Your search keyword '"Dave MacMahon"' showing total 13 results

1. The Allen Telescope Array: The First Widefield, Panchromatic, Snapshot Radio Camera for Radio Astronomy and SETI.

Author

Jack Welch, Don Backer, Leo Blitz, Douglas C.-J. Bock, Geoffrey C. Bower, Calvin Cheng, Steve Croft, Matt Dexter, Greg Engargiola, Ed Fields, James Forster, Colby Gutierrez-Kraybill, Carl Heiles, Tamara Helfer, Susanne Jorgensen, Garrett Keating, John Lugten, Dave MacMahon, Oren Milgrome, Douglas Thornton, Lynn Urry, Joeri van Leeuwen, Dan Werthimer, Peter H. Williams, Melvin Wright, Jill Tarter, Robert Ackermann, Shannon Atkinson, Peter R. Backus, William Barott, Tucker Bradford, Michael Davis, David R. DeBoer, John Dreher, Gerry R. Harp, Jane Jordan, Tom Kilsdonk, Tom Pierson, Karen Randall, John Ross, G. Seth Shostak, Matt Fleming, Chris Cork, Artyom Vitouchkine, Niklas Wadefalk, and Sander Weinreb

Published

2009

2. The Galactic Faraday rotation sky 2020

Author

Steve Croft, Tessa Vernstrom, Charles L. H. Hull, M. C. H. Wright, A. Clegg, Peter Williams, Bryan Gaensler, Jane F. Kaczmarek, George Heald, Subhashis Roy, Timothy W. Shimwell, C. Tasse, Allison H. Costa, G. C. Bower, Yik Ki Ma, C. J. Riseley, Makoto Inoue, Shane O'Sullivan, Torsten A. Enßlin, Charlotte Sobey, Sui Ann Mao, Jeroen Stil, Marcus Brüggen, C. J. Law, M. Haverkorn, Tracy E. Clarke, F. de Gasperin, C. L. Van Eck, R. Shanahan, Craig S. Anderson, V. Vacca, S. K. Betti, Sebastian Hutschenreuter, Jo-Anne Brown, Melanie Johnston-Hollitt, E. Carretti, and Dave MacMahon

Subjects

Physics, 010308 nuclear & particles physics, Galaxy: General, media_common.quotation_subject, Astronomy, FOS: Physical sciences, Astronomy and Astrophysics, Astrophysics, 01 natural sciences, Astrophysics - Astrophysics of Galaxies, Galaxy: Structure, symbols.namesake, ISM: Magnetic Fields, Space and Planetary Science, Sky, Astrophysics of Galaxies (astro-ph.GA), 0103 physical sciences, Faraday effect, symbols, ISM: Structure, 010303 astronomy & astrophysics, Astrophysics::Galaxy Astrophysics, media_common

Abstract

This work gives an update to existing reconstructions of the Galactic Faraday rotation sky by processing almost all Faraday rotation data sets available at the end of the year 2020. Observations of extra-Galactic sources in recent years have, among other regions, further illuminated the previously under-constrained southern celestial sky, as well as parts of the inner disc of the Milky Way. This has culminated in an all-sky data set of 55,190 data points, which is a significant expansion on the 41,330 used in previous works, hence making an updated separation of the Galactic component a promising venture. The increased source density allows us to present our results in a resolution of about $1.3\cdot 10^{-2}\, \mathrm{deg}^2$ ($46.8\,\mathrm{arcmin}^2$), which is a twofold increase compared to previous works. As for previous Faraday rotation sky reconstructions, this work is based on information field theory, a Bayesian inference scheme for field-like quantities which handles noisy and incomplete data. In contrast to previous reconstructions, we find a significantly thinner and pronounced Galactic disc with small-scale structures exceeding values of several thousand $\mathrm{rad}\,\mathrm{m}^{-2}$. The improvements can mainly be attributed to the new catalog of Faraday data, but are also supported by advances in correlation structure modeling within numerical information field theory. We furthermore give a detailed discussion on statistical properties of the Faraday rotation sky and investigate correlations to other data sets., Comment: accepted in A&A; 15 pages, 12 Figures; results at https://wwwmpa.mpa-garching.mpg.de/~ensslin/research/data/faraday2020.html and http://cutouts.cirada.ca/rmcutout

Published

2022

3. A Real Time Processing System for Big Data in Astronomy: Applications to HERA

Author

Aaron Ewall-Wice, Daniel C. Jacobs, Craig Smith, Cresshim Malgas, Nicolas Fagnoni, Nipanjana Patra, James Robnett, Lourence Malan, Yanga Balfour, Joshua Kerrigan, Ziyaad Halday, Steve R. Furlanetto, M. Wilensky, Peter Sims, Paul Alexander, Judd D. Bowman, Samantha Pieterse, Nima Razavi-Ghods, Piyanat Kittiwisit, Angelo Syce, Richard F. Bradley, Matthew Kolopanis, Peter K. G. Williams, Jonathan C. Pober, Telalo Lekalake, Andrei Mesinger, Jasper Grobbelaar, Brian Glendenning, D. R. DeBoer, Kingsley Gale-Sides, John Ely, Gianni Bernardi, Tashalee S. Billings, Zachary E. Martinot, Mario G. Santos, Carina Cheng, Matthys Maree, Miguel F. Morales, Adrian Liu, Kathryn Rosie, Robert Pascua, Nithyanandan Thyagarajan, Zaki S. Ali, Nicholas S. Kern, Bryna J. Hazelton, Bojan Nikolic, Zara Abdurashidova, Jacqueline N. Hewitt, Chris Carilli, Austin Julius, P. La Plante, S. Murray, Mathakane Molewa, Bradley Greig, David B. Lewis, Tshegofalang Mosiane, Adam Lanman, Deepthi Gorthi, Joshua S. Dillon, Haoxuan Zheng, Eunice Matsetela, James E. Aguirre, Dave MacMahon, S. H. Carey, E. de Lera Acedo, Aaron R. Parsons, Matthew R. Dexter, Jon Ringuette, Abraham R. Neben, Randall Fritz, Jack Hickish, Jacob Burba, Adam P. Beardsley, Saul A. Kohn, Philip Bull, La Plante, P., Williams, P. K. G., Kolopanis, M., Dillon, J. S., Beardsley, A. P., Kern, N. S., Wilensky, M., Ali, Z. S., Abdurashidova, Z., Aguirre, J. E., Alexander, P., Balfour, Y., Bernardi, G., Billings, T. S., Bowman, J. D., Bradley, R. F., Bull, P., Burba, J., Carey, S., Carilli, C. L., Cheng, C., Deboer, D. R., Dexter, M., de Lera Acedo, E., Ely, J., Ewall-Wice, A., Fagnoni, N., Fritz, R., Furlanetto, S. R., Gale-Sides, K., Glendenning, B., Gorthi, D., Greig, B., Grobbelaar, J., Halday, Z., Hazelton, B. J., Hewitt, J. N., Hickish, J., Jacobs, D. C., Julius, A., Kerrigan, J., Kittiwisit, P., Kohn, S. A., Lanman, A., Lekalake, T., Lewis, D., Liu, A., Macmahon, D., Malan, L., Malgas, C., Maree, M., Martinot, Z. E., Matsetela, E., Mesinger, A., Molewa, M., Morales, M. F., Mosiane, T., Murray, S., Neben, A. R., Nikolic, B., Parsons, A. R., Pascua, R., Patra, N., Pieterse, S., Pober, J. C., Razavi-Ghods, N., Ringuette, J., Robnett, J., Rosie, K., Santos, M. G., Sims, P., Smith, C., Syce, A., Thyagarajan, N., Zheng, H., ITA, and USA

Subjects

Data analysis — Software, Astronomy — Software, Computer science, Real-time computing, Big data, FOS: Physical sciences, 0102 computer and information sciences, Development, Terabyte, Interference (wave propagation), 7. Clean energy, 01 natural sciences, Computer Science::Digital Libraries, Settore FIS/05 - Astronomia e Astrofisica, 0103 physical sciences, Methods, 010303 astronomy & astrophysics, Reionization, Instrumentation and Methods for Astrophysics (astro-ph.IM), business.industry, SIGNAL (programming language), Astrophysics::Instrumentation and Methods for Astrophysics, Astronomy and Astrophysics, HERA, Computer Science Applications, 010201 computation theory & mathematics, Space and Planetary Science, Computer data storage, Data analysis — Physical sciences and engineering, Astrophysics - Instrumentation and Methods for Astrophysics, business, Raw data

Abstract

As current- and next-generation astronomical instruments come online, they will generate an unprecedented deluge of data. Analyzing these data in real time presents unique conceptual and computational challenges, and their long-term storage and archiving is scientifically essential for generating reliable, reproducible results. We present here the real-time processing (RTP) system for the Hydrogen Epoch of Reionization Array (HERA), a radio interferometer endeavoring to provide the first detection of the highly redshifted 21 cm signal from Cosmic Dawn and the Epoch of Reionization by an interferometer. The RTP system consists of analysis routines run on raw data shortly after they are acquired, such as calibration and detection of radio-frequency interference (RFI) events. RTP works closely with the Librarian, the HERA data storage and transfer manager which automatically ingests data and transfers copies to other clusters for post-processing analysis. Both the RTP system and the Librarian are public and open source software, which allows for them to be modified for use in other scientific collaborations. When fully constructed, HERA is projected to generate over 50 terabytes (TB) of data each night, and the RTP system enables the successful scientific analysis of these data., Comment: 15 pages, 3 figures, published in Astronomy and Computing

Published

2021

4. Initial results from a real-time FRB search with the GBT

Author

Aris Karastergiou, Jeff Cobb, Dave MacMahon, Duncan R. Lorimer, Xin Pei, Mayuresh Surnis, Devansh Agarwal, Golnoosh Golpayegani, Griffin Foster, Wes Armour, Andrew Siemion, Maura McLaughlin, Dan Werthimer, and S. White

Subjects

Physics, Winnow, 010308 nuclear & particles physics, Fast radio burst, Astronomy, Cosmic distance ladder, Green Bank Telescope, FOS: Physical sciences, Flux, Astronomy and Astrophysics, Astrophysics, 01 natural sciences, Redshift, Electromagnetic interference, Pulsar, Space and Planetary Science, 0103 physical sciences, Astrophysics - Instrumentation and Methods for Astrophysics, Instrumentation and Methods for Astrophysics (astro-ph.IM), 010303 astronomy & astrophysics

Abstract

We present the data analysis pipeline, commissioning observations and initial results from the GREENBURST fast radio burst (FRB) detection system on the Robert C. Byrd Green Bank Telescope (GBT) previously described by Surnis et al. which uses the 21~cm receiver observing commensally with other projects. The pipeline makes use of a state-of-the-art deep learning classifier to winnow down the very large number of false positive single-pulse candidates that mostly result from radio frequency interference. In our observations totalling 156.5 days so far, we have detected individual pulses from 20 known radio pulsars which provide an excellent verification of the system performance. We also demonstrate, through blind injection analyses, that our pipeline is complete down to a signal-to-noise threshold of 12. Depending on the observing mode, this translates to peak flux sensitivities in the range 0.14--0.89~Jy. Although no FRBs have been detected to date, we have used our results to update the analysis of Lawrence et al. to constrain the FRB all-sky rate to be $1140^{+200}_{-180}$ per day above a peak flux density of 1~Jy. We also constrain the source count index $\alpha=0.83\pm0.06$ which indicates that the source count distribution is substantially flatter than expected from a Euclidean distribution of standard candles (where $\alpha=1.5$). We discuss this result in the context of the FRB redshift and luminosity distributions. Finally, we make predictions for detection rates with GREENBURST, as well as other ongoing and planned FRB experiments., Comment: 9 pages, 7 figures, submitted to MNRAS

Published

2020

5. The Allen Telescope Array Twenty-centimeter Survey—a 690 deg2, 12 epoch radio data set. I. Catalog and long-duration transient statistics

Author

Amber Bauermeister, Rob Ackermann, J. B. Lugten, Dan Werthimer, Ken Smolek, John Ross, Tom Kilsdonk, Chat Hull, Oren Milgrome, Tom Pierson, John Dreher, Douglas Thornton, Karen Randall, Artyom Vitouchkine, Niklas Wadefalk, Jane Jordan, Ed Fields, Steve Croft, Leo Blitz, Melvyn Wright, Casey J. Law, Tamara T. Helfer, Joeri van Leeuwen, Don Backer, Matt Dexter, Chris Cork, Douglas C.-J. Bock, Matt Fleming, Geoffrey C. Bower, Shannon Atkinson, Garrett K. Keating, Susanne Jorgensen, Jill Tarter, John S. Welch, Colby Gutierrez-Kraybill, Calvin Cheng, Lynn Urry, Seth Shostak, M. M. Davis, David Whysong, Greg Engargiola, Tucker Bradford, James R. Forster, Peter K. G. Williams, William C. Barott, Peter L. McMahon, Dave DeBoer, Peter Backus, G. R. Harp, Andrew Siemion, Dave MacMahon, and High Energy Astrophys. & Astropart. Phys (API, FNWI)

Subjects

NRAO VLA Sky Survey, Physics, 010504 meteorology & atmospheric sciences, Dynamic range, Epoch (astronomy), Flux, Astronomy and Astrophysics, Astrophysics, 01 natural sciences, Square degree, Allen Telescope Array, Space and Planetary Science, 0103 physical sciences, Calibration, 010303 astronomy & astrophysics, Beam (structure), 0105 earth and related environmental sciences

Abstract

We present the Allen Telescope Array Twenty-centimeter Survey (ATATS), a multi-epoch (12 visits), 690 deg(2) radio image and catalog at 1.4 GHz. The survey is designed to detect rare, very bright transients as well as to verify the capabilities of the ATA to form large mosaics. The combined image using data from all 12 ATATS epochs has rms noise sigma = 3.94 mJy beam(-1) and dynamic range 180, with a circular beam of 150 '' FWHM. It contains 4408 sources to a limiting sensitivity of 5 sigma = 20 mJy beam(-1). We compare the catalog generated from this 12 epoch combined image to the NRAO VLA Sky Survey (NVSS), a legacy survey at the same frequency, and find that we can measure source positions to better than similar to 20 ''. For sources above the ATATS completeness limit, the median flux density is 97% of the median value for matched NVSS sources, indicative of an accurate overall flux calibration. We examine the effects of source confusion due to the effects of differing resolution between ATATS and NVSS on our ability to compare flux densities. We detect no transients at flux densities greater than 40 mJy in comparison with NVSS and place a 2 sigma upper limit of 0.004 deg(-2) on the transient rate for such sources. These results suggest that the greater than or similar to 1 Jy transients reported by Matsumara et al. may not be true transients, but rather variable sources at their flux density threshold.

Published

2010

6. Commensal searches for extraterrestrial intelligence with Arecibo Observatory and the Green Bank Telescope

Author

Ronald J. Maddalena, M. Garrett, Jeff Cobb, M. Lebofsky, Dan Werthimer, Matthew R. Dexter, Aris Karastergiou, Eric J. Korpela, Jayanth Chennamangalam, Andrew Siemion, Maura McLaughlin, Duncan R. Lorimer, Wes Armour, Glenn Jones, Dave MacMahon, John Ford, and H. Falcke

Subjects

Physics, Sky, Extraterrestrial life, media_common.quotation_subject, Green Bank Telescope, Extraterrestrial intelligence, Arecibo Observatory, Search for extraterrestrial intelligence, Signal acquisition, Remote sensing, Allen Telescope Array, media_common

Abstract

Our group is currently developing two new instruments to conduct commensal searches for extraterrestrial intelligence (SETI) at the Green Bank Telescope and Arecibo Observatory. The SETI sky surveys conducted with these two instruments will use all available receivers at these two facilities and target a range of signal types. When complete, these surveys will be the most sensitive and thorough sky surveys for radio emission produced by extraterrestrial technology ever conducted. Here we describe the technical details of our new digital instruments, including the signal acquisition, distribution and science processing components. We also discuss expected science returns and potential expansions to the digital system that could enable wider bandwidths and allow other observers to use the system for their own commensal programs with a minimal investment in new hardware.

Published

2014

7. The Allen Telescope Array Pi GHz Sky Survey I. Survey Description and Static Catalog Results for the Bootes Field

Author

Amber Bauermeister, Jack Welch, Peter K. G. Williams, Dave MacMahon, Tom Pierson, John Dreher, Dan Werthimer, Niklas Wadefalk, Karen Randall, Douglas C.-J. Bock, Oren Milgrome, Jill Tarter, R. James Forster, Casey J. Law, Sandy Weinreb, Rob Ackermann, Peter Backus, Peter L. McMahon, Don Backer, Ken Smolek, Dave DeBoer, J. B. Lugten, Chris Cork, John Ross, Billy Barott, Carl Heiles, Melvyn Wright, Matt Fleming, G. R. Harp, Andrew Siemion, Jane Jordan, Shannon Atkinson, Artyom Vitouchkine, Susanne Jorgensen, Garrett K. Keating, Matt Dexter, Geoffrey C. Bower, Ed Fields, Calvin Cheng, Tom Kilsdonk, Joeri van Leeuwen, Greg Engargiola, Colby Gutierrez-Kraybill, Steve Croft, Leo Blitz, Seth Shostak, M. M. Davis, Chat Hull, Tucker Bradford, Tamara T. Helfer, David Whysong, Lynn Urry, Douglas Thornton, and High Energy Astrophys. & Astropart. Phys (API, FNWI)

Subjects

Physics, High Energy Astrophysical Phenomena (astro-ph.HE), 010504 meteorology & atmospheric sciences, media_common.quotation_subject, Astronomy, Flux, FOS: Physical sciences, Astronomy and Astrophysics, BOOTES, 01 natural sciences, Wide field, Allen Telescope Array, 13. Climate action, Space and Planetary Science, Sky, 0103 physical sciences, Astrophysics - High Energy Astrophysical Phenomena, 010303 astronomy & astrophysics, 0105 earth and related environmental sciences, Constellation, media_common

Abstract

The Pi GHz Sky Survey (PiGSS) is a key project of the Allen Telescope Array. PiGSS is a 3.1 GHz survey of radio continuum emission in the extragalactic sky with an emphasis on synoptic observations that measure the static and time-variable properties of the sky. During the 2.5-year campaign, PiGSS will twice observe ~250,000 radio sources in the 10,000 deg^2 region of the sky with b > 30 deg to an rms sensitivity of ~1 mJy. Additionally, sub-regions of the sky will be observed multiple times to characterize variability on time scales of days to years. We present here observations of a 10 deg^2 region in the Bootes constellation overlapping the NOAO Deep Wide Field Survey field. The PiGSS image was constructed from 75 daily observations distributed over a 4-month period and has an rms flux density between 200 and 250 microJy. This represents a deeper image by a factor of 4 to 8 than we will achieve over the entire 10,000 deg^2. We provide flux densities, source sizes, and spectral indices for the 425 sources detected in the image. We identify ~100$ new flat spectrum radio sources; we project that when completed PiGSS will identify 10^4 flat spectrum sources. We identify one source that is a possible transient radio source. This survey provides new limits on faint radio transients and variables with characteristic durations of months., Accepted for publication in ApJ; revision submitted with extraneous figure removed

Published

2010

8. PetaOp/Second FPGA Signal Processing for SETI and Radio Astronomy

Author

Dan Werthimer, Brian Richards, Dave MacMahon, Pierre Droz, John Wawrzynek, Andrew Siemion, Borivoje Nikolic, Arash Parsa, Aaron R. Parsons, Henry Chen, Jeff Mock, Melvyn Wright, Christopher H. Dick, C. de Jesus, Chen Chang, K. Meder, Vinayak Nagpal, D. Chapman, Donald C. Backer, and P. Crescini

Subjects

Ethernet, Signal processing, Spectrometer, business.industry, Computer science, Radio telescope, Embedded system, Very-long-baseline interferometry, Software design, Instrumentation (computer programming), Field-programmable gate array, business, Computer hardware, Radio astronomy

Abstract

Our group, the Center for Astronomy Signal Processing and Electronics Research (CASPER), seeks to speed the development of radio astronomy signal processing instrumentation by designing and demonstrating a scalable, upgradeable, FPGA-based computing platform and software design methodology that targets a range of realtime radio telescope signal processing applications. This project relies on a small number of modular, connectible hardware components and open-source signal processing libraries which can be reused and scaled as hardware capabilities expand. "We have demonstrated the use of 10 Gb Ethernet packetization and switches to manage high-bandwidth inter-board communication. Using these tools, we have built spectrometers, correlators, beamformers, VLBI data recorders, and many other applications. Future directions for the development include a fully packetized scalable correlator, additional library and toolfiow development, and a next generation of modular FPGA-based hardware.

Published

2006

9. A FLUX SCALE FOR SOUTHERN HEMISPHERE 21 cm EPOCH OF REIONIZATION EXPERIMENTS

Author

James E. Aguirre, David F. Moore, William P. Walbrugh, Richard F. Bradley, David DeBoer, Dave MacMahon, Pat Klima, Daniel C. Jacobs, Irina I. Stefan, Judd D. Bowman, Jonathan C. Pober, Chris Carilli, Aaron R. Parsons, Matthew R. Dexter, Nicole E. Gugliucci, Jason Manley, and Zaki S. Ali

Subjects

Physics, Spectral index, Observational error, Astrophysics::Instrumentation and Methods for Astrophysics, Flux, Astronomy and Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics, 01 natural sciences, Declination, Precision Array for Probing the Epoch of Reionization, Spectral line, Space and Planetary Science, 0103 physical sciences, Calibration, 010306 general physics, 010303 astronomy & astrophysics, Reionization

Abstract

We present a catalog of spectral measurements covering a 100-200 MHz band for 32 sources, derived from observations with a 64-antenna deployment of the Donald C. Backer Precision Array for Probing the Epoch of Reionization (PAPER) in South Africa. For transit telescopes such as PAPER, calibration of the primary beam is a difficult endeavor, and errors in this calibration are a major source of error in the determination of source spectra. In order to decrease reliance on accurate beam calibration, we focus on calibrating sources in a narrow declination range from -46d to -40d. Since sources at similar declinations follow nearly identical paths through the primary beam, this restriction greatly reduces errors associated with beam calibration, yielding a dramatic improvement in the accuracy of derived source spectra. Extrapolating from higher frequency catalogs, we derive the flux scale using a Monte-Carlo fit across multiple sources that includes uncertainty from both catalog and measurement errors. Fitting spectral models to catalog data and these new PAPER measurements, we derive new flux models for Pictor A and 31 other sources at nearby declinations. 90% of these confirm and refine a power-law model for flux density. Of note is the new Pictor A flux model, which is accurate to 1.4% and shows, in contrast to previous models, that between 100 MHz and 2 GHz, the spectrum of Pictor A is consistent with a single power law given by a flux at 150 MHz of 382+/-5.4 Jy, and a spectral index of -0.76+/-0.01. This accuracy represents an order of magnitude improvement over previous measurements in this band, and is limited by the uncertainty in the catalog measurements used to estimate the absolute flux scale. The simplicity and improved accuracy of Pictor A's spectrum make it an excellent calibrator for experiments seeking to measure 21cm emission from the Epoch of Reionization.

Published

2013

10. OPENING THE 21 cm EPOCH OF REIONIZATION WINDOW: MEASUREMENTS OF FOREGROUND ISOLATION WITH PAPER

Author

Richard F. Bradley, Patricia J. Klima, Zaki S. Ali, James E. Aguirre, David F. Moore, Jason Manley, Irina I. Stefan, Chris L. Carilli, Aaron R. Parsons, Nicole E. Gugliucci, Matthew R. Dexter, Daniel C. Jacobs, Jonathan C. Pober, D. R. DeBoer, Dave MacMahon, and William P. Walbrugh

Subjects

Physics, media_common.quotation_subject, Astrophysics::Instrumentation and Methods for Astrophysics, Spectral density, Astronomy and Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics, Wedge (geometry), Precision Array for Probing the Epoch of Reionization, Filter (large eddy simulation), Space and Planetary Science, Sky, Dark Ages, Focus (optics), Reionization, Astrophysics::Galaxy Astrophysics, media_common

Abstract

We present new observations with the Precision Array for Probing the Epoch of Reionization with the aim of measuring the properties of foreground emission for 21 cm epoch of reionization (EoR) experiments at 150 MHz. We focus on the footprint of the foregrounds in cosmological Fourier space to understand which modes of the 21 cm power spectrum will most likely be compromised by foreground emission. These observations confirm predictions that foregrounds can be isolated to a "wedge"-like region of two-dimensional (k ⊥, k ∥)-space, creating a window for cosmological studies at higher k ∥ values. We also find that the emission extends past the nominal edge of this wedge due to spectral structure in the foregrounds, with this feature most prominent on the shortest baselines. Finally, we filter the data to retain only this "unsmooth" emission and image its specific k ∥ modes. The resultant images show an excess of power at the lowest modes, but no emission can be clearly localized to any one region of the sky. This image is highly suggestive that the most problematic foregrounds for 21 cm EoR studies will not be easily identifiable bright sources, but rather an aggregate of fainter emission.

Published

2013

11. ERRATUM: 'THE ALLEN TELESCOPE ARRAY TWENTY-CENTIMETER SURVEY—A 690 DEG2, 12 EPOCH RADIO DATA SET. I. CATALOG AND LONG-DURATION TRANSIENT STATISTICS' (2010, ApJ, 719, 45)

Author

Dan Werthimer, Jack Welch, Peter K. G. Williams, Calvin Cheng, Shannon Atkinson, Garrett K. Keating, Dave MacMahon, John Lugten, Artyom Vitouchkine, Douglas Thornton, Ken Smolek, Susanne Jorgensen, T. T. Helfer, Rob Ackermann, Tucker Bradford, G. Engargiola, Ed Fields, William C. Barott, Peter Backus, James R. Forster, John Dreher, Karen Randall, Leo Blitz, Amber Bauermeister, David Whysong, Tom Pierson, Melvyn Wright, Chat Hull, Joeri van Leeuwen, Casey J. Law, G. R. Harp, John Ross, Andrew Siemion, Tom Kilsdonk, Matt Dexter, Chris Cork, Steve Croft, Matt Fleming, Geoffrey C. Bower, Lynn Urry, Jane Jordan, Dave DeBoer, Peter L. McMahon, Seth Shostak, M. M. Davis, Don Backer, Oren Milgrome, Niklas Wadefalk, Douglas C.-J. Bock, Colby Gutierrez-Kraybill, and Jill Tarter

Subjects

Data set, Physics, Centimeter, Space and Planetary Science, Epoch (reference date), Astronomy, Astronomy and Astrophysics, Transient (computer programming), Astrophysics, Short duration, Allen Telescope Array

Published

2010

12. Initial Results from the ALFABURST Survey

Author

Pei Xin, J. Cobb, Golnoosh Golpayegani, Wes Armour, Griffin Foster, Jayanth Chennamangalam, D. Werthimer, Kaustubh Rajwade, D. R. Lorimer, D. Gorthi, Aris Karastergiou, M. A. McLaughlin, Mayuresh Surnis, Devansh Agarwal, Dave MacMahon, and Andrew Siemion

Subjects

Physics, High Energy Astrophysical Phenomena (astro-ph.HE), Space and Planetary Science, FOS: Physical sciences, Astronomy and Astrophysics, Astrophysics - High Energy Astrophysical Phenomena

Abstract

Here, we present initial results from the ALFABURST radio transient survey, which is currently running in a commensal mode with the ALFA receiver at the Arecibo telescope. We observed for a total of 1400 hours and have detected single pulses from known pulsars but did not detect any FRBs. The non-detection of FRBs is consistent with the current FRB sky rates., Comment: To appear in the proceedings of IAUS 337: Pulsar Astrophysics - The Next 50 Years

13. The Allen telescope array: The first widefield, panchromatic, snapshot radio camera

Author

Joeri van Leeuwen, Leo Blitz, Douglas Bock, Don Backer, Amber Bauermeister, Geoffrey C. Bower, Calvin Cheng, Steve D. Croft, Matt Dexter, Greg Engargiola, Ed Fields, Rick Forster, Colby Gutierrez-Kraybill, Carl Heiles, Tamara Helfer, Susan Jorgensen, Garrett Keating, Casey Law, John Lugten, Dave MacMahon, Oren Milgrome, Douglas Thornton, Lynn Urry, Jack Welch, Dan Werthimer, Peter Williams, Melvin Wright, Robert Ackermann, Shannon Atkinson, Peter Backus, William Barott, Tucker Bradford, Michael Davis, Dave DeBoer, John Dreher, Gerry Harp, Jane Jordan, Tom Kilsdonk, Tom Pierson, Karen Randall, John Ross, Seth Shostak, and Jill Tarter

Subjects

Physics, Astrophysics::High Energy Astrophysical Phenomena, media_common.quotation_subject, Astrophysics::Instrumentation and Methods for Astrophysics, Astronomy, Astrophysics::Cosmology and Extragalactic Astrophysics, law.invention, Allen Telescope Array, Panchromatic film, Telescope, Primary mirror, Radio observatory, law, Sky, Snapshot (computer storage), Astrophysics::Galaxy Astrophysics, media_common, Remote sensing

Abstract

The first 42 elements of the Allen Telescope Array (ATA-42) are beginning to deliver data at the Hat Creek Radio Observatory in Northern California. Scientists and engineers are actively exploiting all of the flexibility designed into this innovative instrument for simultaneously conducting panoramic surveys of the astrophysical sky. The fundamental scientific program of this new telescope is varied and exciting; we here discuss some of the first astronomical results.