Your search keyword '"Greenhill, Lincoln J."' showing total 27 results

1. A new technique to measure noise parameters for global 21-cm experiments

Author

Price, Danny C., Tong, Cheuk-Yu Edward, Sutinjo, Adrian T., Patra, Nipanjana, and Greenhill, Lincoln J.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

Radiometer experiments to detect 21-cm Hydrogen line emission from the Cosmic Dawn and Epoch of Reionization rely upon precise absolute calibration. During calibration, noise generated by amplifiers within the radiometer receiver must be accounted for; however, it is difficult to measure as the noise power varies with source impedance. In this letter, we introduce a convenient method to measure the noise parameters of a receiver system, which is practical for low-frequency receivers used in global 21-cm experiments., Comment: 4 pages, accepted paper for URSI GASS 2023 J08

Published

2023

2. Measuring Noise Parameters Using an Open, Short, Load, and 1/8-wavelength Cable as Source Impedances

Author

Price, Danny C., Tong, Cheuk-Yu Edward, Sutinjo, Adrian T., Greenhill, Lincoln J., and Patra, Nipanjana

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

Noise parameters are a set of four measurable quantities which determine the noise performance of a radio-frequency device under test. The noise parameters of a 2-port device can be extracted by connecting a set of 4 or more source impedances at the device's input, measuring the noise power of the device with each source connected, and then solving a matrix equation. However, sources with high reflection coefficients cannot be used due to a singularity that arises in entries of the matrix. Here, we detail a new method of noise parameter extraction using a singularity-free matrix that is compatible with high-reflection sources. We show that open, short, load and an open cable ("OSLC") can be used to extract noise parameters, and we detail a practical measurement approach. The OSLC approach is particularly well-suited for low-noise amplifier measurement at frequencies below 1 GHz, where alternative methods require physically large apparatus., Comment: IEEE Transactions on Microwave Theory and Techniques

Published

2022

3. Imaging Spectroscopy of CME-Associated Solar Radio Bursts

Author

Chhabra, Sherry, Gary, Dale E., Hallinan, Gregg, Anderson, Marin M., Chen, Bin, Greenhill, Lincoln J., and Price, Danny C.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We present first results of a solar radio event observed with the Owens Valley Radio Observatory Long Wavelength Array (OVRO-LWA) at metric wavelengths. We examine a complex event consisting of multiple radio sources/bursts associated with a fast coronal mass ejection (CME) and an M2.1 GOES soft X-ray flare from 2015 September 20. Images of 9--s cadence are used to analyze the event over a 120-minute period, and solar emission is observed out to a distance of $\approx3.5\,R_\odot$, with an instantaneous bandwidth covering 22~MHz within the frequency range of 40--70~MHz. We present our results from the investigation of the radio event, focusing particularly on one burst source that exhibits outward motion, which we classify as a moving type IV burst. We image the event at multiple frequencies and use the source centroids to obtain the velocity for the outward motion. Spatial and temporal comparison with observations of the CME in white light from the LASCO(C2) coronagraph, indicates an association of the outward motion with the core of the CME. By performing graduated-cylindrical-shell (GCS) reconstruction of the CME, we constrain the density in the volume. The electron plasma frequency obtained from the density estimates do not allow us to completely dismiss plasma emission as the underlying mechanism. However, based on source height and smoothness of the emission in frequency and time, we argue that gyrosynchrotron is the more plausible mechanism. We use gyrosynchrotron spectral fitting techniques to estimate the evolving physical conditions during the outward motion of this burst source., Comment: 22 Pages, 10 figures, 1 table

Published

2020

4. The 21 cm Power Spectrum from the Cosmic Dawn: First Results from the OVRO-LWA

Author

Eastwood, Michael W., Anderson, Marin M., Monroe, Ryan M., Hallinan, Gregg, Catha, Morgan, Dowell, Jayce, Garsden, Hugh, Greenhill, Lincoln J., Hicks, Brian C., Kocz, Jonathon, Price, Danny C., Schinzel, Frank K., Vedantham, Harish, and Wang, Yuankun

Subjects

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

Abstract

The 21\,cm transition of neutral hydrogen is opening an observational window into the cosmic dawn of the universe---the epoch of first star formation. We use 28\,hr of data from the Owens Valley Radio Observatory Long Wavelength Array (OVRO-LWA) to place upper limits on the spatial power spectrum of 21\,cm emission at $z \approx 18.4$ ($\Delta_{21} \lesssim 10^4\,\text{mK}$), and within the absorption feature reported by the EDGES experiment (Bowman et al. 2018). In the process we demonstrate the first application of the double Karhunen-Lo\`{e}ve transform for foreground filtering, and diagnose the systematic errors that are currently limiting the measurement. We also provide an updated model for the angular power spectrum of low-frequency foreground emission measured from the northern hemisphere, which can be used to refine sensitivity forecasts for next-generation experiments., Comment: The authors really hoping you're having a fantastic day. You keep being awesome!

Published

2019

5. A simultaneous search for prompt radio emission associated with the short GRB 170112A using the all-sky imaging capability of the OVRO-LWA

Author

Anderson, Marin M., Hallinan, Gregg, Eastwood, Michael W., Monroe, Ryan M., Vedantham, Harish K., Bourke, Stephen, Greenhill, Lincoln J., Kocz, Jonathon, Lazio, T. Joseph W., Price, Danny C., Schinzel, Frank K., Wang, Yuankun, and Woody, David P.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We have conducted the most sensitive low frequency (below 100 MHz) search to date for prompt, low-frequency radio emission associated with short-duration gamma-ray bursts (GRBs), using the Owens Valley Radio Observatory Long Wavelength Array (OVRO-LWA). The OVRO-LWA's nearly full-hemisphere field-of-view ($\sim20$,$000$ square degrees) allows us to search for low-frequency (sub-$100$ MHz) counterparts for a large sample of the subset of GRB events for which prompt radio emission has been predicted. Following the detection of short GRB 170112A by Swift, we used all-sky OVRO-LWA images spanning one hour prior to and two hours following the GRB event to search for a transient source coincident with the position of GRB 170112A. We detect no transient source, with our most constraining $1\sigma$ flux density limit of $650~\text{mJy}$ for frequencies spanning $27~\text{MHz}-84~\text{MHz}$. We place constraints on a number of models predicting prompt, low-frequency radio emission accompanying short GRBs and their potential binary neutron star merger progenitors, and place an upper limit of $L_\text{radio}/L_\gamma \lesssim 7\times10^{-16}$ on the fraction of energy released in the prompt radio emission. These observations serve as a pilot effort for a program targeting a wider sample of both short and long GRBs with the OVRO-LWA, including bursts with confirmed redshift measurements which are critical to placing the most constraining limits on prompt radio emission models, as well as a program for the follow-up of gravitational wave compact binary coalescence events detected by advanced LIGO and Virgo., Comment: 14 pages, 5 figures, ApJ submitted

Published

2017

6. The Radio Sky at Meter Wavelengths: m-Mode Analysis Imaging with the Owens Valley Long Wavelength Array

Author

Eastwood, Michael W., Anderson, Marin M., Monroe, Ryan M., Hallinan, Gregg, Barsdell, Benjamin R., Bourke, Stephen A., Clark, M. A., Ellingson, Steven W., Dowell, Jayce, Garsden, Hugh, Greenhill, Lincoln J., Hartman, Jacob M., Kocz, Jonathon, Lazio, T. Joseph W., Price, Danny C., Schinzel, Frank K., Taylor, Gregory B., Vedantham, Harish K., Wang, Yuankun, and Woody, David P.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

A host of new low-frequency radio telescopes seek to measure the 21-cm transition of neutral hydrogen from the early universe. These telescopes have the potential to directly probe star and galaxy formation at redshifts $20 \gtrsim z \gtrsim 7$, but are limited by the dynamic range they can achieve against foreground sources of low-frequency radio emission. Consequently, there is a growing demand for modern, high-fidelity maps of the sky at frequencies below 200 MHz for use in foreground modeling and removal. We describe a new widefield imaging technique for drift-scanning interferometers, Tikhonov-regularized $m$-mode analysis imaging. This technique constructs images of the entire sky in a single synthesis imaging step with exact treatment of widefield effects. We describe how the CLEAN algorithm can be adapted to deconvolve maps generated by $m$-mode analysis imaging. We demonstrate Tikhonov-regularized $m$-mode analysis imaging using the Owens Valley Long Wavelength Array (OVRO-LWA) by generating 8 new maps of the sky north of $\delta=-30^\circ$ with 15 arcmin angular resolution, at frequencies evenly spaced between 36.528 MHz and 73.152 MHz, and $\sim$800 mJy/beam thermal noise. These maps are a 10-fold improvement in angular resolution over existing full-sky maps at comparable frequencies, which have angular resolutions $\ge 2^\circ$. Each map is constructed exclusively from interferometric observations and does not represent the globally averaged sky brightness. Future improvements will incorporate total power radiometry, improved thermal noise, and improved angular resolution -- due to the planned expansion of the OVRO-LWA to 2.6 km baselines. These maps serve as a first step on the path to the use of more sophisticated foreground filters in 21-cm cosmology incorporating the measured angular and frequency structure of all foreground contaminants., Comment: 27 pages, 18 figures

Published

2017

7. Bifrost: a Python/C++ Framework for High-Throughput Stream Processing in Astronomy

Author

Cranmer, Miles D., Barsdell, Benjamin R., Price, Danny C., Dowell, Jayce, Garsden, Hugh, Dike, Veronica, Eftekhari, Tarraneh, Hegedus, Alexander M., Malins, Joseph, Obenberger, Kenneth S., Schinzel, Frank, Stovall, Kevin, Taylor, Gregory B., and Greenhill, Lincoln J.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Computer Science - Distributed, Parallel, and Cluster Computing, Physics - Instrumentation and Detectors

Abstract

Radio astronomy observatories with high throughput back end instruments require real-time data processing. While computing hardware continues to advance rapidly, development of real-time processing pipelines remains difficult and time-consuming, which can limit scientific productivity. Motivated by this, we have developed Bifrost: an open-source software framework for rapid pipeline development. Bifrost combines a high-level Python interface with highly efficient reconfigurable data transport and a library of computing blocks for CPU and GPU processing. The framework is generalizable, but initially it emphasizes the needs of high-throughput radio astronomy pipelines, such as the ability to process data buffers as if they were continuous streams, the capacity to partition processing into distinct data sequences (e.g., separate observations), and the ability to extract specific intervals from buffered data. Computing blocks in the library are designed for applications such as interferometry, pulsar dedispersion and timing, and transient search pipelines. We describe the design and implementation of the Bifrost framework and demonstrate its use as the backbone in the correlation and beamforming back end of the Long Wavelength Array station in the Sevilleta National Wildlife Refuge, NM., Comment: 25 pages, 13 figures, submitted to JAI. For the code, see https://github.com/ledatelescope/bifrost

Published

2017

8. Introduction to the Special Issue on Digital Signal Processing in Radio Astronomy

Author

Price, Danny C., Kocz, Jonathon, Bailes, Matthew, and Greenhill, Lincoln J.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

Advances in astronomy are intimately linked to advances in digital signal processing (DSP). This special issue is focused upon advances in DSP within radio astronomy. The trend within that community is to use off-the-shelf digital hardware where possible and leverage advances in high performance computing. In particular, graphics processing units (GPUs) and field programmable gate arrays (FPGAs) are being used in place of application-specific circuits (ASICs); high-speed Ethernet and Infiniband are being used for interconnect in place of custom backplanes. Further, to lower hurdles in digital engineering, communities have designed and released general-purpose FPGA-based DSP systems, such as the CASPER ROACH board, ASTRON Uniboard and CSIRO Redback board. In this introductory article, we give a brief historical overview, a summary of recent trends, and provide an outlook on future directions., Comment: Introduction to the Journal of Astronomical Instrumentation (JAI) special issue on Digital Signal Processing in Radio Astronomy, http://www.worldscientific.com/toc/jai/05/04

Published

2017

9. Wavelet-Based Characterization of Small-Scale Solar Emission Features at Low Radio Frequencies

Author

Suresh, Akshay, Sharma, Rohit, Oberoi, Divya, Das, Srijan B., Pankratius, Victor, Timar, Brian, Lonsdale, Colin J., Bowman, Judd D., Briggs, Frank, Cappallo, Roger J., Corey, Brian E., Deshpande, Avinash A., Emrich, David, Goeke, Robert, Greenhill, Lincoln J., Hazelton, Bryna J., Johnston-Hollitt, Melanie, Kaplan, David L., Kasper, Justin C., Kratzenberg, Eric, Lynch, Mervyn J., McWhirter, S. Russell, Mitchell, Daniel A., Morales, Miguel F., Morgan, Edward, Ord, Stephen M., Prabu, Thiagaraj, Rogers, Alan E. E., Roshi, Anish, Shankar, N. Udaya, Srivani, K. S., Subrahmanyan, Ravi, Tingay, Steven J., Waterson, Mark, Wayth, Randall B., Webster, Rachel L., Whitney, Alan R., Williams, Andrew, and Williams, Christopher L.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Low radio frequency solar observations using the Murchison Widefield Array have recently revealed the presence of numerous weak, short-lived and narrow-band emission features, even during moderately quiet solar conditions. These non-thermal features occur at rates of many thousands per hour in the 30.72 MHz observing bandwidth, and hence, necessarily require an automated approach for their detection and characterization. Here, we employ continuous wavelet transform using a mother Ricker wavelet for feature detection from the dynamic spectrum. We establish the efficacy of this approach and present the first statistically robust characterization of the properties of these features. In particular, we examine distributions of their peak flux densities, spectral spans, temporal spans and peak frequencies. We can reliably detect features weaker than 1 SFU, making them, to the best of our knowledge, the weakest bursts reported in literature. The distribution of their peak flux densities follows a power law with an index of -2.23 in the 12-155 SFU range, implying that they can provide an energetically significant contribution to coronal and chromospheric heating. These features typically last for 1-2 seconds and possess bandwidths of about 4-5 MHz. Their occurrence rate remains fairly flat in the 140-210 MHz frequency range. At the time resolution of the data, they appear as stationary bursts, exhibiting no perceptible frequency drift. These features also appear to ride on a broadband background continuum, hinting at the likelihood of them being weak type-I bursts., Comment: 15 pages, 14 figures, Accepted for publication in ApJ

Published

2016

10. A Digital-Receiver for the Murchison Widefield Array

Author

Prabu, Thiagaraj, Srivani, K. S., Roshi, D. Anish, Kamini, P. A., Madhavi, S., Emrich, David, Crosse, Brian, Williams, Andrew J., Waterson, Mark, Deshpande, Avinash A., Shankar, N. Udaya, Subrahmanyan, Ravi, Briggs, Frank H., Goeke, Robert F., Tingay, Steven J., Johnston-Hollitt, Melanie, R, Gopalakrishna M, Morgan, Edward H., Pathikulangara, Joseph, Bunton, John D., Hampson, Grant, Williams, Christopher, Ord, Stephen M., Wayth, Randall B., Kumar, Deepak, Morales, Miguel F., deSouza, Ludi, Kratzenberg, Eric, Pallot, D., McWhirter, Russell, Hazelton, Bryna J., Arcus, Wayne, Barnes, David G., Bernardi, Gianni, Booler, T., Bowman, Judd D., Cappallo, Roger J., Corey, Brian E., Greenhill, Lincoln J., Herne, David, Hewitt, Jacqueline N., Kaplan, David L., Kasper, Justin C., Kincaid, Barton B., Koenig, Ronald, Lonsdale, Colin J., Lynch, Mervyn J., Mitchell, Daniel A., Oberoi, Divya, Remillard, Ronald A., Rogers, Alan E., Salah, Joseph E., Sault, Robert J., Stevens, Jamie B., Tremblay, S. E., Webster, Rachel L., Whitney, Alan R., and Wyithe, Stuart B.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

An FPGA-based digital-receiver has been developed for a low-frequency imaging radio interferometer, the Murchison Widefield Array (MWA). The MWA, located at the Murchison Radio-astronomy Observatory (MRO) in Western Australia, consists of 128 dual-polarized aperture-array elements (tiles) operating between 80 and 300\,MHz, with a total processed bandwidth of 30.72 MHz for each polarization. Radio-frequency signals from the tiles are amplified and band limited using analog signal conditioning units; sampled and channelized by digital-receivers. The signals from eight tiles are processed by a single digital-receiver, thus requiring 16 digital-receivers for the MWA. The main function of the digital-receivers is to digitize the broad-band signals from each tile, channelize them to form the sky-band, and transport it through optical fibers to a centrally located correlator for further processing. The digital-receiver firmware also implements functions to measure the signal power, perform power equalization across the band, detect interference-like events, and invoke diagnostic modes. The digital-receiver is controlled by high-level programs running on a single-board-computer. This paper presents the digital-receiver design, implementation, current status, and plans for future enhancements., Comment: 14 pages, 7 figures

Published

2015

11. Measuring receiver noise parameters for global 21-cm experiments

Author

Price, Danny C., primary, Tong, Cheuk-Yu Edward, additional, Greenhill, Lincoln J., additional, Patra, Nipanjana, additional, and Sutinjo, Adrian T., additional

Published

2023

12. Measuring Noise Parameters Using an Open, Short, Load, and λ/8-Length Cable as Source Impedances

Author

Price, Danny C., primary, Tong, Cheuk-Yu Edward, additional, Sutinjo, Adrian T., additional, Greenhill, Lincoln J., additional, and Patra, Nipanjana, additional

Published

2023

13. Imaging Spectroscopy of CME-associated Solar Radio Bursts using OVRO-LWA

Author

Chhabra, Sherry, primary, Gary, Dale E., additional, Hallinan, Gregg, additional, Anderson, Marin M., additional, Chen, Bin, additional, Greenhill, Lincoln J., additional, and Price, Danny C., additional

Published

2021

14. An Accreting, Anomalously Low-mass Black Hole at the Center of Low-mass Galaxy IC 750

Author

Zaw, Ingyin, primary, Rosenthal, Michael J., additional, Katkov, Ivan Yu., additional, Gelfand, Joseph D., additional, Chen, Yan-Ping, additional, Greenhill, Lincoln J., additional, Brisken, Walter, additional, and Noori, Hind Al, additional

Published

2020

15. Spectral Energy Distribution and Radio Halo of NGC 253 at Low Radio Frequencies

Author

Haystack Observatory, MIT Kavli Institute for Astrophysics and Space Research, Dillon, Joshua Shane, Ewall-Wice, Aaron Michael, Feng, Lu, Greenhill, Lincoln J, Hewitt, Jacqueline N, Loeb, A., Neben, Abraham Richard, Tegmark, Max Erik, Morgan, Edward H, Williams, Christopher Leigh, Kapińska, A. D., Staveley-Smith, L., Crocker, R., Meurer, G. R., Bhandari, S., Hurley-Walker, N., Offringa, A. R., Hanish, D. J., Seymour, N., Ekers, R. D., Bell, M. E., Callingham, J. R., Dwarakanath, K. S., For, B.-Q., Gaensler, B. M., Hancock, P. J., Hindson, L., Johnston-Hollitt, M., Lenc, E., McKinley, B., Morgan, J., Procopio, P., Wayth, R. B., Wu, C., Zheng, Q., Barry, N., Beardsley, A. P., Bowman, J. D., Briggs, F., Carroll, P., Hazelton, B. J., Jacobs, D. J., Kim, H.-S., Kittiwisit, P., Line, J., Mitchell, D. A., Morales, M. F., Paul, S., Pindor, B., Pober, J. C., Riding, J., Sethi, S. K., Shankar, N. Udaya, Subrahmanyan, R., Sullivan, I. S., Thyagarajan, N., Tingay, S. J., Trott, C. M., Webster, R. L., Wyithe, S. B., Cappallo, R. J., Deshpande, A. A., Kaplan, D. L., Lonsdale, C. J., McWhirter, S. R., Oberoi, D., Ord, S. M., Prabu, T., Srivani, K. S., Williams, A., Greenhill, Lincoln J., Haystack Observatory, MIT Kavli Institute for Astrophysics and Space Research, Dillon, Joshua Shane, Ewall-Wice, Aaron Michael, Feng, Lu, Greenhill, Lincoln J, Hewitt, Jacqueline N, Loeb, A., Neben, Abraham Richard, Tegmark, Max Erik, Morgan, Edward H, Williams, Christopher Leigh, Kapińska, A. D., Staveley-Smith, L., Crocker, R., Meurer, G. R., Bhandari, S., Hurley-Walker, N., Offringa, A. R., Hanish, D. J., Seymour, N., Ekers, R. D., Bell, M. E., Callingham, J. R., Dwarakanath, K. S., For, B.-Q., Gaensler, B. M., Hancock, P. J., Hindson, L., Johnston-Hollitt, M., Lenc, E., McKinley, B., Morgan, J., Procopio, P., Wayth, R. B., Wu, C., Zheng, Q., Barry, N., Beardsley, A. P., Bowman, J. D., Briggs, F., Carroll, P., Hazelton, B. J., Jacobs, D. J., Kim, H.-S., Kittiwisit, P., Line, J., Mitchell, D. A., Morales, M. F., Paul, S., Pindor, B., Pober, J. C., Riding, J., Sethi, S. K., Shankar, N. Udaya, Subrahmanyan, R., Sullivan, I. S., Thyagarajan, N., Tingay, S. J., Trott, C. M., Webster, R. L., Wyithe, S. B., Cappallo, R. J., Deshpande, A. A., Kaplan, D. L., Lonsdale, C. J., McWhirter, S. R., Oberoi, D., Ord, S. M., Prabu, T., Srivani, K. S., Williams, A., and Greenhill, Lincoln J.

Abstract

We present new radio continuum observations of NGC 253 from the Murchison Widefield Array at frequencies between 76 and 227 MHz. We model the broadband radio spectral energy distribution for the total flux density of NGC 253 between 76 MHz and 11 GHz. The spectrum is best described as a sum of a central starburst and extended emission. The central component, corresponding to the inner 500 pc of the starburst region of the galaxy, is best modeled as an internally free–free absorbed synchrotron plasma, with a turnover frequency around 230 MHz. The extended emission component of the spectrum of NGC 253 is best described as a synchrotron emission flattening at low radio frequencies. We find that 34% of the extended emission (outside the central starburst region) at 1 GHz becomes partially absorbed at low radio frequencies. Most of this flattening occurs in the western region of the southeast halo, and may be indicative of synchrotron self-absorption of shock-reaccelerated electrons or an intrinsic low-energy cutoff of the electron distribution. Furthermore, we detect the large-scale synchrotron radio halo of NGC 253 in our radio images. At 154–231 MHz the halo displays the well known X-shaped/horn-like structure, and extends out to ~8 kpc in the z-direction (from the major axis).

Published

2017

16. The Radio Sky at Meter Wavelengths: m-mode Analysis Imaging with the OVRO-LWA

Author

Eastwood, Michael W., Anderson, Marin M., Monroe, Ryan M., Hallinan, Gregg, Barsdell, Benjamin R., Bourke, Stephen A., Clark, M. A., Ellingson, Steven W., Dowell, Jayce, Garsden, Hugh, Greenhill, Lincoln J., Hartman, Jacob M., Kocz, Jonathon, Lazio, T. Joseph W., Price, Danny C., Schinzel, Frank K., Taylor, Gregory B., Vedantham, Harish K., Wang, Yuankun, and Woody, David P.

Subjects

Astrophysics::Instrumentation and Methods for Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics::Galaxy Astrophysics

Abstract

A host of new low-frequency radio telescopes seek to measure the 21 cm transition of neutral hydrogen from the early universe. These telescopes have the potential to directly probe star and galaxy formation at redshifts 20 ≳ z ≳ 7 but are limited by the dynamic range they can achieve against foreground sources of low-frequency radio emission. Consequently, there is a growing demand for modern, high-fidelity maps of the sky at frequencies below 200 MHz for use in foreground modeling and removal. We describe a new wide-field imaging technique for drift-scanning interferometers: Tikhonov-regularized m-mode analysis imaging. This technique constructs images of the entire sky in a single synthesis imaging step with exact treatment of wide-field effects. We describe how the CLEAN algorithm can be adapted to deconvolve maps generated by m-mode analysis imaging. We demonstrate Tikhonov-regularized m-mode analysis imaging using the Owens Valley Radio Observatory Long Wavelength Array (OVRO-LWA) by generating eight new maps of the sky north of δ = −30° with 15' angular resolution at frequencies evenly spaced between 36.528 and 73.152 MHz and ~800 mJy beam^(−1) thermal noise. These maps are a 10-fold improvement in angular resolution over existing full-sky maps at comparable frequencies, which have angular resolutions ≥2°. Each map is constructed exclusively from interferometric observations and does not represent the globally averaged sky brightness. Future improvements will incorporate total power radiometry, improved thermal noise, and improved angular resolution due to the planned expansion of the OVRO-LWA to 2.6 km baselines. These maps serve as a first step on the path to the use of more sophisticated foreground filters in 21 cm cosmology incorporating the measured angular and frequency structure of all foreground contaminants.

Published

2018

17. The 21 cm Power Spectrum from the Cosmic Dawn: First Results from the OVRO-LWA

Author

Eastwood, Michael W., primary, Anderson, Marin M., additional, Monroe, Ryan M., additional, Hallinan, Gregg, additional, Catha, Morgan, additional, Dowell, Jayce, additional, Garsden, Hugh, additional, Greenhill, Lincoln J., additional, Hicks, Brian C., additional, Kocz, Jonathon, additional, Price, Danny C., additional, Schinzel, Frank K., additional, Vedantham, Harish, additional, and Wang, Yuankun, additional

Published

2019

18. Bifrost: a Modular Python/C++ Framework for Development of High-Throughput Data Processing Pipelines

Author

Cranmer, Miles, Barsdell, Benjamin R., Price, Danny C., Garsden, Hugh, Taylor, Gregory B., Dowell, Jayce, Schinzel, Frank, and Greenhill, Lincoln J.

Published

2017

19. A Simultaneous Search for Prompt Radio Emission Associated with the Short GRB 170112A Using the All-sky Imaging Capability of the OVRO-LWA

Author

Anderson, Marin M., primary, Hallinan, Gregg, additional, Eastwood, Michael W., additional, Monroe, Ryan M., additional, Vedantham, Harish K., additional, Bourke, Stephen, additional, Greenhill, Lincoln J., additional, Kocz, Jonathon, additional, W. Lazio, T. Joseph, additional, Price, Danny C., additional, Schinzel, Frank K., additional, Wang, Yuankun, additional, and Woody, David P., additional

Published

2018

20. The Radio Sky at Meter Wavelengths: m-mode Analysis Imaging with the OVRO-LWA

Author

Eastwood, Michael W., primary, Anderson, Marin M., additional, Monroe, Ryan M., additional, Hallinan, Gregg, additional, Barsdell, Benjamin R., additional, Bourke, Stephen A., additional, Clark, M. A., additional, Ellingson, Steven W., additional, Dowell, Jayce, additional, Garsden, Hugh, additional, Greenhill, Lincoln J., additional, Hartman, Jacob M., additional, Kocz, Jonathon, additional, Lazio, T. Joseph W., additional, Price, Danny C., additional, Schinzel, Frank K., additional, Taylor, Gregory B., additional, Vedantham, Harish K., additional, Wang, Yuankun, additional, and Woody, David P., additional

Published

2018

21. Bifrost: A Python/C++ Framework for High-Throughput Stream Processing in Astronomy

Author

Cranmer, Miles D., primary, Barsdell, Benjamin R., additional, Price, Danny C., additional, Dowell, Jayce, additional, Garsden, Hugh, additional, Dike, Veronica, additional, Eftekhari, Tarraneh, additional, Hegedus, Alexander M., additional, Malins, Joseph, additional, Obenberger, Kenneth S., additional, Schinzel, Frank, additional, Stovall, Kevin, additional, Taylor, Gregory B., additional, and Greenhill, Lincoln J., additional

Published

2017

22. Aktif Gökada Çekirdeklerindeki Yüksek Kütleli ve Eğrilikli Maser Disklerin Evrimi için Simülasyonlar

Author

ULUBAY, Ayşe and GREENHILL, Lincoln J.

Subjects

galaxies: active,galaxies: structure,numerical methods: simulations, Astronomi ve Astrofizik, Astronomy and Astrophysics

Abstract

Pek çok aktif gökada çekirdeği, maser ışınımı sayesinde dolaylı olarak gözlenebilen birer kütle aktarım diski barındırmaktadır. En çok çalışılan sistem NGC4258'in maser diski neredeyse Keplersel dönme gösterse de, Circinus gibi kimi sistemlerin disklerinin yüksek kütleli ve eğrilikli olduğu düşünülmektedir. Bu çalışmada Circinus benzeri disklerin yörünge davranışları incelenmiştir. Farklı yüzey yoğunluğuna ve radyal genişliğe sahip diskler için simülasyonlar yapılmış, kararlılıkları araştırılmıştır. Yeni geliştirdiğimiz bir ışın izleme kodu ile maser haritaları ve konum-hız grafikleri oluşturulmuştur. Bulgularımız gözlenen disklerin bir kısmının dağılmakta olabileceğini göstermektedir.

Published

2015

23. A FEATURE MOVIE OF SiO EMISSION 20-100 AU FROM THE MASSIVE YOUNG STELLAR OBJECT ORION SOURCE I

Author

Haystack Observatory, MIT Kavli Institute for Astrophysics and Space Research, Matthews, Lynn D., Greenhill, Lincoln J., Goddi, C., Chandler, C. J., Humphreys, E. M. L., Kunz, M. W., Haystack Observatory, MIT Kavli Institute for Astrophysics and Space Research, Matthews, Lynn D., Greenhill, Lincoln J., Goddi, C., Chandler, C. J., Humphreys, E. M. L., and Kunz, M. W.

Abstract

We present multi-epoch Very Long Baseline Array imaging of the [superscript 28]SiO v = 1 and v = 2, J = 1-0 maser emission toward the massive young stellar object (YSO) Orion Source I. Both SiO transitions were observed simultaneously with an angular resolution of ~0.5 mas (~0.2 AU for d = 414 pc) and a spectral resolution of ~0.2 km s[superscript –1]. Here we explore the global properties and kinematics of the emission through two 19-epoch animated movies spanning 21 months (from 2001 March 19 to 2002 December 10). These movies provide the most detailed view to date of the dynamics and temporal evolution of molecular material within ~20-100 AU of a massive (gsim8 M ☉) YSO. As in previous studies, we find that the bulk of the SiO masers surrounding Source I lie in an X-shaped locus; the emission in the south and east arms is predominantly blueshifted, and emission in the north and west is predominantly redshifted. In addition, bridges of intermediate-velocity emission are observed connecting the red and blue sides of the emission distribution. We have measured proper motions of over 1000 individual maser features and found that these motions are characterized by a combination of radially outward migrations along the four main maser-emitting arms and motions tangent to the intermediate-velocity bridges. We interpret the SiO masers as arising from a wide-angle bipolar wind emanating from a rotating, edge-on disk. The detection of maser features along extended, curved filaments suggests that magnetic fields may play a role in launching and/or shaping the wind. Our observations appear to support a picture in which stars with masses as high as at least 8 M ☉ form via disk-mediated accretion. However, we cannot yet rule out that the Source I disk may have been formed or altered following a recent close encounter., National Science Foundation (U.S.) (NSF grant 0507478), Smithsonian Astrophysical Observatory (Visiting Scientist appointment)

Published

2015

24. UNVEILING SOURCES OF HEATING IN THE VICINITY OF THE ORION BN/KL HOT CORE AS TRACED BY HIGHLY EXCITED INVERSION TRANSITIONS OF AMMONIA

Author

Haystack Observatory, Matthews, Lynn D., Goddi, C., Greenhill, Lincoln J., Humphreys, E. M. L., Chandler, C. J., Haystack Observatory, Matthews, Lynn D., Goddi, C., Greenhill, Lincoln J., Humphreys, E. M. L., and Chandler, C. J.

Abstract

Using the Expanded Very Large Array, we have mapped the vicinity of the Orion BN/KL Hot Core with subarcsecond angular resolution in seven metastable inversion transitions of ammonia (NH[subscript 3]): (J, K) = (6,6) to (12,12). This emission comes from levels up to 1500 K above the ground state, enabling identification of source(s) responsible for heating the region. We used this multi-transition data set to produce images of the rotational/kinetic temperature (T rot/T kin) and the column density N col of NH[subscript 3] for ortho and para species separately and on a position-by-position basis. We find T rot and N col in the range 160-490 K and (1-4) × 10[superscript 17] cm[superscript –2], respectively. Our spatially resolved images show that the highest (column) density and hottest gas is found in a northeast-southwest elongated ridge to the southeast of Source I. We have also measured the ortho-para ratio of ammonia, estimated to vary in the range 0.9-1.6. Enhancement of ortho with respect to para and the offset of hot NH3 emission peaks from known (proto)stellar sources provide evidence that the NH3 molecules have been released from dust grains into the gas phase through the passage of shocks and not by stellar radiation. We propose that the combined effect of Source I's proper motion and its low-velocity outflow impinging on a pre-existing dense medium is responsible for the excitation of NH3 and the Orion Hot Core. Finally, we found for the first time evidence of a slow (~5 km s[superscript –1]) and compact (~1000 AU) outflow toward IRc7., National Science Foundation (U.S.) (AST 0507478)

Published

2015

25. A digital-receiver for the MurchisonWidefield Array

Author

Prabu, Thiagaraj, primary, Srivani, K. S., additional, Roshi, D. Anish, additional, Kamini, P. A., additional, Madhavi, S., additional, Emrich, David, additional, Crosse, Brian, additional, Williams, Andrew J., additional, Waterson, Mark, additional, Deshpande, Avinash A., additional, Shankar, N. Udaya, additional, Subrahmanyan, Ravi, additional, Briggs, Frank H., additional, Goeke, Robert F., additional, Tingay, Steven J., additional, Johnston-Hollitt, Melanie, additional, R, Gopalakrishna M, additional, Morgan, Edward H., additional, Pathikulangara, Joseph, additional, Bunton, John D., additional, Hampson, Grant, additional, Williams, Christopher, additional, Ord, Stephen M., additional, Wayth, Randall B., additional, Kumar, Deepak, additional, Morales, Miguel F., additional, deSouza, Ludi, additional, Kratzenberg, Eric, additional, Pallot, D., additional, McWhirter, Russell, additional, Hazelton, Bryna J., additional, Arcus, Wayne, additional, Barnes, David G., additional, Bernardi, Gianni, additional, Booler, T., additional, Bowman, Judd D., additional, Cappallo, Roger J., additional, Corey, Brian E., additional, Greenhill, Lincoln J., additional, Herne, David, additional, Hewitt, Jacqueline N., additional, Kaplan, David L., additional, Kasper, Justin C., additional, Kincaid, Barton B., additional, Koenig, Ronald, additional, Lonsdale, Colin J., additional, Lynch, Mervyn J., additional, Mitchell, Daniel A., additional, Oberoi, Divya, additional, Remillard, Ronald A., additional, Rogers, Alan E., additional, Salah, Joseph E., additional, Sault, Robert J., additional, Stevens, Jamie B., additional, Tremblay, S., additional, Webster, Rachel L., additional, Whitney, Alan R., additional, and Wyithe, Stuart B., additional

Published

2015

26. Is HDF5 a Good Format to Replace UVFITS?

Author

Price, Danny C., Barsdell, Benjamin R., and Greenhill, Lincoln J.

Published

2015

27. Bifrost: A Python/C++Framework for High-Throughput Stream Processing in Astronomy

Author

Cranmer, Miles D., Barsdell, Benjamin R., Price, Danny C., Dowell, Jayce, Garsden, Hugh, Dike, Veronica, Eftekhari, Tarraneh, Hegedus, Alexander M., Malins, Joseph, Obenberger, Kenneth S., Schinzel, Frank, Stovall, Kevin, Taylor, Gregory B., and Greenhill, Lincoln J.

Abstract

Radio astronomy observatories with high throughput back end instruments require real-time data processing. While computing hardware continues to advance rapidly, development of real-time processing pipelines remains difficult and time-consuming, which can limit scientific productivity. Motivated by this, we have developed Bifrost: an open-source software framework for rapid pipeline development.(a)Bifrost combines a high-level Python interface with highly efficient reconfigurable data transport and a library of computing blocks for CPU and GPU processing. The framework is generalizable, but initially it emphasizes the needs of high-throughput radio astronomy pipelines, such as the ability to process data buffers as if they were continuous streams, the capacity to partition processing into distinct data sequences (e.g. separate observations), and the ability to extract specific intervals from buffered data. Computing blocks in the library are designed for applications such as interferometry, pulsar dedispersion and timing, and transient search pipelines. We describe the design and implementation of the Bifrost framework and demonstrate its use as the backbone in the correlation and beamforming back end of the Long Wavelength Array (LWA) station in the Sevilleta National Wildlife Refuge, NM.

Published

2017