of measured thermal conductances, normal resistances, and transition temperatures. With the exception of the thermal conductance at 150 GHz. We measured median low-loop-gain time constants $\tau_{0}=$ 88, 46, and 57 ms and compare them to predictions. Two measurements of bolometer absorption efficiency show high ($\sim$0.9) efficiency at 150 GHz and medium ($\sim$0.35, and $\sim$0.25) at the two higher bands, respectively. We measure a median total optical load of 3.6, 5.3 and 5.0 pW absorbed at the three bands, respectively. EBEX pioneered the use of the digital version of the frequency domain multiplexing (FDM) system which multiplexed the bias and readout of 16 bolometers onto two wires. We present accounting of the measured noise equivalent power. The median per-detector noise equivalent temperatures referred to a black body with a temperature of 2.725 K are 400, 920, and 14500 $\mu$K$\sqrt{s}$ for the three bands, respectively. We compare these values to our pre-flight predictions and to a previous balloon payload, discuss the sources of excess noise, and the path for a future payload to make full use of the balloon environment., Comment: Accepted by The Astrophysical Journal Supplement Series (APJS). 49 pages, 28 figures, 11 tables

Published

2018

3. Intensity-Coupled-Polarization in Instruments with a Continuously Rotating Half-Wave Plate

Author

Didier, Joy, Miller, Amber D., Araujo, Derek, Aubin, François, Geach, Christopher, Johnson, Bradley, Korotkov, Andrei, Raach, Kate, Westbrook, Benjamin, Young, Karl, Aboobaker, Asad M., Ade, Peter, Baccigalupi, Carlo, Bao, Chaoyun, Chapman, Daniel, Dobbs, Matt, Grainger, Will, Hanany, Shaul, Helson, Kyle, Hillbrand, Seth, Hubmayr, Johannes, Jaffe, Andrew, Jones, Terry, Klein, Jeff, Lee, Adrian, Limon, Michele, MacDermid, Kevin, Milligan, Michael, Pascale, Enzo, Reichborn-Kjennerud, Britt, Sagiv, Ilan, Tucker, Carole, Tucker, Gregory S., and Zilic, Kyle

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

We discuss a systematic effect associated with measuring polarization with a continuously rotating half-wave plate. The effect was identified with the data from the E and B Experiment (EBEX), which was a balloon-borne instrument designed to measure the polarization of the CMB as well as that from Galactic dust. The data show polarization fraction larger than 10\% while less than 3\% were expected from instrumental polarization. We give evidence that the excess polarization is due to detector non-linearity in the presence of a continuously rotating HWP. The non-linearity couples intensity signals into polarization. We develop a map-based method to remove the excess polarization. Applying this method for the 150 (250) GHz bands data we find that 81\% (92\%) of the excess polarization was removed. Characterization and mitigation of this effect is important for future experiments aiming to measure the CMB B-modes with a continuously rotating HWP., Comment: 43 pages, 12 figures, submitted to the Astrophysical Journal

Published

2017

4. On the Evaluation of Silicon Photomultipliers for Use as Photosensors in Liquid Xenon Detectors

Author

Godfrey, Benjamin, Anderson, Tyler, Breedon, Earl, Cutter, Jacob, Dhaliwal, Navneet, Dalager, Olivia, Hillbrand, Seth, Irving, Michael, Manalaysay, Aaron, Montoya, Juan, Morad, James, Neher, Christian, Stolp, Dustin, Tripathi, Mani, and Wilson, Ryan

Subjects

Physics - Instrumentation and Detectors, High Energy Physics - Experiment

Abstract

Silicon photomultipliers (SiPMs) are potential solid-state alternatives to traditional photomultiplier tubes (PMTs) for single-photon detection. In this paper, we report on evaluating SensL MicroFC-10035-SMT SiPMs for their suitability as PMT replacements. The devices were successfully operated in a liquid-xenon detector, which demonstrates that SiPMs can be used in noble element time projection chambers as photosensors. The devices were also cooled down to 170 K to observe dark count dependence on temperature. No dependencies on the direction of an applied 3.2 kV/cm electric field were observed with respect to dark-count rate, gain, or photon detection efficiency., Comment: This is an author-created, un-copyedited version of an article accepted for publication/published in Journal of Instrumentation. IOP Publishing Ltd is not responsible for any errors or omissions in this version of the manuscript or any version derived from it. The Version of Record is available online at https://doi.org/10.1088/1748-0221/13/03/C03041

Published

2017

5. The EBEX Balloon Borne Experiment - Optics, Receiver, and Polarimetry

Author

The EBEX Collaboration, Aboobaker, Asad M., Ade, Peter, Araujo, Derek, Aubin, François, Baccigalupi, Carlo, Bao, Chaoyun, Chapman, Daniel, Didier, Joy, Dobbs, Matt, Geach, Christopher, Grainger, Will, Hanany, Shaul, Helson, Kyle, Hillbrand, Seth, Hubmayr, Johannes, Jaffe, Andrew, Johnson, Bradley, Jones, Terry, Klein, Jeff, Korotkov, Andrei, Lee, Adrian, Levinson, Lorne, Limon, Michele, MacDermid, Kevin, Matsumura, Tomotake, Miller, Amber D., Milligan, Michael, Raach, Kate, Reichborn-Kjennerud, Britt, Sagiv, Ilan, Savini, Giorgio, Spencer, Locke, Tucker, Carole, Tucker, Gregory S., Westbrook, Ben, Young, Karl, and Zilic, Kyle

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The E and B Experiment (EBEX) was a long-duration balloon-borne cosmic microwave background polarimeter that flew over Antarctica in 2013. We describe the experiment's optical system, receiver, and polarimetric approach, and report on their in-flight performance. EBEX had three frequency bands centered on 150, 250, and 410 GHz. To make efficient use of limited mass and space we designed a 115 cm$^{2}$sr high throughput optical system that had two ambient temperature mirrors and four anti-reflection coated polyethylene lenses per focal plane. All frequency bands shared the same optical train. Polarimetry was achieved with a continuously rotating achromatic half-wave plate (AHWP) that was levitated with a superconducting magnetic bearing (SMB). Rotation stability was 0.45 % over a period of 10 hours, and angular position accuracy was 0.01 degrees. This is the first use of a SMB in astrophysics. The measured modulation efficiency was above 90 % for all bands. To our knowledge the 109 % fractional bandwidth of the AHWP was the broadest implemented to date. The receiver that contained one lens and the AHWP at a temperature of 4 K, the polarizing grid and other lenses at 1 K, and the two focal planes at 0.25 K performed according to specifications giving focal plane temperature stability with fluctuation power spectrum that had $1/f$ knee at 2 mHz. EBEX was the first balloon-borne instrument to implement technologies characteristic of modern CMB polarimeters including high throughput optical systems, and large arrays of transition edge sensor bolometric detectors with mutiplexed readouts., Comment: 49 pages, 32 figures, submitted to The Astrophysical Journal Supplement

Published

2017

6. The EBEX Balloon-Borne Experiment - Gondola, Attitude Control, and Control Software

Author

The EBEX Collaboration, Aboobaker, Asad, Ade, Peter, Araujo, Derek, Aubin, François, Baccigalupi, Carlo, Bao, Chaoyun, Chapman, Daniel, Didier, Joy, Dobbs, Matt, Grainger, Will, Hanany, Shaul, Helson, Kyle, Hillbrand, Seth, Hubmayr, Johannes, Jaffe, Andrew, Johnson, Bradley, Jones, Terry, Klein, Jeff, Korotkov, Andrei, Lee, Adrian, Levinson, Lorne, Limon, Michele, MacDermid, Kevin, Miller, Amber D., Milligan, Michael, Moncelsi, Lorenzo, Pascale, Enzo, Raach, Kate, Reichborn-Kjennerud, Britt, Sagiv, Ilan, Tucker, Carole, Tucker, Gregory S., Westbrook, Benjamin, Young, Karl, and Zilic, Kyle

Subjects

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

Abstract

The E and B Experiment (EBEX) was a long-duration balloon-borne instrument designed to measure the polarization of the cosmic microwave background (CMB) radiation. EBEX was the first balloon-borne instrument to implement a kilo-pixel array of transition edge sensor (TES) bolometric detectors and the first CMB experiment to use the digital version of the frequency domain multiplexing system for readout of the TES array. The scan strategy relied on 40 s peak-to-peak constant velocity azimuthal scans. We discuss the unique demands on the design and operation of the payload that resulted from these new technologies and the scan strategy. We describe the solutions implemented including the development of a power system designed to provide a total of at least 2.3 kW, a cooling system to dissipate 590 W consumed by the detectors' readout system, software to manage and handle the data of the kilo-pixel array, and specialized attitude reconstruction software. We present flight performance data showing faultless management of the TES array, adequate powering and cooling of the readout electronics, and constraint of attitude reconstruction errors such that the spurious B-modes they induced were less than 10% of CMB B-mode power spectrum with $r=0.05$., Comment: 37 pages, 16 figures, accepted for publication in ApJ Supp

Published

2017

7. Instrumental performance and results from testing of the BLAST-TNG receiver, submillimeter optics, and MKID arrays

Author

Galitzki, Nicholas, Ade, Peter, Angile, Francesco E., Ashton, Peter, Austermann, Jason, Billings, Tashalee, Che, George, Cho, Hsiao-Mei, Davis, Kristina, Devlin, Mark, Dicker, Simon, Dober, Bradley J., Fissel, Laura M., Fukui, Yasuo, Gao, Jiansong, Gordon, Samuel, Groppi, Christopher E., Hillbrand, Seth, Hilton, Gene C., Hubmayr, Johannes, Irwin, Kent D., Klein, Jeffrey, Li, Dale, Li, Zhi-Yun, Lourie, Nathan P., Lowe, Ian, Mani, Hamdi, Martin, Peter G., Mauskopf, Philip, McKenney, Christopher, Nati, Federico, Novak, Giles, Pascale, Enzo, Pisano, Giampaolo, Santos, Fabio P., Scott, Douglas, Sinclair, Adrian, Soler, Juan D., Tucker, Carole, Underhill, Matthew, Vissers, Michael, and Williams, Paul

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

Polarized thermal emission from interstellar dust grains can be used to map magnetic fields in star forming molecular clouds and the diffuse interstellar medium (ISM). The Balloon-borne Large Aperture Submillimeter Telescope for Polarimetry (BLASTPol) flew from Antarctica in 2010 and 2012 and produced degree-scale polarization maps of several nearby molecular clouds with arcminute resolution. The success of BLASTPol has motivated a next-generation instrument, BLAST-TNG, which will use more than 3000 linear polarization sensitive microwave kinetic inductance detectors (MKIDs) combined with a 2.5m diameter carbon fiber primary mirror to make diffraction-limited observations at 250, 350, and 500 $\mu$m. With 16 times the mapping speed of BLASTPol, sub-arcminute resolution, and a longer flight time, BLAST-TNG will be able to examine nearby molecular clouds and the diffuse galactic dust polarization spectrum in unprecedented detail. The 250 $\mu$m detector array has been integrated into the new cryogenic receiver, and is undergoing testing to establish the optical and polarization characteristics of the instrument. BLAST-TNG will demonstrate the effectiveness of kilo-pixel MKID arrays for applications in submillimeter astronomy. BLAST-TNG is scheduled to fly from Antarctica in December 2017 for 28 days and will be the first balloon-borne telescope to offer a quarter of the flight for "shared risk" observing by the community., Comment: Presented at SPIE Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy VIII, June 29th, 2016

Published

2016

8. A high-resolution pointing system for fast scanning platforms: The EBEX example

Author

Didier, Joy, Chapman, Daniel, Aboobaker, Asad, Araujo, Derek, Grainger, Will, Hanany, Shaul, Helson, Kyle, Hillbrand, Seth, Korotkov, Andrei, Limon, Michele, Miller, Amber, Reichborn-Kjennerud, Britt, Sagiv, Ilan, Tucker, Greg, and Vinokurov, Yuri

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The E and B experiment (EBEX) is a balloon-borne telescope designed to measure the polarization of the cosmic microwave background with 8' resolution employing a gondola scanning with speeds of order degree per second. In January 2013, EBEX completed 11 days of observations in a flight over Antarctica covering $\sim$ 6000 square degrees of the sky. The payload is equipped with two redundant star cameras and two sets of three orthogonal gyroscopes to reconstruct the telescope attitude. The EBEX science goals require the pointing to be reconstructed to approximately 10" in the map domain, and in-flight attitude control requires the real time pointing to be accurate to $\sim$ 0.5$^{\circ}$ . The high velocity scan strategy of EBEX coupled to its float altitude only permits the star cameras to take images at scan turnarounds, every $\sim$ 40 seconds, and thus requires the development of a pointing system with low noise gyroscopes and carefully controlled systematic errors. Here we report on the design of the pointing system and on a simulation pipeline developed to understand and minimize the effects of systematic errors. The performance of the system is evaluated using the 2012/2013 flight data, and we show that we achieve a pointing error with RMS=25" on 40 seconds azimuth throws, corresponding to an error of $\sim$ 4.6" in the map domain., Comment: 14 pages, Proceedings of the 2015 IEEE Aerospace Conference

Published

2016

9. Temperature calibration of the E and B experiment

Author

Aubin, Francois, Aboobaker, Asad M., Ade, Peter, Araujo, Derek, Baccigalupi, Carlo, Bao, Chaoyun, Borrill, Julian, Chapman, Daniel, Didier, Joy, Dobbs, Matt, Feeney, Stephen, Geach, Christopher, Hanany, Shaul, Helson, Kyle, Hillbrand, Seth, Hilton, Gene, Hubmayr, Johannes, Jaffe, Andrew, Johnson, Bradley, Jones, Terry, Kisner, Theodore, Klein, Jeff, Korotkov, Andrei, Lee, Adrian, Levinson, Lorne, Limon, Michele, Macdermid, Kevin, Marchenko, Valerie, Miller, Amber D., Milligan, Michael, Pascale, Enzo, Puglisi, Giuseppe, Raach, Kate, Reichborn-Kjennerud, Britt, Reintsema, Carl, Sagiv, Ilan, Smecher, Graeme, Stompor, Radek, Tristram, Matthieu, Tucker, Gregory S., Westbrook, Ben, Young, Karl, and Zilic, Kyle

Subjects

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

Abstract

The E and B Experiment (EBEX) is a balloon-borne polarimeter designed to measure the polarization of the cosmic microwave background radiation and to characterize the polarization of galactic dust. EBEX was launched December 29, 2012 and circumnavigated Antarctica observing $\sim$6,000 square degrees of sky during 11 days at three frequency bands centered around 150, 250 and 410 GHz. EBEX was the first experiment to operate a kilo-pixel array of transition-edge sensor bolometers and a continuously rotating achromatic half-wave plate aboard a balloon platform. It also pioneered the use of detector readout based on digital frequency domain multiplexing. We describe the temperature calibration of the experiment. The gain response of the experiment is calibrated using a two-step iterative process. We use signals measured on passes across the Galactic plane to convert from readout-system counts to power. The effective smoothing scale of the EBEX optics and the star camera-to-detector offset angles are determined through \c{hi}2 minimization using the compact HII region RCW 38. This two-step process is initially performed with parameters measured before the EBEX 2013 flight and then repeated until the calibration factor and parameters converge., Comment: 6 pages, 3 figures, Proceedings of the 14th Marcel Grossman Conference

Published

2016

10. BFORE: The B-mode Foreground Experiment

Author

Niemack, Michael D., Ade, Peter, de Bernardis, Francesco, Boulanger, Francois, Bryan, Sean, Devlin, Mark, Dunkley, Joanna, Eales, Steve, Gomez, Haley, Groppi, Chris, Henderson, Shawn, Hillbrand, Seth, Hubmayr, Johannes, Mauskopf, Philip, McMahon, Jeff, Miville-Deschênes, Marc-Antoine, Pascale, Enzo, Pisano, Giampaolo, Novak, Giles, Scott, Douglas, Soler, Juan, and Tucker, Carole

Subjects

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

Abstract

The B-mode Foreground Experiment (BFORE) is a proposed NASA balloon project designed to make optimal use of the sub-orbital platform by concentrating on three dust foreground bands (270, 350, and 600 GHz) that complement ground-based cosmic microwave background (CMB) programs. BFORE will survey ~1/4 of the sky with 1.7 - 3.7 arcminute resolution, enabling precise characterization of the Galactic dust that now limits constraints on inflation from CMB B-mode polarization measurements. In addition, BFORE's combination of frequency coverage, large survey area, and angular resolution enables science far beyond the critical goal of measuring foregrounds. BFORE will constrain the velocities of thousands of galaxy clusters, provide a new window on the cosmic infrared background, and probe magnetic fields in the interstellar medium. We review the BFORE science case, timeline, and instrument design, which is based on a compact off-axis telescope coupled to >10,000 superconducting detectors., Comment: 7 pages, 4 figures, conference proceedings published in Journal of Low Temperature Physics

Published

2015

11. STARS: A software application for the EBEX autonomous daytime star cameras

Author

Chapman, Daniel, Didier, Joy, Hanany, Shaul, Hillbrand, Seth, Limon, Michele, Miller, Amber, Reichborn-Kjennerud, Britt, Tucker, Greg, and Vinokurov, Yury

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The E and B Experiment (EBEX) is a balloon-borne telescope designed to probe polarization signals in the CMB resulting from primordial gravitational waves, gravitational lensing, and Galactic dust emission. EBEX completed an 11 day flight over Antarctica in January 2013 and data analysis is underway. EBEX employs two star cameras to achieve its real-time and post-flight pointing requirements. We wrote a software application called STARS to operate, command, and collect data from each of the star cameras, and to interface them with the main flight computer. We paid special attention to make the software robust against potential in-flight failures. We report on the implementation, testing, and successful in flight performance of STARS., Comment: 14 pages, 6 figures, SPIE conference proceedings

Published

2014

12. The Next Generation BLAST Experiment

Author

Galitzki, Nicholas, Ade, Peter A. R., Angilè, Francesco E., Ashton, Peter, Beall, James A., Becker, Dan, Bradford, Kristi J., Che, George, Cho, Hsiao-Mei, Devlin, Mark J., Dober, Bradley J., Fissel, Laura M., Fukui, Yasuo, Gao, Jiansong, Groppi, Christopher E., Hillbrand, Seth, Hilton, Gene C., Hubmayr, Johannes, Irwin, Kent D., Klein, Jeffrey, Van Lanen, Jeff, Li, Dale, Li, Zhi-Yun, Lourie, Nathan P., Mani, Hamdi, Martin, Peter G., Mauskopf, Philip, Nakamura, Fumitaka, Novak, Giles, Pappas, David P., Pascale, Enzo, Pisano, Giampaolo, Santos, Fabio P., Savini, Giorgio, Scott, Douglas, Stanchfield, Sara, Tucker, Carole, Ullom, Joel N., Underhill, Matthew, Vissers, Michael R., and Ward-Thompson, Derek

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The Balloon-borne Large Aperture Submillimeter Telescope for Polarimetry (BLASTPol) was a suborbital experiment designed to map magnetic fields in order to study their role in star formation processes. BLASTPol made detailed polarization maps of a number of molecular clouds during its successful flights from Antarctica in 2010 and 2012. We present the next-generation BLASTPol instrument (BLAST-TNG) that will build off the success of the previous experiment and continue its role as a unique instrument and a test bed for new technologies. With a 16-fold increase in mapping speed, BLAST-TNG will make larger and deeper maps. Major improvements include a 2.5 m carbon fiber mirror that is 40% wider than the BLASTPol mirror and ~3000 polarization sensitive detectors. BLAST-TNG will observe in three bands at 250, 350, and 500 microns. The telescope will serve as a pathfinder project for microwave kinetic inductance detector (MKID) technology, as applied to feedhorn coupled submillimeter detector arrays. The liquid helium cooled cryostat will have a 28-day hold time and will utilize a closed-cycle $^3$He refrigerator to cool the detector arrays to 270 mK. This will enable a detailed mapping of more targets with higher polarization resolution than any other submillimeter experiment to date. BLAST-TNG will also be the first balloon-borne telescope to offer shared risk observing time to the community. This paper outlines the motivation for the project and the instrumental design.

Published

2014

13. The performance of the bolometer array and readout system during the 2012/2013 flight of the E and B experiment (EBEX)

Author

MacDermid, Kevin, Aboobaker, Asad M., Ade, Peter, Aubin, Francois, Baccigalupi, Carlo, Bandura, Kevin, Bao, Chaoyun, Borrill, Julian, Chapman, Daniel, Didier, Joy, Dobbs, Matt, Grain, Julien, Grainger, Will, Hanany, Shaul, Helson, Kyle, Hillbrand, Seth, Hilton, Gene, Hubmayr, Hannes, Irwin, Kent, Johnson, Bradley, Jaffe, Andrew, Jones, Terry, Kisner, Ted, Klein, Jeff, Korotkov, Andrei, Lee, Adrian, Levinson, Lorne, Limon, Michele, Miller, Amber, Milligan, Michael, Pascale, Enzo, Raach, Kate, Reichborn-Kjennerud, Britt, Reintsema, Carl, Sagiv, Ilan, Smecher, Graeme, Stompor, Radek, Tristram, Matthieu, Tucker, Greg, Westbrook, Ben, and Zilic, Kyle

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

EBEX is a balloon-borne telescope designed to measure the polarization of the cosmic microwave background radiation. During its eleven day science flight in the Austral Summer of 2012, it operated 955 spider-web transition edge sensor (TES) bolometers separated into bands at 150, 250 and 410 GHz. This is the first time that an array of TES bolometers has been used on a balloon platform to conduct science observations. Polarization sensitivity was provided by a wire grid and continuously rotating half-wave plate. The balloon implementation of the bolometer array and readout electronics presented unique development requirements. Here we present an outline of the readout system, the remote tuning of the bolometers and Superconducting QUantum Interference Device (SQUID) amplifiers, and preliminary current noise of the bolometer array and readout system., Comment: 15 pages, 12 figures, SPIE conference proceedings

Published

2014

14. The next-generation BLASTPol experiment

Author

Dober, Bradley, Ade, Peter A. R., Ashton, Peter, Angilè, Francesco E., Beall, James A., Becker, Dan, Bradford, Kristi J., Che, George, Cho, Hsiao-Mei, Devlin, Mark J., Fissel, Laura M., Fukui, Yasuo, Galitzki, Nicholas, Gao, Jiansong, Groppi, Christopher E., Hillbrand, Seth, Hilton, Gene C., Hubmayr, Johannes, Irwin, Kent D., Klein, Jeffrey, Van Lanen, Jeff, Li, Dale, Li, Zhi-Yun, Lourie, Nathan P., Mani, Hamdi, Martin, Peter G., Mauskopf, Philip, Nakamura, Fumitaka, Novak, Giles, Pappas, David P., Pascale, Enzo, Santos, Fabio P., Savini, Giorgio, Scott, Douglas, Stanchfield, Sara, Ullom, Joel N., Underhill, Matthew, Vissers, Michael R., and Ward-Thompson, Derek

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The Balloon-borne Large Aperture Submillimeter Telescope for Polarimetry (BLASTPol) is a suborbital mapping experiment designed to study the role magnetic fields play in star formation. BLASTPol has had two science flights from McMurdo Station, Antarctica in 2010 and 2012. These flights have produced thousands of polarization vectors at 250, 350 and 500 microns in several molecular cloud targets. We present the design, specifications, and progress towards the next-generation BLASTPol experiment (BLAST-TNG). BLAST-TNG will fly a 40% larger diameter primary mirror, with almost 8 times the number of polarization-sensitive detectors resulting in a factor of 16 increase in mapping speed. With a spatial resolution of 22 arcseconds and four times the field of view of BLASTPol, BLAST-TNG will bridge the angular scales between Planck's low resolution all-sky maps and ALMA's ultra-high resolution narrow fields. The new receiver has a larger cryogenics volume, allowing for a 28 day hold time. BLAST-TNG employs three arrays of Microwave Kinetic Inductance Detectors (MKIDs) with 30% fractional bandwidth at 250, 350 and 500 microns. In this paper, we will present the new BLAST-TNG instrument and science objectives., Comment: 12 pages, 6 figures. Presented at SPIE Ground-based and Airborne Telescopes V, June 23, 2014. To be published in Proceedings of SPIE Volume 9145

Published

2014

15. EBEX: A balloon-borne CMB polarization experiment

Author

Reichborn-Kjennerud, Britt, Aboobaker, Asad M., Ade, Peter, Aubin, Françcois, Baccigalupi, Carlo, Bao, Chaoyun, Borrill, Julian, Cantalupo, Christopher, Chapman, Daniel, Didier, Joy, Dobbs, Matt, Grain, Julien, Grainger, William, Hanany, Shaul, Hillbrand, Seth, Hubmayr, Johannes, Jaffe, Andrew, Johnson, Bradley, Jones, Terry, Kisner, Theodore, Klein, Jeff, Korotkov, Andrei, Leach, Sam, Lee, Adrian, Levinson, Lorne, Limon, Michele, MacDermid, Kevin, Matsumura, Tomotake, Meng, Xiaofan, Miller, Amber, Milligan, Michael, Pascale, Enzo, Polsgrove, Daniel, Ponthieu, Nicolas, Raach, Kate, Sagiv, Ilan, Smecher, Graeme, Stivoli, Federico, Stompor, Radek, Tran, Huan, Tristram, Matthieu, Tucker, Gregory S., Vinokurov, Yury, Yadav, Amit, Zaldarriaga, Matias, and Zilic, Kyle

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

EBEX is a NASA-funded balloon-borne experiment designed to measure the polarization of the cosmic microwave background (CMB). Observations will be made using 1432 transition edge sensor (TES) bolometric detectors read out with frequency multiplexed SQuIDs. EBEX will observe in three frequency bands centered at 150, 250, and 410 GHz, with 768, 384, and 280 detectors in each band, respectively. This broad frequency coverage is designed to provide valuable information about polarized foreground signals from dust. The polarized sky signals will be modulated with an achromatic half wave plate (AHWP) rotating on a superconducting magnetic bearing (SMB) and analyzed with a fixed wire grid polarizer. EBEX will observe a patch covering ~1% of the sky with 8' resolution, allowing for observation of the angular power spectrum from \ell = 20 to 1000. This will allow EBEX to search for both the primordial B-mode signal predicted by inflation and the anticipated lensing B-mode signal. Calculations to predict EBEX constraints on r using expected noise levels show that, for a likelihood centered around zero and with negligible foregrounds, 99% of the area falls below r = 0.035. This value increases by a factor of 1.6 after a process of foreground subtraction. This estimate does not include systematic uncertainties. An engineering flight was launched in June, 2009, from Ft. Sumner, NM, and the long duration science flight in Antarctica is planned for 2011. These proceedings describe the EBEX instrument and the North American engineering flight., Comment: 12 pages, 9 figures, Conference proceedings for SPIE Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy V (2010)

Published

2010

16. Software systems for operation, control, and monitoring of the EBEX instrument

Author

Milligan, Michael, Ade, Peter, Aubin, François, Baccigalupi, Carlo, Bao, Chaoyun, Borrill, Julian, Cantalupo, Christopher, Chapman, Daniel, Didier, Joy, Dobbs, Matt, Grainger, Will, Hanany, Shaul, Hillbrand, Seth, Hubmayr, Johannes, Jaffe, Andrew, Johnson, Bradley, Kisner, Theodore, Klein, Jeff, Korotkov, Andrei, Leach, Sam, Lee, Adrian, Levinson, Lorne, Limon, Michele, MacDermid, Kevin, Matsumura, Tomotake, Miller, Amber, Pascale, Enzo, Polsgrove, Daniel, Ponthieu, Nicolas, Raach, Kate, Reichborn-Kjennerud, Britt, Sagiv, Ilan, Tran, Huan, Tucker, Gregory S., Vinokurov, Yury, Yadav, Amit, Zaldarriaga, Matias, and Zilic, Kyle

Subjects

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

Abstract

We present the hardware and software systems implementing autonomous operation, distributed real-time monitoring, and control for the EBEX instrument. EBEX is a NASA-funded balloon-borne microwave polarimeter designed for a 14 day Antarctic flight that circumnavigates the pole. To meet its science goals the EBEX instrument autonomously executes several tasks in parallel: it collects attitude data and maintains pointing control in order to adhere to an observing schedule; tunes and operates up to 1920 TES bolometers and 120 SQUID amplifiers controlled by as many as 30 embedded computers; coordinates and dispatches jobs across an onboard computer network to manage this detector readout system; logs over 3~GiB/hour of science and housekeeping data to an onboard disk storage array; responds to a variety of commands and exogenous events; and downlinks multiple heterogeneous data streams representing a selected subset of the total logged data. Most of the systems implementing these functions have been tested during a recent engineering flight of the payload, and have proven to meet the target requirements. The EBEX ground segment couples uplink and downlink hardware to a client-server software stack, enabling real-time monitoring and command responsibility to be distributed across the public internet or other standard computer networks. Using the emerging dirfile standard as a uniform intermediate data format, a variety of front end programs provide access to different components and views of the downlinked data products. This distributed architecture was demonstrated operating across multiple widely dispersed sites prior to and during the EBEX engineering flight., Comment: 11 pages, to appear in Proceedings of SPIE Astronomical Telescopes and Instrumentation 2010; adjusted metadata for arXiv submission

Published

2010

17. The EBEX Cryostat and Supporting Electronics

Author

Sagiv, Ilan, Aboobaker, Asad M., Bao, Chaoyun, Hanany, Shaul, Jones, Terry, Klein, Jeffrey, Milligan, Michael, Polsgrove, Daniel E., Raach, Kate, Zilic, Kyle, Korotkov, Andrei, Tucker, Gregory S., Vinukurov, Yuri, Matsumura, Tomotake, Ade, Peter, Grainger, Will, Pascale, Enzo, Chapman, Daniel, Didier, Joy, Hillbrand, Seth, Reichborn-Kjennerud, Britt, Limon, Michele, Miller, Amber, Jaffe, Andrew, Yadav, Amit, Zaldarriaga, Matias, Ponthieu, Nicolas, Tristram, Matthieu, Borrill, Julian, Cantalupo, Christopher, Kisner, Ted, Aubin, Francois, Dobbs, Matt, MacDermid, Kevin, Hilton, Gene, Hubmayr, Johhannes, Irwin, Kent, Reintsema, Carl, Baccigalupi, Carlo, Leach, Sam, Johnson, Bradley, Lee, Adrian, Tran, Huan, and Levinson, Lorne

Subjects

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

Abstract

We describe the cryostat and supporting electronics for the EBEX experiment. EBEX is a balloon-borne polarimeter designed to measure the B-mode polarization of the cosmic microwave background radiation. The instrument includes a 1.5 meter Gregorian-type telescope and 1432 bolometric transition edge sensor detectors operating at 0.3 K. Electronics for monitoring temperatures and controlling cryostat refrigerators is read out over CANbus. A timing system ensures the data from all subsystems is accurately synchronized. EBEX completed an engineering test flight in June 2009 during which the cryogenics and supporting electronics performed according to predictions. The temperatures of the cryostat were stable, and an analysis of a subset of the data finds no scan synchronous signal in the cryostat temperatures. Preparations are underway for an Antarctic flight., Comment: 11 pages, 6 figures, Proceedings of the 12th Marcel Grossman Conference

Published

2010

18. High-resolution observations and modeling of turbulence sources, structures, and intensities in the upper mesosphere

Author

Fritts, David C., Wang, Ling, Baumgarten, Gerd, Miller, Amber D., Geller, Marvin A., Jones, Glenn, Limon, Michele, Chapman, Daniel, Didier, Joy, Kjellstrand, Carl B., Araujo, Derek, Hillbrand, Seth, Korotkov, Andrei, Tucker, Gregory, and Vinokurov, Jerry

Published

2017

19. BFORE: The B-mode Foreground Experiment

Author

Niemack, Michael D., Ade, Peter, de Bernardis, Francesco, Boulanger, Francois, Bryan, Sean, Devlin, Mark, Dunkley, Joanna, Eales, Steve, Gomez, Haley, Groppi, Chris, Henderson, Shawn, Hillbrand, Seth, Hubmayr, Johannes, Mauskopf, Philip, McMahon, Jeff, Miville-Deschênes, Marc-Antoine, Pascale, Enzo, Pisano, Giampaolo, Novak, Giles, Scott, Douglas, Soler, Juan, and Tucker, Carole

Published

2016

20. Search for dark photon dark matter: Dark E field radio pilot experiment

Author

Godfrey, Benjamin, primary, Tyson, J. Anthony, additional, Hillbrand, Seth, additional, Balajthy, Jon, additional, Polin, Daniel, additional, Tripathi, S. Mani, additional, Klomp, Shelby, additional, Levine, Joseph, additional, MacFadden, Nate, additional, Kolner, Brian H., additional, Smith, Molly R., additional, Stucky, Paul, additional, Phipps, Arran, additional, Graham, Peter, additional, and Irwin, Kent, additional

Published

2021

21. Intensity-coupled Polarization in Instruments with a Continuously Rotating Half-wave Plate

Author

Didier, Joy, primary, Miller, Amber D., additional, Araujo, Derek, additional, Aubin, François, additional, Geach, Christopher, additional, Johnson, Bradley, additional, Korotkov, Andrei, additional, Raach, Kate, additional, Westbrook, Benjamin, additional, Young, Karl, additional, Aboobaker, Asad M., additional, Ade, Peter, additional, Baccigalupi, Carlo, additional, Bao, Chaoyun, additional, Chapman, Daniel, additional, Dobbs, Matt, additional, Grainger, Will, additional, Hanany, Shaul, additional, Helson, Kyle, additional, Hillbrand, Seth, additional, Hubmayr, Johannes, additional, Jaffe, Andrew, additional, Jones, Terry J., additional, Klein, Jeff, additional, Lee, Adrian, additional, Limon, Michele, additional, MacDermid, Kevin, additional, Milligan, Michael, additional, Pascale, Enzo, additional, Reichborn-Kjennerud, Britt, additional, Sagiv, Ilan, additional, Tucker, Carole, additional, Tucker, Gregory S., additional, and Zilic, Kyle, additional

Published

2019

22. Temperature calibration of the E and B Experiment

Author

Aubin, François, primary, Aboobaker, Asad M., additional, Bao, Chaoyun, additional, Geach, Christopher, additional, Hanany, Shaul, additional, Jones, Terry, additional, Klein, Jeff, additional, Milligan, Michael, additional, Raach, Kate, additional, Young, Karl, additional, Zilic, Kyle, additional, Helson, Kyle, additional, Korotkov, Andrei, additional, Marchenko, Valerie, additional, Tucker, Gregory S., additional, Ade, Peter, additional, Pascale, Enzo, additional, Araujo, Derek, additional, Chapman, Daniel, additional, Didier, Joy, additional, Hillbrand, Seth, additional, Johnson, Bradley, additional, Limon, Michele, additional, Miller, Amber D., additional, Reichborn-Kjennerud, Britt, additional, Feeney, Stephen, additional, Jaffe, Andrew, additional, Stompor, Radek, additional, Tristram, Matthieu, additional, Dobbs, Matt, additional, Macdermid, Kevin, additional, Smecher, Graeme, additional, Borrill, Julian, additional, Kisner, Theodore, additional, Hilton, Gene, additional, Hubmayr, Johannes, additional, Reintsema, Carl, additional, Baccigalupi, Carlo, additional, Puglisi, Giuseppe, additional, Lee, Adrian, additional, Westbrook, Ben, additional, Levinson, Lorne, additional, and Sagiv, Ilan, additional

Published

2017

23. Star-dot-star

Author

Marroquin, S. Emilio, Franklin, Annie, Trudeau, George H., and Hillbrand, Seth

Published

1993

24. EBEX, the E and B experiment

Author

Didier, Joy, Aboobaker, Asad M., Ade, Peter, Aubin, François, Baccigalupi, Carlo, Bandura, Kevin, Bao, Chaoyun, Borrill, Julian, Chandra, Bikramjit, Chapman, Daniel, Dobbs, Matt, Grain, Julien, Grainger, Will, Hanany, Shaul, Kyle Helson, Hillbrand, Seth, Hilton, Gene, Hubmayr, Hannes, Irwin, Kent, Johnson, Bradley, Jaffe, Andrew, Jones, Terry, Kisner, Ted, Klein, Jeff, Koritkov, Andrei, Lee, Adrian, Levinson, Lorne, Limon, Michele, Macdermid, Kevin, Miller, Amber, Milligan, Michael, Pascale, Enzo, Puglisi, Giuseppe, Raach, Kate, Reichborn-Kjennerud, Britt, Reintsema, Carl, Sagiv, Ilan, Smecher, Graeme, Stompor, Radek, Tristram, Matthieu, Tucker, Greg, Westbrook, Ben, Zilic, Kyle, Columbia University [New York], 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), AstroParticule et Cosmologie (APC (UMR_7164)), 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), Laboratoire de l'Accélérateur Linéaire (LAL), Université Paris-Sud - Paris 11 (UP11)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), E. Augé, J. Dumarchez, J. Trân Thanh Vân, EBEX, 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), 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)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS), Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), and Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Sud - Paris 11 (UP11)

Subjects

[PHYS.ASTR.CO]Physics [physics]/Astrophysics [astro-ph]/Cosmology and Extra-Galactic Astrophysics [astro-ph.CO], [SDU.ASTR.CO]Sciences of the Universe [physics]/Astrophysics [astro-ph]/Cosmology and Extra-Galactic Astrophysics [astro-ph.CO], Settore FIS/05

Abstract

International audience; The E and B experiment (EBEX) is a balloon-borne telescope designed to measure the polar-ization of the cosmic microwave background radiation as well as that from Galactic dust. Theinstrument is equipped with a 1.5 meter aperture Gregorian-Dragone telescope, providing an8' beam at three frequency bands centered on 150, 250 and 410 GHz. Polarimetry is achievedby rotating an achromatic half-wave plate on a superconducting magnetic bearing. In January2013, EBEX completed 11 days of observations in a ight over Antarctica covering 6000 squaredegrees of the sky. This marks the rst time that arrays with about 1000 transition-edge sensorbolometers have made science observations on a balloon-borne platform. These proceedingsdescribe the EBEX instrument, the science ight and the status of the data analysis.1 I

Published

2014

25. The E and B EXperiment: A balloon-borne cosmic microwave background anisotropy probe

Author

Hillbrand, Seth Nathaniel

Subjects

Physics

Abstract

The E and B Experiment (EBEX), is a balloon-borne sub-orbital cosmic microwave background polarimeter, designed to measure polarization levels in the microwave spectrum. EBEX recently completed an 11-day Antarctic long duration balloon (LDB) science flight in January, 2013. ~1000 transition edge sensor bolometric detectors in three frequency bands centered at 150, 250 and 410 GHz sampled a large segment of the southern sky. Over 1.5TB of data were collected during the LDB flight. In this thesis, we describe the design and performance of the EBEX software components monitoring and controlling the system during the flight, including automation, telemetry, data storage and readout array management. We also describe the design and development of a novel attitude reconstruction system for a balloon-borne pointed observation platform based on a daytime star camera and 3-axis gyroscopes. The data gathered during the LDB flight are analyzed and the results presented showing attitude reconstruction error at less than 20" RMS for an 80 second interval.

Published

2014

26. Instrumental performance and results from testing of the BLAST-TNG receiver, submillimeter optics, and MKID detector arrays

Author

Galitzki, Nicholas, additional, Ade, Peter, additional, Angilè, Francesco E., additional, Ashton, Peter, additional, Austermann, Jason, additional, Billings, Tashalee, additional, Che, George, additional, Cho, Hsiao-Mei, additional, Davis, Kristina, additional, Devlin, Mark, additional, Dicker, Simon, additional, Dober, Bradley J., additional, Fissel, Laura M., additional, Fukui, Yasuo, additional, Gao, Jiansong, additional, Gordon, Samuel, additional, Groppi, Christopher E., additional, Hillbrand, Seth, additional, Hilton, Gene C., additional, Hubmayr, Johannes, additional, Irwin, Kent D., additional, Klein, Jeffrey, additional, Li, Dale, additional, Li, Zhi-Yun, additional, Lourie, Nathan P., additional, Lowe, Ian, additional, Mani, Hamdi, additional, Martin, Peter G., additional, Mauskopf, Philip, additional, McKenney, Christopher, additional, Nati, Federico, additional, Novak, Giles, additional, Pascale, Enzo, additional, Pisano, Giampaolo, additional, Santos, Fabio P., additional, Scott, Douglas, additional, Sinclair, Adrian, additional, Soler, Juan D., additional, Tucker, Carole, additional, Underhill, Matthew, additional, Vissers, Michael, additional, and Williams, Paul, additional

Published

2016

27. BFORE: The B-mode Foreground Experiment

Author

Niemack, Michael D., primary, Ade, Peter, additional, de Bernardis, Francesco, additional, Boulanger, Francois, additional, Bryan, Sean, additional, Devlin, Mark, additional, Dunkley, Joanna, additional, Eales, Steve, additional, Gomez, Haley, additional, Groppi, Chris, additional, Henderson, Shawn, additional, Hillbrand, Seth, additional, Hubmayr, Johannes, additional, Mauskopf, Philip, additional, McMahon, Jeff, additional, Miville-Deschênes, Marc-Antoine, additional, Pascale, Enzo, additional, Pisano, Giampaolo, additional, Novak, Giles, additional, Scott, Douglas, additional, Soler, Juan, additional, and Tucker, Carole, additional

Published

2015

28. Star camera system and new software for autonomous and robust operation in long duration flights

Author

Chapman, Daniel, primary, Aboobaker, Asad M., additional, Araujo, Derek, additional, Didier, Joy, additional, Grainger, Will, additional, Hanany, Shaul, additional, Hillbrand, Seth, additional, Limon, Michele, additional, Miller, Amber, additional, Reichborn-Kjennerud, Britt, additional, Sagiv, Ilan, additional, Tucker, Greg, additional, and Vinokurov, Yury, additional

Published

2015

29. A high-resolution pointing system for fast scanning platforms: The EBEX example

Author

Didier, Joy, primary, Chapman, Daniel, additional, Aboobaker, Asad M., additional, Araujo, Derek, additional, Grainger, Will, additional, Hanany, Shaul, additional, Helson, Kyle, additional, Hillbrand, Seth, additional, Korotkov, Andrei, additional, Limon, Michele, additional, Miller, Amber, additional, Reichborn-Kjennerud, Britt, additional, Sagiv, Ilan, additional, Tucker, Greg, additional, and Vinokurov, Yuri, additional

Published

2015

30. The next-generation BLASTPol experiment

Author

Holland, Wayne S., Zmuidzinas, Jonas, Dober, Bradley J., Ade, Peter A. R., Ashton, Peter, Angilè, Francesco E., Beall, James A., Becker, Dan, Bradford, Kristi J., Che, George, Cho, Hsiao-Mei, Devlin, Mark J., Fissel, Laura M., Fukui, Yasuo, Galitzki, Nicholas, Gao, Jiansong, Groppi, Christopher E., Hillbrand, Seth, Hilton, Gene C., Hubmayr, Johannes, Irwin, Kent D., Klein, Jeffrey, Van Lanen, Jeff, Li, Dale, Li, Zhi-Yun, Lourie, Nathan P., Mani, Hamdi, Martin, Peter G., Mauskopf, Philip, Nakamura, Fumitaka, Novak, Giles, Pappas, David P., Pascale, Enzo, Santos, Fabio P., Savini, Giorgio, Scott, Douglas, Stanchfield, Sara, Ullom, Joel N., Underhill, Matthew, Vissers, Michael R., Ward-Thompson, Derek, Holland, Wayne S., Zmuidzinas, Jonas, Dober, Bradley J., Ade, Peter A. R., Ashton, Peter, Angilè, Francesco E., Beall, James A., Becker, Dan, Bradford, Kristi J., Che, George, Cho, Hsiao-Mei, Devlin, Mark J., Fissel, Laura M., Fukui, Yasuo, Galitzki, Nicholas, Gao, Jiansong, Groppi, Christopher E., Hillbrand, Seth, Hilton, Gene C., Hubmayr, Johannes, Irwin, Kent D., Klein, Jeffrey, Van Lanen, Jeff, Li, Dale, Li, Zhi-Yun, Lourie, Nathan P., Mani, Hamdi, Martin, Peter G., Mauskopf, Philip, Nakamura, Fumitaka, Novak, Giles, Pappas, David P., Pascale, Enzo, Santos, Fabio P., Savini, Giorgio, Scott, Douglas, Stanchfield, Sara, Ullom, Joel N., Underhill, Matthew, Vissers, Michael R., and Ward-Thompson, Derek

Abstract

The Balloon-borne Large Aperture Submillimeter Telescope for Polarimetry (BLASTPol) is a suborbital mapping experiment designed to study the role magnetic fields play in star formation. BLASTPol has had two science flights from McMurdo Station, Antarctica in 2010 and 2012. These flights have produced thousands of polarization vectors at 250, 350 and 500 microns in several molecular cloud targets. We present the design, specifications, and progress towards the next-generation BLASTPol experiment (BLAST-TNG). BLAST-TNG will fly a 40% larger diameter primary mirror, with almost 8 times the number of polarization-sensitive detectors resulting in a factor of 16 increase in mapping speed. With a spatial resolution of 2200 and four times the field of view (340 arcmin2) of BLASTPol, BLAST-TNG will bridge the angular scales between Planck's all-sky maps with 50 resolution and ALMA's ultra-high resolution narrow (~ 2000) fields. The new receiver has a larger cryogenics volume, allowing for a 28 day hold time. BLAST-TNG employs three arrays of Microwave Kinetic Inductance Detectors (MKIDs) with 30% fractional bandwidth at 250, 350 and 500 microns. In this paper, we will present the new BLAST-TNG instrument and science objectives.

Published

2014

31. The Next Generation BLAST Experiment

Author

Galitzki, Nicholas, primary, Ade, Peter A. R., additional, Angilè, Francesco E., additional, Ashton, Peter, additional, Beall, James A., additional, Becker, Dan, additional, Bradford, Kristi J., additional, Che, George, additional, Cho, Hsiao-Mei, additional, Devlin, Mark J., additional, Dober, Bradley J., additional, Fissel, Laura M., additional, Fukui, Yasuo, additional, Gao, Jiansong, additional, Groppi, Christopher E., additional, Hillbrand, Seth, additional, Hilton, Gene C., additional, Hubmayr, Johannes, additional, Irwin, Kent D., additional, Klein, Jeffrey, additional, Van Lanen, Jeff, additional, Li, Dale, additional, Li, Zhi-Yun, additional, Lourie, Nathan P., additional, Mani, Hamdi, additional, Martin, Peter G., additional, Mauskopf, Philip, additional, Nakamura, Fumitaka, additional, Novak, Giles, additional, Pappas, David P., additional, Pascale, Enzo, additional, Pisano, Giampaolo, additional, Santos, Fabio P., additional, Savini, Giorgio, additional, Scott, Douglas, additional, Stanchfield, Sara, additional, Tucker, Carole, additional, Ullom, Joel N., additional, Underhill, Matthew, additional, Vissers, Michael R., additional, and Ward-Thompson, Derek, additional

Published

2014

32. A LEKID-based CMB instrument design for large-scale observations in Greenland

Author

Araujo, D. C., additional, Ade, P. A. R., additional, Bond, J. R., additional, Bradford, K. J., additional, Chapman, D., additional, Che, G., additional, Day, P. K., additional, Didier, J., additional, Doyle, S., additional, Eriksen, H. K., additional, Flanigan, D., additional, Groppi, C. E., additional, Hillbrand, Seth N., additional, Johnson, B. R., additional, Jones, G., additional, Limon, Michele, additional, Miller, A. D., additional, Mauskopf, P., additional, McCarrick, H., additional, Mroczkowski, T., additional, Reichborn-Kjennerud, B., additional, Smiley, B., additional, Sobrin, Joshua, additional, Wehus, I. K., additional, and Zmuidzinas, J., additional

Published

2014

33. The next-generation BLASTPol experiment

Author

Dober, Bradley J., additional, Ade, Peter A. R., additional, Ashton, Peter, additional, Angilè, Francesco E., additional, Beall, James A., additional, Becker, Dan, additional, Bradford, Kristi J., additional, Che, George, additional, Cho, Hsiao-Mei, additional, Devlin, Mark J., additional, Fissel, Laura M., additional, Fukui, Yasuo, additional, Galitzki, Nicholas, additional, Gao, Jiansong, additional, Groppi, Christopher E., additional, Hillbrand, Seth, additional, Hilton, Gene C., additional, Hubmayr, Johannes, additional, Irwin, Kent D., additional, Klein, Jeffrey, additional, Van Lanen, Jeff, additional, Li, Dale, additional, Li, Zhi-Yun, additional, Lourie, Nathan P., additional, Mani, Hamdi, additional, Martin, Peter G., additional, Mauskopf, Philip, additional, Nakamura, Fumitaka, additional, Novak, Giles, additional, Pappas, David P., additional, Pascale, Enzo, additional, Santos, Fabio P., additional, Savini, Giorgio, additional, Scott, Douglas, additional, Stanchfield, Sara, additional, Ullom, Joel N., additional, Underhill, Matthew, additional, Vissers, Michael R., additional, and Ward-Thompson, Derek, additional

Published

2014

34. The performance of the bolometer array and readout system during the 2012/2013 flight of the E and B experiment (EBEX)

Author

MacDermid, Kevin, additional, Aboobaker, Asad M., additional, Ade, Peter, additional, Aubin, François, additional, Baccigalupi, Carlo, additional, Bandura, Kevin, additional, Bao, Chaoyun, additional, Borrill, Julian, additional, Chapman, Daniel, additional, Didier, Joy, additional, Dobbs, Matt, additional, Grain, Julien, additional, Grainger, William, additional, Hanany, Shaul, additional, Helson, Kyle, additional, Hillbrand, Seth, additional, Hilton, Gene, additional, Hubmayr, Hannes, additional, Irwin, Kent, additional, Johnson, Bradley, additional, Jaffe, Andrew, additional, Jones, Terry, additional, Kisner, Ted, additional, Klein, Jeff, additional, Korotkov, Andrei, additional, Lee, Adrian, additional, Levinson, Lorne, additional, Limon, Michele, additional, Miller, Amber, additional, Milligan, Michael, additional, Pascale, Enzo, additional, Raach, Katherine, additional, Reichborn-Kjennerud, Britt, additional, Reintsema, Carl, additional, Sagiv, Ilan, additional, Smecher, Graeme, additional, Stompor, Radek, additional, Tristram, Matthieu, additional, Tucker, Greg, additional, Westbrook, Ben, additional, and Zilic, Kyle, additional

Published

2014

35. STARS: a software application for the EBEX autonomous daytime star cameras

Author

Chapman, Daniel, additional, Didier, Joy, additional, Hanany, Shaul, additional, Hillbrand, Seth, additional, Limon, Michele, additional, Miller, Amber, additional, Reichborn-Kjennerud, Britt, additional, Tucker, Greg, additional, and Vinokurov, Yury, additional

Published

2014

36. THE EBEX CRYOSTAT AND SUPPORTING ELECTRONICS

Author

SAGIV, ILAN, primary, ABOOBAKER, ASAD M., additional, BAO, CHAOYUN, additional, HANANY, SHAUL, additional, JONES, TERRY, additional, KLEIN, JEFFREY, additional, MILLIGAN, MICHAEL, additional, POLSGROVE, DANIEL E., additional, RAACH, KATE, additional, ZILIC, KYLE, additional, KOROTKOV, ANDREI, additional, TUCKER, GREGORY S., additional, VINOKUROV, YURY, additional, MATSUMURA, TOMOTAKE, additional, ADE, PETER, additional, GRAINGER, WILL, additional, PASCALE, ENZO, additional, CHAPMAN, DANIEL, additional, DIDIER, JOY, additional, HILLBRAND, SETH, additional, REICHBORN-KJENNERUD, BRITT, additional, LIMON, MICHELE, additional, MILLER, AMBER, additional, JAFFE, ANDREW, additional, YADAV, AMIT, additional, ZALDARRIAGA, MATIAS, additional, PONTHIEU, NICOLAS, additional, TRISTRAM, MATTHIEU, additional, BORRILL, JULIAN, additional, CANTALUPO, CHRISTOPHER, additional, KISNER, TED, additional, AUBIN, FRANÇOIS, additional, DOBBS, MATT, additional, MACDERMID, KEVIN, additional, HILTON, GENE, additional, HUBMAYR, JOHANNES, additional, IRWIN, KENT, additional, REINTSEMA, CARL, additional, BACCIGALUPI, CARLO, additional, LEACH, SAM, additional, JOHNSON, BRADLEY, additional, LEE, ADRIAN, additional, TRAN, HUAN, additional, and LEVINSON, LORNE, additional

Published

2012

37. A cryogenic half-wave plate polarimeter using a superconducting magnetic bearing

Author

Klein, Jeff, primary, Aboobaker, Asad, additional, Ade, Peter, additional, Aubin, François, additional, Baccigalupi, Carlo, additional, Bao, Chaoyun, additional, Borrill, Julian, additional, Chapman, Daniel, additional, Didier, Joy, additional, Dobbs, Matt, additional, Gold, Benjamin, additional, Grainger, Will, additional, Hanany, Shaul, additional, Hubmayr, Johannes, additional, Hillbrand, Seth, additional, Grain, Julien, additional, Jaffe, Andrew, additional, Johnson, Bradley, additional, Jones, Terry, additional, Kisner, Theodore, additional, Korotkov, Andrei, additional, Leach, Sam, additional, Lee, Adrian, additional, Levinson, Lorne, additional, Limon, Michele, additional, MacDermid, Kevin, additional, Matsumura, Tomotake, additional, Miller, Amber, additional, Milligan, Michael, additional, Pascale, Enzo, additional, Polsgrove, Daniel, additional, Ponthieu, Nicolas, additional, Raach, Kate, additional, Reichborn-Kjennerud, Britt, additional, Sagiv, Ilan, additional, Stompor, Radek, additional, Tran, Huan, additional, Tristram, Matthieu, additional, Tucker, Gregory S., additional, Yadav, Amit, additional, Zaldarriaga, Matias, additional, and Zilic, Kyle, additional

Published

2011

38. First implementation of TES bolometer arrays with SQUID-based multiplexed readout on a balloon-borne platform

Author

Aubin, François, primary, Aboobaker, Asad M., additional, Ade, Peter, additional, Baccigalupi, Carlo, additional, Bao, Chaoyun, additional, Borrill, Julian, additional, Cantalupo, Christopher, additional, Chapman, Daniel, additional, Didier, Joy, additional, Dobbs, Matt, additional, Grainger, Will, additional, Hanany, Shaul, additional, Hubmayr, Johannes, additional, Hyland, Peter, additional, Hillbrand, Seth, additional, Jaffe, Andrew, additional, Johnson, Bradley, additional, Jones, Terry, additional, Kisner, Theodore, additional, Klein, Jeff, additional, Korotkov, Andrei, additional, Leach, Sam, additional, Lee, Adrian, additional, Limon, Michele, additional, MacDermid, Kevin, additional, Matsumura, Tomotake, additional, Meng, Xiaofan, additional, Miller, Amber, additional, Milligan, Michael, additional, Polsgrove, Daniel, additional, Ponthieu, Nicolas, additional, Raach, Kate, additional, Reichborn-Kjennerud, Britt, additional, Sagiv, Ilan, additional, Smecher, Graeme, additional, Tran, Huan, additional, Tucker, Gregory S., additional, Vinokurov, Yury, additional, Yadav, Amit, additional, Zaldarriaga, Matias, additional, and Zilic, Kyle, additional

Published

2010

39. Software systems for operation, control, and monitoring of the EBEX instrument

Author

Milligan, Michael, primary, Ade, Peter, additional, Aubin, François, additional, Baccigalupi, Carlo, additional, Bao, Chaoyun, additional, Borrill, Julian, additional, Cantalupo, Christopher, additional, Chapman, Daniel, additional, Didier, Joy, additional, Dobbs, Matt, additional, Grainger, Will, additional, Hanany, Shaul, additional, Hillbrand, Seth, additional, Hubmayr, Johannes, additional, Hyland, Peter, additional, Jaffe, Andrew, additional, Johnson, Bradley, additional, Kisner, Theodore, additional, Klein, Jeff, additional, Korotkov, Andrei, additional, Leach, Sam, additional, Lee, Adrian, additional, Levinson, Lorne, additional, Limon, Michele, additional, MacDermid, Kevin, additional, Matsumura, Tomotake, additional, Miller, Amber, additional, Pascale, Enzo, additional, Polsgrove, Daniel, additional, Ponthieu, Nicolas, additional, Raach, Kate, additional, Reichborn-Kjennerud, Britt, additional, Sagiv, Ilan, additional, Tran, Huan, additional, Tucker, Gregory S., additional, Vinokurov, Yury, additional, Yadav, Amit, additional, Zaldarriaga, Matias, additional, and Zilic, Kyle, additional

Published

2010

40. EBEX: a balloon-borne CMB polarization experiment

Author

Reichborn-Kjennerud, Britt, primary, Aboobaker, Asad M., additional, Ade, Peter, additional, Aubin, François, additional, Baccigalupi, Carlo, additional, Bao, Chaoyun, additional, Borrill, Julian, additional, Cantalupo, Christopher, additional, Chapman, Daniel, additional, Didier, Joy, additional, Dobbs, Matt, additional, Grain, Julien, additional, Grainger, William, additional, Hanany, Shaul, additional, Hillbrand, Seth, additional, Hubmayr, Johannes, additional, Jaffe, Andrew, additional, Johnson, Bradley, additional, Jones, Terry, additional, Kisner, Theodore, additional, Klein, Jeff, additional, Korotkov, Andrei, additional, Leach, Sam, additional, Lee, Adrian, additional, Levinson, Lorne, additional, Limon, Michele, additional, MacDermid, Kevin, additional, Matsumura, Tomotake, additional, Meng, Xiaofan, additional, Miller, Amber, additional, Milligan, Michael, additional, Pascale, Enzo, additional, Polsgrove, Daniel, additional, Ponthieu, Nicolas, additional, Raach, Kate, additional, Sagiv, Ilan, additional, Smecher, Graeme, additional, Stivoli, Federico, additional, Stompor, Radek, additional, Tran, Huan, additional, Tristram, Matthieu, additional, Tucker, Gregory S., additional, Vinokurov, Yury, additional, Yadav, Amit, additional, Zaldarriaga, Matias, additional, and Zilic, Kyle, additional

Published

2010

41. Instrumental performance and results from testing of the BLAST-TNG receiver, submillimeter optics, and MKID detector arrays

Author

Holland, Wayne S., Zmuidzinas, Jonas, Galitzki, Nicholas, Ade, Peter, Angilè, Francesco E., Ashton, Peter, Austermann, Jason, Billings, Tashalee, Che, George, Cho, Hsiao-Mei, Davis, Kristina, Devlin, Mark, Dicker, Simon, Dober, Bradley J., Fissel, Laura M., Fukui, Yasuo, Gao, Jiansong, Gordon, Samuel, Groppi, Christopher E., Hillbrand, Seth, Hilton, Gene C., Hubmayr, Johannes, Irwin, Kent D., Klein, Jeffrey, Li, Dale, Li, Zhi-Yun, Lourie, Nathan P., Lowe, Ian, Mani, Hamdi, Martin, Peter G., Mauskopf, Philip, McKenney, Christopher, Nati, Federico, Novak, Giles, Pascale, Enzo, Pisano, Giampaolo, Santos, Fabio P., Scott, Douglas, Sinclair, Adrian, Soler, Juan D., Tucker, Carole, Underhill, Matthew, Vissers, Michael, and Williams, Paul

Published

2016

42. A LEKID-based CMB instrument design for large-scale observations in Greenland

Author

Holland, Wayne S., Zmuidzinas, Jonas, Araujo, D. C., Ade, P. A. R., Bond, J. R., Bradford, K. J., Chapman, D., Che, G., Day, P. K., Didier, J., Doyle, S., Eriksen, H. K., Flanigan, D., Groppi, C. E., Hillbrand, Seth N., Johnson, B. R., Jones, G., Limon, Michele, Miller, A. D., Mauskopf, P., McCarrick, H., Mroczkowski, T., Reichborn-Kjennerud, B., Smiley, B., Sobrin, Joshua, Wehus, I. K., and Zmuidzinas, J.

Published

2014

43. BLAST-TNG: A Next Generation Balloon-borne Large Aperture Submillimeter Polarimeter

Author

Fissel, Laura M., Ade, Peter, Angilè, Francesco E., Campbell Ashton, Peter, Austermann, Jason Edward, Billings, Tashalee, Che, George, Cho, Hsiao-Mei, Cunningham, Maria R., Davis, Kristina, Devlin, Mark J., Dicker, Simon, Dober, Bradley, Fukui, Yasuo, Galitzki, Nicholas, Gao, Jiansong, Gordon, Sam, Groppi, Christopher E., Hillbrand, Seth, Hilton, Gene, Hubmayr, Hannes, Irwin, Kent, Jones, Paul, Klein, Jeffrey, Li, Dale, Li, Zhi-Yun, Lourie, Nathan, Lowe, Ian, Mani, Hamdi, Martin, Peter G., Mauskopf, Philip, Mckenney, Christopher, Nati, Federico, Novak, Giles, Pascale, Enzo, Pisano, Giampaolo, Pereira Santos, Fábio, Scott, Douglas, Sinclair, Adrian, Diego Diego Soler, Juan, Carole Tucker, Underhill, Matthew, Vissers, Michael, and Williams, Paul

44. The EBEX Balloon-Borne Experiment - Gondola, Attitude Control, and Control Software

Author

Ebex, The Collaboration, Aboobaker, Asad, Peter Ade, Araujo, Derek, Aubin, François, Baccigalupi, Carlo, Bao, Chaoyun, Chapman, Daniel, Didier, Joy, Dobbs, Matt, Grainger, Will, Hanany, Shaul, Helson, Kyle, Hillbrand, Seth, Hubmayr, Johannes, Jaffe, Andrew, Johnson, Bradley, Jones, Terry, Klein, Jeff, Korotkov, Andrei, Lee, Adrian, Levinson, Lorne, Limon, Michele, Macdermid, Kevin, Miller, Amber D., Milligan, Michael, Moncelsi, Lorenzo, Pascale, Enzo, Raach, Kate, Reichborn-Kjennerud, Britt, Sagiv, Ilan, Tucker, Carole, Tucker, Gregory S., Westbrook, Benjamin, Young, Karl, and Zilic, Kyle

Subjects

Cosmology and Nongalactic Astrophysics (astro-ph.CO), Physics::Instrumentation and Detectors, Computer science, Cosmic microwave background, FOS: Physical sciences, cosmic background radiation, Radiation, 01 natural sciences, law.invention, Attitude control, Electric power system, Settore FIS/05 - Astronomia e Astrofisica, The E and B Experiment, law, 0103 physical sciences, 010306 general physics, Instrumentation and Methods for Astrophysics (astro-ph.IM), 010303 astronomy & astrophysics, polarization, business.industry, Payload, Detector, Bolometer, Astrophysics::Instrumentation and Methods for Astrophysics, Electrical engineering, instrumentation: polarimeters, Astronomy and Astrophysics, Polarization (waves), 13. Climate action, Space and Planetary Science, balloons, cosmology: observations, Transition edge sensor, Astrophysics - Instrumentation and Methods for Astrophysics, business, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

The E and B Experiment (EBEX) was a long-duration balloon-borne instrument designed to measure the polarization of the cosmic microwave background (CMB) radiation. EBEX was the first balloon-borne instrument to implement a kilo-pixel array of transition edge sensor (TES) bolometric detectors and the first CMB experiment to use the digital version of the frequency domain multiplexing system for readout of the TES array. The scan strategy relied on 40 s peak-to-peak constant velocity azimuthal scans. We discuss the unique demands on the design and operation of the payload that resulted from these new technologies and the scan strategy. We describe the solutions implemented including the development of a power system designed to provide a total of at least 2.3 kW, a cooling system to dissipate 590 W consumed by the detectors' readout system, software to manage and handle the data of the kilo-pixel array, and specialized attitude reconstruction software. We present flight performance data showing faultless management of the TES array, adequate powering and cooling of the readout electronics, and constraint of attitude reconstruction errors such that the spurious B-modes they induced were less than 10% of CMB B-mode power spectrum with $r=0.05$., 37 pages, 16 figures, accepted for publication in ApJ Supp

45. Intensity-Coupled-Polarization in Instruments with a Continuously Rotating Half-Wave Plate

Author

Didier, Joy, Miller, Amber D., Araujo, Derek, Aubin, François, Geach, Christopher, Johnson, Bradley, Korotkov, Andrei, Raach, Kate, Westbrook, Benjamin, Young, Karl, Aboobaker, Asad M., Ade, Peter, Baccigalupi, Carlo, Bao, Chaoyun, Chapman, Daniel, Dobbs, Matt, Grainger, Will, Hanany, Shaul, Helson, Kyle, Hillbrand, Seth, Hubmayr, Johannes, Jaffe, Andrew, Jones, Terry, Klein, Jeff, Lee, Adrian, Levinson, Lorne, Limon, Michele, Macdermid, Kevin, Milligan, Michael, Moncelsi, Lorenzo, Pascale, Enzo, Reichborn-Kjennerud, Britt, Sagiv, Ilan, Carole Tucker, Tucker, Gregory S., and Zilic, Kyle

46. Submillimeter Dust Polarimetry with the BLAST-TNG Telescope

Author

Galitzki, Nicholas, Ade, Peter, Angilè, Francesco E., Ashton, Peter, Beall, James Howard, Becker, Dan, Bradford, Kristi J., Che, George, Cho, Hsiao-Mei, Devlin, Mark J., Dober, Bradley, Fissel, Laura M., Fukui, Yasuo, Gao, Jiansong, Groppi, Christopher E., Hillbrand, Seth N., Hilton, Gene, Irwin, Kent, Klein, Jeffrey, Lanen, Jeffrey, Li, Dale, Li, Zhi-Yun, Lourie, Nathan, Mani, Hamdi, Martin, Peter G., Mauskopf, Philip, Nakamura, Fumitaka, Novak, Giles, Pappas, David P., Pascale, Enzo, Pisano, Giampaolo, Santos, Fabio P., Giorgio Savini, Scott, Douglas, Stanchfield, Sara, Tucker, Carole, Ullom, Joel, Underhill, Matthew, Vissers, Michael, Ward-Thompson, Derek, Hubmayr, Hannes, and Doyle, Simon

47. Submillimeter dust polarimetry with the BLAST-TNG telescope

Author

Gailtzki, Nicholas, Ade, Peter, Angile, Francesco E., Ashton, Peter, Beall, James Howard, Becker, Dan, Bradford, Kristi J., Che, George, Cho, Hsiao-Mei, Devlin, Mark J., Dober, Bradley, Fissel, Laura M., Fukui, Yasuo, Gao, Jiansong, Groppi, Christopher E., Hillbrand, Seth N., Hilton, Gene, Irwin, Kent, Klein, Jeffrey, Van Lanen, Jeffrey, Li, Dale, Li, Zhi-Yun, Lourie, Nathan, Mani, Hamdi, Martin, Peter G., Mauskopf, Philip, Nakamura, Fumitaka, Novak, Giles, Pappas, David P., Pascale, Enzo, Pisano, Giampaolo, Santos, Fabio P., Savini, Giorgio, Scott, Douglas, Stanchfield, Sara, Tucker, Carole, Ullom, Joel, Underhill, Matthew, Vissers, Michael, Ward-Thompson, Derek, Hubmayr, Hannes, Doyle, Simon, Gailtzki, Nicholas, Ade, Peter, Angile, Francesco E., Ashton, Peter, Beall, James Howard, Becker, Dan, Bradford, Kristi J., Che, George, Cho, Hsiao-Mei, Devlin, Mark J., Dober, Bradley, Fissel, Laura M., Fukui, Yasuo, Gao, Jiansong, Groppi, Christopher E., Hillbrand, Seth N., Hilton, Gene, Irwin, Kent, Klein, Jeffrey, Van Lanen, Jeffrey, Li, Dale, Li, Zhi-Yun, Lourie, Nathan, Mani, Hamdi, Martin, Peter G., Mauskopf, Philip, Nakamura, Fumitaka, Novak, Giles, Pappas, David P., Pascale, Enzo, Pisano, Giampaolo, Santos, Fabio P., Savini, Giorgio, Scott, Douglas, Stanchfield, Sara, Tucker, Carole, Ullom, Joel, Underhill, Matthew, Vissers, Michael, Ward-Thompson, Derek, Hubmayr, Hannes, and Doyle, Simon

Abstract

Polarized thermal emission from dust grains can be used to trace magnetic fields in molecular clouds and the ISM. The Balloon-borne Large Aperture Submillimeter Telescope for Polarimetry (BLASTPol) flew from Antarctica in 2010 and 2012 and has produced degree scale polarization maps of multiple nearby molecular clouds with arcminute resolution. The success of BLASTPol has motivated a next-generation instrument, BLAST-TNG, with additional resolution and sensitivity to fully understand the role magnetic fields play in the early stages of the star formation process. BLAST-TNG will use an array of ~1500 linear polarization sensitive pixels populated with Microwave Kinetic Inductance Detectors (MKIDs) combined with a 2.5 m diameter carbon fiber primary mirror to make diffraction limited observations at 250, 350, and 500 microns. With 16 times the mapping speed of BLASTPol, sub-arcminute resolution, and a longer flight time, BLAST-TNG will be able to examine nearby molecular clouds and the diffuse galactic dust polarization spectrum in unprecedented detail. Additionally, the instrument will be in a unique position to link the all-sky, five arcminute resolution, dust polarization maps of Planck with the high resolution, but small area, polarization maps from ALMA allowing us to trace magnetic fields from protostellar cores out to the surrounding molecular clouds and ISM. BLAST-TNG is scheduled to fly from Antarctica in 2016 for 28 days and will be the first balloon-borne telescope to offer a quarter of the flight for "shared risk" observing by the community.

48. Submillimeter dust polarimetry with the BLAST-TNG telescope

Author

Gailtzki, Nicholas, Ade, Peter, Angile, Francesco E., Ashton, Peter, Beall, James Howard, Becker, Dan, Bradford, Kristi J., Che, George, Cho, Hsiao-Mei, Devlin, Mark J., Dober, Bradley, Fissel, Laura M., Fukui, Yasuo, Gao, Jiansong, Groppi, Christopher E., Hillbrand, Seth N., Hilton, Gene, Irwin, Kent, Klein, Jeffrey, Van Lanen, Jeffrey, Li, Dale, Li, Zhi-Yun, Lourie, Nathan, Mani, Hamdi, Martin, Peter G., Mauskopf, Philip, Nakamura, Fumitaka, Novak, Giles, Pappas, David P., Pascale, Enzo, Pisano, Giampaolo, Santos, Fabio P., Savini, Giorgio, Scott, Douglas, Stanchfield, Sara, Tucker, Carole, Ullom, Joel, Underhill, Matthew, Vissers, Michael, Ward-Thompson, Derek, Hubmayr, Hannes, Doyle, Simon, Gailtzki, Nicholas, Ade, Peter, Angile, Francesco E., Ashton, Peter, Beall, James Howard, Becker, Dan, Bradford, Kristi J., Che, George, Cho, Hsiao-Mei, Devlin, Mark J., Dober, Bradley, Fissel, Laura M., Fukui, Yasuo, Gao, Jiansong, Groppi, Christopher E., Hillbrand, Seth N., Hilton, Gene, Irwin, Kent, Klein, Jeffrey, Van Lanen, Jeffrey, Li, Dale, Li, Zhi-Yun, Lourie, Nathan, Mani, Hamdi, Martin, Peter G., Mauskopf, Philip, Nakamura, Fumitaka, Novak, Giles, Pappas, David P., Pascale, Enzo, Pisano, Giampaolo, Santos, Fabio P., Savini, Giorgio, Scott, Douglas, Stanchfield, Sara, Tucker, Carole, Ullom, Joel, Underhill, Matthew, Vissers, Michael, Ward-Thompson, Derek, Hubmayr, Hannes, and Doyle, Simon

Abstract

Polarized thermal emission from dust grains can be used to trace magnetic fields in molecular clouds and the ISM. The Balloon-borne Large Aperture Submillimeter Telescope for Polarimetry (BLASTPol) flew from Antarctica in 2010 and 2012 and has produced degree scale polarization maps of multiple nearby molecular clouds with arcminute resolution. The success of BLASTPol has motivated a next-generation instrument, BLAST-TNG, with additional resolution and sensitivity to fully understand the role magnetic fields play in the early stages of the star formation process. BLAST-TNG will use an array of ~1500 linear polarization sensitive pixels populated with Microwave Kinetic Inductance Detectors (MKIDs) combined with a 2.5 m diameter carbon fiber primary mirror to make diffraction limited observations at 250, 350, and 500 microns. With 16 times the mapping speed of BLASTPol, sub-arcminute resolution, and a longer flight time, BLAST-TNG will be able to examine nearby molecular clouds and the diffuse galactic dust polarization spectrum in unprecedented detail. Additionally, the instrument will be in a unique position to link the all-sky, five arcminute resolution, dust polarization maps of Planck with the high resolution, but small area, polarization maps from ALMA allowing us to trace magnetic fields from protostellar cores out to the surrounding molecular clouds and ISM. BLAST-TNG is scheduled to fly from Antarctica in 2016 for 28 days and will be the first balloon-borne telescope to offer a quarter of the flight for "shared risk" observing by the community.

49. The next-generation BLASTPol experiment

Author

Holland, Wayne S., Zmuidzinas, Jonas, Dober, Bradley J., Ade, Peter, Ashton, Peter, Angilè, Francesco E., Beall, James A., Becker, Dan, Bradford, Kristi J., Che, George, Cho, Hsiao-Mei, Devlin, Mark J., Fissel, Laura M., Fukui, Yasuo, Galitzki, Nicholas, Gao, Jiansong, Groppi, Christopher E., Hillbrand, Seth, Hilton, Gene C., Hubmayr, Johannes, Irwin, Kent D., Klein, Jeffrey, Van Lanen, Jeff, Li, Dale, Li, Zhi-Yun, Lourie, Nathan P., Mani, Hamdi, Martin, Peter G., Mauskopf, Philip Daniel, Nakamura, Fumitaka, Novak, Giles, Pappas, David P., Pascale, Enzo, Santos, Fabio P., Savini, Giorgio, Scott, Douglas, Stanchfield, Sara, Ullom, Joel N., Underhill, Matthew, Vissers, Michael R., Ward-Thompson, Derek, Holland, Wayne S., Zmuidzinas, Jonas, Dober, Bradley J., Ade, Peter, Ashton, Peter, Angilè, Francesco E., Beall, James A., Becker, Dan, Bradford, Kristi J., Che, George, Cho, Hsiao-Mei, Devlin, Mark J., Fissel, Laura M., Fukui, Yasuo, Galitzki, Nicholas, Gao, Jiansong, Groppi, Christopher E., Hillbrand, Seth, Hilton, Gene C., Hubmayr, Johannes, Irwin, Kent D., Klein, Jeffrey, Van Lanen, Jeff, Li, Dale, Li, Zhi-Yun, Lourie, Nathan P., Mani, Hamdi, Martin, Peter G., Mauskopf, Philip Daniel, Nakamura, Fumitaka, Novak, Giles, Pappas, David P., Pascale, Enzo, Santos, Fabio P., Savini, Giorgio, Scott, Douglas, Stanchfield, Sara, Ullom, Joel N., Underhill, Matthew, Vissers, Michael R., and Ward-Thompson, Derek

Abstract

The Balloon-borne Large Aperture Submillimeter Telescope for Polarimetry (BLASTPol) is a suborbital mapping experiment designed to study the role magnetic fields play in star formation. BLASTPol has had two science flights from McMurdo Station, Antarctica in 2010 and 2012. These flights have produced thousands of polarization vectors at 250, 350 and 500 microns in several molecular cloud targets. We present the design, specifications, and progress towards the next-generation BLASTPol experiment (BLAST-TNG). BLAST-TNG will fly a 40% larger diameter primary mirror, with almost 8 times the number of polarization-sensitive detectors resulting in a factor of 16 increase in mapping speed. With a spatial resolution of 2200 and four times the field of view (340 arcmin2) of BLASTPol, BLAST-TNG will bridge the angular scales between Planck's all-sky maps with 50 resolution and ALMA's ultra-high resolution narrow (~ 2000) fields. The new receiver has a larger cryogenics volume, allowing for a 28 day hold time. BLAST-TNG employs three arrays of Microwave Kinetic Inductance Detectors (MKIDs) with 30% fractional bandwidth at 250, 350 and 500 microns. In this paper, we will present the new BLAST-TNG instrument and science objectives. © (2014) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.

50. First implementation of TES bolometer arrays with SQUID-based multiplexed readout on a balloon-borne platform

Author

Aubin, Francois, Aboobaker, Asad M., Ade, Peter A. R., Baccigalupi, Carlo, Bao, Chaoyun, Borrill, Julian, Cantalupo, Christopher, Chapman, Daniel, Didier, Joy, Dobbs, Matt, Grainger, William F., Hanany, Shaul, Hubmayr, Johannes, Hyland, Peter, Hillbrand, Seth, Jaffe, Andrew, Johnson, Bradley, Jones, Terry, Kisner, Theodore, Klein, Jeff, Korotkov, Andrei, Leach, Sam, Lee, Adrian, Limon, Michele, MacDermid, Kevin, Matsumura, Tomotake, Meng, Xiaofan, Miller, Amber, Milligan, Michael, Polsgrove, Daniel, Ponthieu, Nicolas, Raach, Kate, Reichborn-Kjennerud, Britt, Sagiv, Ilan, Smecher, Graeme, Tran, Huan, Tucker, Gregory S., Vinokurov, Yury, Yadav, Amit, Zaldarriaga, Matias, Zilic, Kyle, Aubin, Francois, Aboobaker, Asad M., Ade, Peter A. R., Baccigalupi, Carlo, Bao, Chaoyun, Borrill, Julian, Cantalupo, Christopher, Chapman, Daniel, Didier, Joy, Dobbs, Matt, Grainger, William F., Hanany, Shaul, Hubmayr, Johannes, Hyland, Peter, Hillbrand, Seth, Jaffe, Andrew, Johnson, Bradley, Jones, Terry, Kisner, Theodore, Klein, Jeff, Korotkov, Andrei, Leach, Sam, Lee, Adrian, Limon, Michele, MacDermid, Kevin, Matsumura, Tomotake, Meng, Xiaofan, Miller, Amber, Milligan, Michael, Polsgrove, Daniel, Ponthieu, Nicolas, Raach, Kate, Reichborn-Kjennerud, Britt, Sagiv, Ilan, Smecher, Graeme, Tran, Huan, Tucker, Gregory S., Vinokurov, Yury, Yadav, Amit, Zaldarriaga, Matias, and Zilic, Kyle

Abstract

EBEX (the E and B EXperiment) is a balloon-borne telescope designed to measure the polarisation of the cosmic microwave background radiation. During a two week long duration science flight over Antarctica, EBEX will operate 768, 384 and 280 spider-web transition edge sensor (TES) bolometers at 150, 250 and 410 GHz, respectively. The 10-hour EBEX engineering flight in June 2009 over New Mexico and Arizona provided the first usage of both a large array of TES bolometers and a Superconducting QUantum Interference Device (SQUID) based multiplexed readout in a space-like environment. This successful demonstration increases the technology readiness level of these bolometers and the associated readout system for future space missions. A total of 82, 49 and 82 TES detectors were operated during the engineering flight at 150, 250 and 410 GHz. The sensors were read out with a new SQUID-based digital frequency domain multiplexed readout system that was designed to meet the low power consumption and robust autonomous operation requirements presented by a balloon experiment. Here we describe the system and the remote, automated tuning of the bolometers and SQUIDs. We compare results from tuning at float to ground, and discuss bolometer performance during flight