Your search keyword '"Dillon, Joshua"' showing total 241 results

201. Mapmaking for precision 21 cm cosmology

Author

Massachusetts Institute of Technology. Department of Physics, MIT Kavli Institute for Astrophysics and Space Research, Dillon, Joshua Shane, Tegmark, Max Erik, Ewall-Wice, Aaron Michael, Hewitt, Jacqueline N., Neben, Abraham Richard, Zheng, Haoxuan, Liu, Adrian Chi-Yan, Morales, Miguel F., Parsons, Aaron R., Zheng, Haoxuan, Ph. D. Massachusetts Institute of Technology, Massachusetts Institute of Technology. Department of Physics, MIT Kavli Institute for Astrophysics and Space Research, Dillon, Joshua Shane, Tegmark, Max Erik, Ewall-Wice, Aaron Michael, Hewitt, Jacqueline N., Neben, Abraham Richard, Zheng, Haoxuan, Liu, Adrian Chi-Yan, Morales, Miguel F., Parsons, Aaron R., and Zheng, Haoxuan, Ph. D. Massachusetts Institute of Technology

Abstract

In order to study the “Cosmic Dawn” and the Epoch of Reionization with 21 cm tomography, we need to statistically separate the cosmological signal from foregrounds known to be orders of magnitude brighter. Over the last few years, we have learned much about the role our telescopes play in creating a putatively foreground-free region called the “EoR window.” In this work, we examine how an interferometer’s effects can be taken into account in a way that allows for the rigorous estimation of 21 cm power spectra from interferometric maps while mitigating foreground contamination and thus increasing sensitivity. This requires a precise understanding of the statistical relationship between the maps we make and the underlying true sky. While some of these calculations would be computationally infeasible if performed exactly, we explore several well-controlled approximations that make mapmaking and the calculation of map statistics much faster, especially for compact and highly redundant interferometers designed specifically for 21 cm cosmology. We demonstrate the utility of these methods and the parametrized trade-offs between accuracy and speed using one such telescope, the upcoming Hydrogen Epoch of Reionization Array, as a case study., National Science Foundation (U.S.) (Grant AST-0457585), National Science Foundation (U.S.) (Grant AST-0821321), National Science Foundation (U.S.) (Grant AST-0804508), National Science Foundation (U.S.) (Grant AST-1105835), National Science Foundation (U.S.) (Grant AST-1125558), National Science Foundation (U.S.) (Grant AST-1129258), National Science Foundation (U.S.) (Grant AST-1410484), National Science Foundation (U.S.) (Grant AST-1411622), Mount Cuba Astronomical Association, MIT School of Science, Marble Astrophysics Fund

Published

2015

202. The Low-Frequency Environment of the Murchison Widefield Array: Radio-Frequency Interference Analysis and Mitigation

Author

Haystack Observatory, MIT Kavli Institute for Astrophysics and Space Research, Cappallo, Roger J., Lonsdale, Colin John, McWhirter, Stephen R., Dillon, Joshua Shane, Ewall-Wice, Aaron Michael, Feng, Lu, Hewitt, Jacqueline N., Morgan, Edward H., Neben, Abraham Richard, Tegmark, Max Erik, Williams, Christopher Leigh, Cappallo, Roger J, Hewitt, Jacqueline N, Morgan, Edward H, Haystack Observatory, MIT Kavli Institute for Astrophysics and Space Research, Cappallo, Roger J., Lonsdale, Colin John, McWhirter, Stephen R., Dillon, Joshua Shane, Ewall-Wice, Aaron Michael, Feng, Lu, Hewitt, Jacqueline N., Morgan, Edward H., Neben, Abraham Richard, Tegmark, Max Erik, Williams, Christopher Leigh, Cappallo, Roger J, Hewitt, Jacqueline N, and Morgan, Edward H

Abstract

The Murchison Widefield Array is a new low-frequency interferometric radio telescope built in Western Australia at one of the locations of the future Square Kilometre Array. We describe the automated radio-frequency interference detection strategy implemented for the Murchison Widefield Array, which is based on the aoflagger platform, and present 72–231 MHz radio-frequency interference statistics from 10 observing nights. Radio-frequency interference detection removes 1.1% of the data. Radio-frequency interference from digital TV is observed 3% of the time due to occasional ionospheric or atmospheric propagation. After radio-frequency interference detection and excision, almost all data can be calibrated and imaged without further radio-frequency interference mitigation efforts, including observations within the FM and digital TV bands. The results are compared to a previously published Low-Frequency Array radio-frequency interference survey. The remote location of the Murchison Widefield Array results in a substantially cleaner radio-frequency interference environment compared to Low-Frequency Array’s radio environment, but adequate detection of radio-frequency interference is still required before data can be analysed. We include specific recommendations designed to make the Square Kilometre Array more robust to radio-frequency interference, including: the availability of sufficient computing power for radio-frequency interference detection; accounting for radio-frequency interference in the receiver design; a smooth band-pass response; and the capability of radio-frequency interference detection at high time and frequency resolution (second and kHz-scale respectively).

Published

2015

203. FOREGROUNDS IN WIDE-FIELD REDSHIFTED 21 cm POWER SPECTRA

Author

Haystack Observatory, Massachusetts Institute of Technology. Department of Physics, MIT Kavli Institute for Astrophysics and Space Research, Cappallo, Roger J., Corey, Brian E., de Oliveira-Costa, Angelica, Dillon, Joshua Shane, Ewall-Wice, Aaron Michael, Feng, L., Goeke, Robert F., Hewitt, Jacqueline N., Kratzenberg, Eric W., Lonsdale, Colin John, McWhirter, Stephen R., Morgan, Edward H., Neben, Abraham Richard, Rogers, Alan E. E., Tegmark, Max Erik, Whitney, Alan R., Williams, Christopher Leigh, Haystack Observatory, Massachusetts Institute of Technology. Department of Physics, MIT Kavli Institute for Astrophysics and Space Research, Cappallo, Roger J., Corey, Brian E., de Oliveira-Costa, Angelica, Dillon, Joshua Shane, Ewall-Wice, Aaron Michael, Feng, L., Goeke, Robert F., Hewitt, Jacqueline N., Kratzenberg, Eric W., Lonsdale, Colin John, McWhirter, Stephen R., Morgan, Edward H., Neben, Abraham Richard, Rogers, Alan E. E., Tegmark, Max Erik, Whitney, Alan R., and Williams, Christopher Leigh

Abstract

Detection of 21 cm emission of H i from the epoch of reionization, at redshifts z > 6, is limited primarily by foreground emission. We investigate the signatures of wide-field measurements and an all-sky foreground model using the delay spectrum technique that maps the measurements to foreground object locations through signal delays between antenna pairs. We demonstrate interferometric measurements are inherently sensitive to all scales, including the largest angular scales, owing to the nature of wide-field measurements. These wide-field effects are generic to all observations but antenna shapes impact their amplitudes substantially. A dish-shaped antenna yields the most desirable features from a foreground contamination viewpoint, relative to a dipole or a phased array. Comparing data from recent Murchison Widefield Array observations, we demonstrate that the foreground signatures that have the largest impact on the H i signal arise from power received far away from the primary field of view. We identify diffuse emission near the horizon as a significant contributing factor, even on wide antenna spacings that usually represent structures on small scales. For signals entering through the primary field of view, compact emission dominates the foreground contamination. These two mechanisms imprint a characteristic pitchfork signature on the "foreground wedge" in Fourier delay space. Based on these results, we propose that selective down-weighting of data based on antenna spacing and time can mitigate foreground contamination substantially by a factor of ~100 with negligible loss of sensitivity., National Science Foundation (U.S.) (Award AST-1109257)

Published

2015

204. CONFIRMATION OF WIDE-FIELD SIGNATURES IN REDSHIFTED 21 cm POWER SPECTRA

Author

Haystack Observatory, Lincoln Laboratory, Massachusetts Institute of Technology. Department of Physics, MIT Kavli Institute for Astrophysics and Space Research, Cappallo, Roger J., de Oliveira-Costa, Angelica, Dillon, Joshua Shane, Ewall-Wice, Aaron Michael, Feng, Lu, Hewitt, Jacqueline N., Lonsdale, Colin John, McWhirter, Stephen R., Morgan, Edward H., Neben, Abraham Richard, Tegmark, Max Erik, Williams, Christopher Leigh, Cappallo, Roger J, de Oliveira Costa, Angelica, Hewitt, Jacqueline N, Morgan, Edward H, Haystack Observatory, Lincoln Laboratory, Massachusetts Institute of Technology. Department of Physics, MIT Kavli Institute for Astrophysics and Space Research, Cappallo, Roger J., de Oliveira-Costa, Angelica, Dillon, Joshua Shane, Ewall-Wice, Aaron Michael, Feng, Lu, Hewitt, Jacqueline N., Lonsdale, Colin John, McWhirter, Stephen R., Morgan, Edward H., Neben, Abraham Richard, Tegmark, Max Erik, Williams, Christopher Leigh, Cappallo, Roger J, de Oliveira Costa, Angelica, Hewitt, Jacqueline N, and Morgan, Edward H

Abstract

We confirm our recent prediction of the "pitchfork" foreground signature in power spectra of high-redshift 21 cm measurements where the interferometer is sensitive to large-scale structure on all baselines. This is due to the inherent response of a wide-field instrument and is characterized by enhanced power from foreground emission in Fourier modes adjacent to those considered to be the most sensitive to the cosmological H i signal. In our recent paper, many signatures from the simulation that predicted this feature were validated against Murchison Widefield Array (MWA) data, but this key pitchfork signature was close to the noise level. In this paper, we improve the data sensitivity through the coherent averaging of 12 independent snapshots with identical instrument settings and provide the first confirmation of the prediction with a signal-to-noise ratio >10. This wide-field effect can be mitigated by careful antenna designs that suppress sensitivity near the horizon. Simple models for antenna apertures that have been proposed for future instruments such as the Hydrogen Epoch of Reionization Array and the Square Kilometre Array indicate they should suppress foreground leakage from the pitchfork by ~40 dB relative to the MWA and significantly increase the likelihood of cosmological signal detection in these critical Fourier modes in the three-dimensional power spectrum., National Science Foundation (U.S.) (Award AST-1109257)

Published

2015

205. CONFIRMATION OF WIDE-FIELD SIGNATURES IN REDSHIFTED 21 cm POWER SPECTRA

Author

Thyagarajan, Nithyanandan, primary, Jacobs, Daniel C., additional, Bowman, Judd D., additional, Barry, N., additional, Beardsley, A. P., additional, Bernardi, G., additional, Briggs, F., additional, Cappallo, R. J., additional, Carroll, P., additional, Deshpande, A. A., additional, Oliveira-Costa, A. de, additional, Dillon, Joshua S., additional, Ewall-Wice, A., additional, Feng, L., additional, Greenhill, L. J., additional, Hazelton, B. J., additional, Hernquist, L., additional, Hewitt, J. N., additional, Hurley-Walker, N., additional, Johnston-Hollitt, M., additional, Kaplan, D. L., additional, Kim, Han-Seek, additional, Kittiwisit, P., additional, Lenc, E., additional, Line, J., additional, Loeb, A., additional, Lonsdale, C. J., additional, McKinley, B., additional, McWhirter, S. R., additional, Mitchell, D. A., additional, Morales, M. F., additional, Morgan, E., additional, Neben, A. R., additional, Oberoi, D., additional, Offringa, A. R., additional, Ord, S. M., additional, Paul, Sourabh, additional, Pindor, B., additional, Pober, J. C., additional, Prabu, T., additional, Procopio, P., additional, Riding, J., additional, Shankar, N. Udaya, additional, Sethi, Shiv K., additional, Srivani, K. S., additional, Subrahmanyan, R., additional, Sullivan, I. S., additional, Tegmark, M., additional, Tingay, S. J., additional, Trott, C. M., additional, Wayth, R. B., additional, Webster, R. L., additional, Williams, A., additional, Williams, C. L., additional, and Wyithe, J. S. B., additional

Published

2015

206. Empirical covariance modeling for 21 cm power spectrum estimation: A method demonstration and new limits from early Murchison Widefield Array 128-tile data

Author

Dillon, Joshua S., primary, Neben, Abraham R., additional, Hewitt, Jacqueline N., additional, Tegmark, Max, additional, Barry, N., additional, Beardsley, A. P., additional, Bowman, J. D., additional, Briggs, F., additional, Carroll, P., additional, de Oliveira-Costa, A., additional, Ewall-Wice, A., additional, Feng, L., additional, Greenhill, L. J., additional, Hazelton, B. J., additional, Hernquist, L., additional, Hurley-Walker, N., additional, Jacobs, D. C., additional, Kim, H. S., additional, Kittiwisit, P., additional, Lenc, E., additional, Line, J., additional, Loeb, A., additional, McKinley, B., additional, Mitchell, D. A., additional, Morales, M. F., additional, Offringa, A. R., additional, Paul, S., additional, Pindor, B., additional, Pober, J. C., additional, Procopio, P., additional, Riding, J., additional, Sethi, S., additional, Shankar, N. Udaya, additional, Subrahmanyan, R., additional, Sullivan, I., additional, Thyagarajan, Nithyanandan, additional, Tingay, S. J., additional, Trott, C., additional, Wayth, R. B., additional, Webster, R. L., additional, Wyithe, S., additional, Bernardi, G., additional, Cappallo, R. J., additional, Deshpande, A. A., additional, Johnston-Hollitt, M., additional, Kaplan, D. L., additional, Lonsdale, C. J., additional, McWhirter, S. R., additional, Morgan, E., additional, Oberoi, D., additional, Ord, S. M., additional, Prabu, T., additional, Srivani, K. S., additional, Williams, A., additional, and Williams, C. L., additional

Published

2015

207. FOREGROUNDS IN WIDE-FIELD REDSHIFTED 21 cm POWER SPECTRA

Author

Thyagarajan, Nithyanandan, primary, Jacobs, Daniel C., additional, Bowman, Judd D., additional, Barry, N., additional, Beardsley, A. P., additional, Bernardi, G., additional, Briggs, F., additional, Cappallo, R. J., additional, Carroll, P., additional, Corey, B. E., additional, Oliveira-Costa, A. de, additional, Dillon, Joshua S., additional, Emrich, D., additional, Ewall-Wice, A., additional, Feng, L., additional, Goeke, R., additional, Greenhill, L. J., additional, Hazelton, B. J., additional, Hewitt, J. N., additional, Hurley-Walker, N., additional, Johnston-Hollitt, M., additional, Kaplan, D. L., additional, Kasper, J. C., additional, Kim, Han-Seek, additional, Kittiwisit, P., additional, Kratzenberg, E., additional, Lenc, E., additional, Line, J., additional, Loeb, A., additional, Lonsdale, C. J., additional, Lynch, M. J., additional, McKinley, B., additional, McWhirter, S. R., additional, Mitchell, D. A., additional, Morales, M. F., additional, Morgan, E., additional, Neben, A. R., additional, Oberoi, D., additional, Offringa, A. R., additional, Ord, S. M., additional, Paul, Sourabh, additional, Pindor, B., additional, Pober, J. C., additional, Prabu, T., additional, Procopio, P., additional, Riding, J., additional, Rogers, A. E. E., additional, Roshi, A., additional, Shankar, N. Udaya, additional, Sethi, Shiv K., additional, Srivani, K. S., additional, Subrahmanyan, R., additional, Sullivan, I. S., additional, Tegmark, M., additional, Tingay, S. J., additional, Trott, C. M., additional, Waterson, M., additional, Wayth, R. B., additional, Webster, R. L., additional, Whitney, A. R., additional, Williams, A., additional, Williams, C. L., additional, Wu, C., additional, and Wyithe, J. S. B., additional

Published

2015

208. Mapping our universe in 3D with MITEoR

Author

Massachusetts Institute of Technology. Department of Mathematics, Massachusetts Institute of Technology. Department of Physics, MIT Kavli Institute for Astrophysics and Space Research, Zheng, Haoxuan, Tegmark, Max Erik, Buza, Victor, Dillon, Joshua Shane, Gharibyan, Hrant, Kunz, Eben A., Liu, Adrian Chi-Yan, Losh, Jonathan L., Lutomirksi, Andy, Morrison, Scott D., Narayanan, Sruthi A., Perko, Ashley, Rosner, Devon, Sanchez, Nevada, Schutz, Katelin, Tribiano, Shana, Valdez, Michael, Zelko, Ioana, Zheng, Kevin, Ewall-Wice, Aaron Michael, Matejek, Michael Scott, Morgan, Edward H., Neben, Abraham Richard, Pan, Qinxuan, Penna, Robert, Su, Meng, Villasenor, Joel, Williams, Christopher Leigh, Yang, Hung-I, Zhu, Yan, Zheng, Haoxuan, Ph. D. Massachusetts Institute of Technology, Massachusetts Institute of Technology. Department of Mathematics, Massachusetts Institute of Technology. Department of Physics, MIT Kavli Institute for Astrophysics and Space Research, Zheng, Haoxuan, Tegmark, Max Erik, Buza, Victor, Dillon, Joshua Shane, Gharibyan, Hrant, Kunz, Eben A., Liu, Adrian Chi-Yan, Losh, Jonathan L., Lutomirksi, Andy, Morrison, Scott D., Narayanan, Sruthi A., Perko, Ashley, Rosner, Devon, Sanchez, Nevada, Schutz, Katelin, Tribiano, Shana, Valdez, Michael, Zelko, Ioana, Zheng, Kevin, Ewall-Wice, Aaron Michael, Matejek, Michael Scott, Morgan, Edward H., Neben, Abraham Richard, Pan, Qinxuan, Penna, Robert, Su, Meng, Villasenor, Joel, Williams, Christopher Leigh, Yang, Hung-I, Zhu, Yan, and Zheng, Haoxuan, Ph. D. Massachusetts Institute of Technology

Abstract

Mapping our universe in 3D by imaging the redshifted 21 cm line from neutral hydrogen has the potential to overtake the cosmic microwave background as our most powerful cosmological probe, because it can map a much larger volume of our Universe, shedding new light on the epoch of reionization, inflation, dark matter, dark energy, and neutrino masses. We report on MITEoR, a pathfinder low-frequency radio interferometer whose goal is to test technologies that greatly reduce the cost of such 3D mapping for a given sensitivity. MITEoR accomplishes this by using massive baseline redundancy both to enable automated precision calibration and to cut the correlator cost scaling from N[superscript 2] to N log N, where N is the number of antennas. The success of MITEoR with its 64 dual-polarization elements bodes well for the more ambitious HERA project, which incorporates many identical or similar technologies using an order of magnitude more antennas, each with dramatically larger collecting area., National Science Foundation (U.S.) (Grant AST-0908848), National Science Foundation (U.S.) (Grant AST-1105835), MIT Kavli Instrumentation Fund, Massachusetts Institute of Technology. Undergraduate Research Opportunities Program

Published

2014

209. Evidence for pericyte origin of TSC-associated renal angiomyolipomas and implications for angiotensin receptor inhibition therapy

Author

Siroky, Brian J., primary, Yin, Hong, additional, Dixon, Bradley P., additional, Reichert, Ryan J., additional, Hellmann, Anna R., additional, Ramkumar, Thiruvamoor, additional, Tsuchihashi, Zenta, additional, Bunni, Marlene, additional, Dillon, Joshua, additional, Bell, P. Darwin, additional, Sampson, Julian R., additional, and Bissler, John J., additional

Published

2014

210. Characterization of Renal Toxicity in Mice Administered the Marine Biotoxin Domoic Acid

Author

Funk, Jason A., primary, Janech, Michael G., additional, Dillon, Joshua C., additional, Bissler, John J., additional, Siroky, Brian J., additional, and Bell, P. Darwin, additional

Published

2014

211. ERRATUM: “WHAT NEXT-GENERATION 21 cm POWER SPECTRUM MEASUREMENTS CAN TEACH US ABOUT THE EPOCH OF REIONIZATION” (2014, ApJ, 782, 66)

Author

Pober, Jonathan C., primary, Liu, Adrian, additional, Dillon, Joshua S., additional, Aguirre, James E., additional, Bowman, Judd D., additional, Bradley, Richard F., additional, Carilli, Chris L., additional, DeBoer, David R., additional, Hewitt, Jacqueline N., additional, Jacobs, Daniel C., additional, McQuinn, Matthew, additional, Morales, Miguel F., additional, Parsons, Aaron R., additional, Tegmark, Max, additional, and Werthimer, Dan J., additional

Published

2014

212. WHAT NEXT-GENERATION 21 cm POWER SPECTRUM MEASUREMENTS CAN TEACH US ABOUT THE EPOCH OF REIONIZATION

Author

Pober, Jonathan C., primary, Liu, Adrian, additional, Dillon, Joshua S., additional, Aguirre, James E., additional, Bowman, Judd D., additional, Bradley, Richard F., additional, Carilli, Chris L., additional, DeBoer, David R., additional, Hewitt, Jacqueline N., additional, Jacobs, Daniel C., additional, McQuinn, Matthew, additional, Morales, Miguel F., additional, Parsons, Aaron R., additional, Tegmark, Max, additional, and Werthimer, Dan J., additional

Published

2014

213. Overcoming real-world obstacles in 21 cm power spectrum estimation: A method demonstration and results from early Murchison Widefield Array data

Author

Dillon, Joshua S., primary, Liu, Adrian, additional, Williams, Christopher L., additional, Hewitt, Jacqueline N., additional, Tegmark, Max, additional, Morgan, Edward H., additional, Levine, Alan M., additional, Morales, Miguel F., additional, Tingay, Steven J., additional, Bernardi, Gianni, additional, Bowman, Judd D., additional, Briggs, Frank H., additional, Cappallo, Roger C., additional, Emrich, David, additional, Mitchell, Daniel A., additional, Oberoi, Divya, additional, Prabu, Thiagaraj, additional, Wayth, Randall, additional, and Webster, Rachel L., additional

Published

2014

214. Applications of fast 21 cm power spectrum estimation

Author

Dillon, Joshua S., primary

Published

2014

215. A fast method for power spectrum and foreground analysis for 21 cm cosmology

Author

Massachusetts Institute of Technology. Department of Physics, MIT Kavli Institute for Astrophysics and Space Research, Dillon, Joshua Shane, Liu, Adrian Chi-Yan, Tegmark, Max Erik, Massachusetts Institute of Technology. Department of Physics, MIT Kavli Institute for Astrophysics and Space Research, Dillon, Joshua Shane, Liu, Adrian Chi-Yan, and Tegmark, Max Erik

Abstract

We develop and demonstrate an acceleration of the Liu and Tegmark quadratic estimator formalism for inverse variance foreground subtraction and power spectrum estimation in 21 cm tomography from O(N[superscript 3]) to O(NlogN), where N is the number of voxels of data. This technique makes feasible the megavoxel scale analysis necessary for current and upcoming radio interferometers by making only moderately restrictive assumptions about foreground models and survey geometry. We exploit iterative and Monte Carlo techniques and the symmetries of the foreground covariance matrices to quickly estimate the 21 cm brightness temperature power spectrum, P(k[subscript ||],k[subscript ⊥]), the Fisher information matrix, the error bars, the window functions, and the bias. We also extend the Liu and Tegmark foreground model to include bright point sources with known positions in a way that scales as O[(NlogN)×(N point sources)]≤O(N[superscript 5]/[superscript 3]). As a first application of our method, we forecast error bars and window functions for the upcoming 128-tile deployment of the Murchinson Widefield Array, showing that 1000 hours of observation should prove sufficiently sensitive to detect the power spectrum signal from the Epoch of Reionization., National Science Foundation (U.S.) (Grant AST-1105835)

Published

2013

216. Renal toxicity of domoic acid

Author

Funk, Jason A, primary, Janech, Michael G, additional, Steele, Stacy L, additional, Dillon, Joshua C, additional, and Bell, P Darwin, additional

Published

2013

217. A fast method for power spectrum and foreground analysis for 21 cm cosmology

Author

Dillon, Joshua S., primary, Liu, Adrian, additional, and Tegmark, Max, additional

Published

2013

218. A unified optimization framework for robust pseudo-relevance feedback algorithms

Author

Dillon, Joshua V., primary and Collins-Thompson, Kevyn, additional

Published

2010

219. ELECTRO-MECHANICAL-THERMAL MODELING AND STABILITY OF PULSED POWER LOADS ON A DC NETWORK

Author

Dillon, Joshua Allen, primary

220. Sequential Document Visualization

Author

Mao, Yi, primary, Dillon, Joshua, additional, and Lebanon, Guy, additional

Published

2007

221. Progestin inhibition of cell death in human breast cancer cell lines

Author

Moore, Michael R., primary, Spence, James B., additional, Kiningham, Kelley K., additional, and Dillon, Joshua L., additional

Published

2006

222. Evidence for pericyte origin of TSC-associated renal angiomyolipomas and implications for angiotensin receptor inhibition therapy.

Author

Siroky, Brian J., Hong Yin, Dixon, Bradley P., Reichert, Ryan J., Hellmann, Anna R., Ramkumar, Thiruvamoor, Tsuchihashi, Zenta, Bunni, Marlene, Dillon, Joshua, Bell, P. Darwin, Sampson, Julian R., and Bissler, John J.

Subjects

KIDNEY tumors, PERICYTES, ANGIOTENSIN receptors, TUBERIN, ACE inhibitors, CANCER cell proliferation

Abstract

Nearly all patients with tuberous sclerosis complex (TSC) develop renal angiomyolipomas, although the tumor cell of origin is unknown. We observed decreased renal angiomyolipoma development in patients with TSC2- polycystic kidney disease 1 deletion syndrome and hypertension that were treated from an early age with angiotensinconverting enzyme inhibitors or angiotensin receptor blockers compared with patients who did not receive this therapy. TSC-associated renal angiomyolipomas expressed ANG II type 1 receptors, plateletderived growth factor receptor-β, desmin, α-smooth muscle actin, and VEGF receptor 2 but did not express the adipocyte marker S100 or the endothelial marker CD31. Sera of TSC patients exhibited increased vascular mural cell-secreted peptides, such as VEGF-A, VEGF-D, soluble VEGF receptor 2, and collagen type IV. These findings suggest that angiomyolipomas may arise from renal pericytes. ANG II treatment of angiomyolipoma cells in vitro resulted in an exaggerated intracellular Ca2 + response and increased proliferation, which were blocked by the ANG II type 2 receptor antagonist valsartan. Blockade of ANG II signaling may have preventative therapeutic potential for angiomyolipomas. [ABSTRACT FROM AUTHOR]

Published

2014

223. Detecting the 21 cm forest in the 21 cm power spectrum.

Author

Ewall-Wice, Aaron, Dillon, Joshua S., Mesinger, Andrei, and Hewitt, Jacqueline

Subjects

*POWER spectra, *GALAXY spectra, *K-spaces, *INTERSTELLAR medium, *COMPUTER simulation

Abstract

We describe a new technique for constraining the radio-loud population of active galactic nuclei at high redshift by measuring the imprint of 21 cm spectral absorption features (the 21 cm forest) on the 21 cm power spectrum. Using semi-numerical simulations of the intergalactic medium and a semi-empirical source population, we show that the 21 cm forest dominates a distinctive region of k-space, k ≳ 0.5 Mpc− 1. By simulating foregrounds and noise for current and potential radio arrays, we find that a next-generation instrument with a collecting area of the order of ∼ 0.1 km2 (such as the Hydrogen Epoch of Reionization Array) may separately constrain the X-ray heating history at large spatial scales and radio-loud active galactic nuclei of the model we study at small ones. We extrapolate our detectability predictions for a single radio-loud active galactic nuclei population to arbitrary source scenarios by analytically relating the 21 cm forest power spectrum to the optical depth power spectrum and an integral over the radio luminosity function. [ABSTRACT FROM AUTHOR]

Published

2014

224. Stochastic Composite Likelihood.

Author

Dillon, Joshua V. and Lebanon, Guy

Subjects

*STOCHASTIC processes, *MAXIMUM likelihood statistics, *ESTIMATION theory, *MARKOV random fields, *COMPUTATIONAL complexity, *ROBUST control

Published

2010

225. Sequential Document Visualization.

Author

Yi Mao, Dillon, Joshua V., and Lebanon, Guy

Subjects

VISUALIZATION, TIME series analysis, STATISTICS, SEQUENTIAL analysis, CURVES

Abstract

Documents and other categorical valued time series are often characterized by the frequencies of short range sequential patterns such as n-grams. This representation converts sequential data of varying lengths to high dimensional histogram vectors which are easily modeled by standard statistical models. Unfortunately, the histogram representation ignores most of the medium and long range sequential dependencies making it unsuitable for visualizing sequential data. We present a novel framework for sequential visualization of discrete categorical time series based on the idea of local statistical modeling. The framework embeds categorical time series as smooth curves in the multinomial simplex summarizing the progression of sequential trends. We discuss several visualization techniques based on the above framework and demonstrate their usefulness for document visualization. [ABSTRACT FROM AUTHOR]

Published

2007

226. Automated Detection of Antenna Malfunctions in Large‐NInterferometers: A Case Study With the Hydrogen Epoch of Reionization Array

Author

Storer, Dara, Dillon, Joshua S., Jacobs, Daniel C., Morales, Miguel F., Hazelton, Bryna J., Ewall‐Wice, Aaron, Abdurashidova, Zara, Aguirre, James E., Alexander, Paul, Ali, Zaki S., Balfour, Yanga, Beardsley, Adam P., Bernardi, Gianni, Billings, Tashalee S., Bowman, Judd D., Bradley, Richard F., Bull, Philip, Burba, Jacob, Carey, Steven, Carilli, Chris L., Cheng, Carina, DeBoer, David R., Lera Acedo, Eloy, Dexter, Matt, Dynes, Scott, Ely, John, Fagnoni, Nicolas, Fritz, Randall, Furlanetto, Steven R., Gale‐Sides, Kingsley, Glendenning, Brian, Gorthi, Deepthi, Greig, Bradley, Grobbelaar, Jasper, Halday, Ziyaad, Hewitt, Jacqueline N., Hickish, Jack, Huang, Tian, Josaitis, Alec, Julius, Austin, Kariseb, MacCalvin, Kern, Nicholas S., Kerrigan, Joshua, Kittiwisit, Piyanat, Kohn, Saul A., Kolopanis, Matthew, Lanman, Adam, La Plante, Paul, Liu, Adrian, Loots, Anita, MacMahon, David, Malan, Lourence, Malgas, Cresshim, Martinot, Zachary E., Mesinger, Andrei, Molewa, Mathakane, Mosiane, Tshegofalang, Murray, Steven G., Neben, Abraham R., Nikolic, Bojan, Nunhokee, Chuneeta Devi, Parsons, Aaron R., Pascua, Robert, Patra, Nipanjana, Pieterse, Samantha, Pober, Jonathan C., Razavi‐Ghods, Nima, Riley, Daniel, Robnett, James, Rosie, Kathryn, Santos, Mario G., Sims, Peter, Singh, Saurabh, Smith, Craig, Tan, Jianrong, Thyagarajan, Nithyanandan, Williams, Peter K. G., and Zheng, Haoxuan

Abstract

We present a framework for identifying and flagging malfunctioning antennas in large radio interferometers. We outline two distinct categories of metrics designed to detect outliers along known failure modes of large arrays: cross‐correlation metrics, based on all antenna pairs, and auto‐correlation metrics, based solely on individual antennas. We define and motivate the statistical framework for all metrics used, and present tailored visualizations that aid us in clearly identifying new and existing systematics. We implement these techniques using data from 105 antennas in the Hydrogen Epoch of Reionization Array (HERA) as a case study. Finally, we provide a detailed algorithm for implementing these metrics as flagging tools on real data sets. Monitoring the performance of a many‐element system is essential to acquiring science‐quality data and requires an automated approachWe define metrics based on cross‐correlations that assess the health of the whole array and its component subsystems in an automated wayWe outline metrics based on autocorrelations that identify systematics and provide a generalizable approach to automated antenna flagging Monitoring the performance of a many‐element system is essential to acquiring science‐quality data and requires an automated approach We define metrics based on cross‐correlations that assess the health of the whole array and its component subsystems in an automated way We outline metrics based on autocorrelations that identify systematics and provide a generalizable approach to automated antenna flagging

Published

2022

227. Mapping Cosmic Dawn and Reionization: Challenges and Synergies

Author

Alvarez, Marcelo A., Fialkov, Anastasia, La Plante, Paul, Aguirre, James, Ali-Haïmoud, Yacine, Becker, George, Bowman, Judd, Breysse, Patrick, Bromm, Volker, Bull, Philip, Burns, Jack, Cappelluti, Nico, Carucci, Isabella, Chang, Tzu-Ching, Cleary, Kieran, Cooray, Asantha, Chen, Xuelei, Chiang, Hsin, Cohn, Joanne, Deboer, David, Dillon, Joshua, Doré, Olivier, Dvorkin, Cora, Ferraro, Simone, Furlanetto, Steven, Hazelton, Bryna, Hill, J. Colin, Jacobs, Daniel, Kirit Karkare, Keating, Garrett K., Koopmans, Léon, Kovetz, Ely, Lidz, Adam, Liu, Adrian, Ma, Yin-Zhe, Mao, Yi, Masui, Kiyoshi, Mcquinn, Matthew, Mirocha, Jordan, Muñoz, Julian, Murray, Steven, Parsons, Aaron, Pober, Jonathan, Saliwanchik, Benjamin, Sievers, Jonathan, Thyagarajan, Nithyanandan, Trac, Hy, Vikhlinin, Alexey, Visbal, Eli, and Zaldarriaga, Matias

Subjects

Cosmology and Nongalactic Astrophysics (astro-ph.CO), Astrophysics::High Energy Astrophysical Phenomena, Astrophysics::Instrumentation and Methods for Astrophysics, FOS: Physical sciences, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Cosmic dawn and the Epoch of Reionization (EoR) are among the least explored observational eras in cosmology: a time at which the first galaxies and supermassive black holes formed and reionized the cold, neutral Universe of the post-recombination era. With current instruments, only a handful of the brightest galaxies and quasars from that time are detectable as individual objects, due to their extreme distances. Fortunately, a multitude of multi-wavelength intensity mapping measurements, ranging from the redshifted 21 cm background in the radio to the unresolved X-ray background, contain a plethora of synergistic information about this elusive era. The coming decade will likely see direct detections of inhomogenous reionization with CMB and 21 cm observations, and a slew of other probes covering overlapping areas and complementary physical processes will provide crucial additional information and cross-validation. To maximize scientific discovery and return on investment, coordinated survey planning and joint data analysis should be a high priority, closely coupled to computational models and theoretical predictions., 5 pages, 1 figure, submitted to the Astro2020 Decadal Survey Science White Paper call

228. MITEoR: A prototype highly scalable interferometer for 21 cm cosmology.

Author

Dillon, Joshua S., Haoxuan Zheng, and Tegmark, Max

Published

2014

229. The Locally Weighted Bag of Words Framework for Document Representation.

Author

Lebanon, Guy, Yi Mao, and Dillon, Joshua

Subjects

*DOCUMENTATION, *TEXT processing (Computer science), *DATABASE management, *ELECTRONIC data processing, *INFORMATION storage & retrieval systems

Abstract

The popular bag of words assumption represents a document as a histogram of word occurrences. While computationally efficient, such a representation is unable to maintain any sequential information. We present an effective sequential document representation that goes beyond the bag of words representation and its n-gram extensions. This representation uses local smoothing to embed documents as smooth curves in the multinomial simplex thereby preserving valuable sequential information. In contrast to bag of words or n-grams, the new representation is able to robustly capture medium and long range sequential trends in the document. We discuss the representation and its geometric properties and demonstrate its applicability for various text processing tasks. [ABSTRACT FROM AUTHOR]

Published

2007

230. First limits on the 21 cm power spectrum during the Epoch of X-ray heating

Author

Thiagaraj Prabu, Lincoln J. Greenhill, Jonathan C. Pober, Stephen M. Ord, Andrei Mesinger, Eric Kratzenberg, Nichole Barry, Bartosz Pindor, Han-Seek Kim, Edward H. Morgan, J. L. B. Line, Christopher L. Williams, A. de Oliveira-Costa, Ian Sullivan, Benjamin McKinley, Joshua S. Dillon, David L. Kaplan, Andrew Williams, Daniel A. Mitchell, A. Roshi, N. Udaya Shankar, Cathryn M. Trott, Nithyanandan Thyagarajan, Rachel L. Webster, K. S. Srivani, J. Riding, Judd D. Bowman, Bryna J. Hazelton, Bryan Gaensler, A. R. Offringa, Miguel F. Morales, Lu Feng, Natasha Hurley-Walker, Pietro Procopio, Emil Lenc, Frank H. Briggs, Abraham R. Neben, Mark Waterson, Alan R. Whitney, Adam P. Beardsley, Gianni Bernardi, Chen Wu, Mervyn J. Lynch, Aaron Ewall-Wice, J. S. B. Wyithe, David Emrich, Brian E. Corey, P. Carroll, Justin C. Kasper, Max Tegmark, Shiv K. Sethi, Melanie Johnston-Hollitt, Divya Oberoi, Ravi Subrahmanyan, S. Paul, Randall B. Wayth, Abraham Loeb, Robert F. Goeke, Steven Tingay, Alan E. E. Rogers, Daniel C. Jacobs, Jacqueline N. Hewitt, Colin J. Lonsdale, Roger J. Cappallo, Stephen R. McWhirter, Massachusetts Institute of Technology. Department of Physics, MIT Kavli Institute for Astrophysics and Space Research, Ewall-Wice, Aaron Michael, Dillon, Joshua Shane, Hewitt, Jacqueline N, Neben, Abraham Richard, Tegmark, Max Erik, Feng, Lu, Goeke, Robert F, Astronomy, Ewall-Wice, A., Dillon, Joshua S., Hewitt, J. N., Loeb, A., Mesinger, A., Neben, A. R., Offringa, A. R., Tegmark, M., Barry, N., Beardsley, A. P., Bernardi, G., Bowman, Judd D., Briggs, F., Cappallo, R. J., Carroll, P., Corey, B. E., de Oliveira-Costa, A., Emrich, D., Feng, L., Gaensler, B. M., Goeke, R., Greenhill, L. J., Hazelton, B. J., Hurley-Walker, N., Johnston-Hollitt, M., Jacobs, Daniel C., Kaplan, D. L., Kasper, J. C., Kim, H, Kratzenberg, E., Lenc, E., Line, J., Lonsdale, C. J., Lynch, M. J., Mckinley, B., Mcwhirter, S. R., Mitchell, D. A., Morales, M. F., Morgan, E., Thyagarajan, Nithyanandan, Oberoi, D., Ord, S. M., Sourabh, Paul, Pindor, B., Pober, J. C., Prabu, T., Procopio, P., Riding, J., Rogers, A. E. E., Roshi, A., Shankar, N. Udaya, Sethi, Shiv K., Srivani, K. S., Subrahmanyan, R., Sullivan, I. S., Tingay, S. J., Trott, C. M., Waterson, M., Wayth, R. B., Webster, R. L., Whitney, A. R., Wu, C., Wyithe, J. S. B., Mesinger, ANDREI ALBERT, ITA, USA, and AUS

Subjects

dark age, Cosmology and Nongalactic Astrophysics (astro-ph.CO), media_common.quotation_subject, first stars, FOS: Physical sciences, Library science, Astrophysics::Cosmology and Extragalactic Astrophysics, 01 natural sciences, Settore FIS/05 - Astronomia e Astrofisica, Excellence, 0103 physical sciences, media_common.cataloged_instance, European union, IBM, dark ages, Instrumentation and Methods for Astrophysics (astro-ph.IM), 010303 astronomy & astrophysics, Investment fund, media_common, Physics, Government, 010308 nuclear & particles physics, European research, first star, Astrophysics::Instrumentation and Methods for Astrophysics, Astronomy and Astrophysics, interferometric [techniques], galaxies [X-rays], X-rays: galaxies, 13. Climate action, Space and Planetary Science, techniques: interferometric, general [radio lines], Commonwealth, reionization, Christian ministry, Astrophysics - Instrumentation and Methods for Astrophysics, radio lines: general, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We present first results from radio observations with the Murchison Widefield Array seeking to constrain the power spectrum of 21 cm brightness temperature fluctuations between the redshifts of 11.6 and 17.9 (113 and 75 MHz). 3 h of observations were conducted over two nights with significantly different levels of ionospheric activity. We use these data to assess the impact of systematic errors at low frequency, including the ionosphere and radio-frequency interference, on a power spectrum measurement. We find that after the 1–3 h of integration presented here, our measurements at the Murchison Radio Observatory are not limited by RFI, even within the FM band, and that the ionosphere does not appear to affect the level of power in the modes that we expect to be sensitive to cosmology. Power spectrum detections, inconsistent with noise, due to fine spectral structure imprinted on the foregrounds by reflections in the signal-chain, occupy the spatial Fourier modes where we would otherwise be most sensitive to the cosmological signal. We are able to reduce this contamination using calibration solutions derived from autocorrelations so that we achieve an sensitivity of 104 mK on comoving scales k ≲ 0.5 h Mpc[superscript −1]. This represents the first upper limits on the 21 cm power spectrum fluctuations at redshifts 12 ≲ z ≲ 18 but is still limited by calibration systematics. While calibration improvements may allow us to further remove this contamination, our results emphasize that future experiments should consider carefully the existence of and their ability to calibrate out any spectral structure within the EoR window., National Science Foundation (U.S.) (AST-0457585), National Science Foundation (U.S.) (AST-0821321), National Science Foundation (U.S.) (AST-1105835), National Science Foundation (U.S.) (AST-1410719), National Science Foundation (U.S.) (AST-1410484), National Science Foundation (U.S.) (AST-1411622), National Science Foundation (U.S.) (AST-1440343), National Science Foundation (U.S.) (1122374), National Science Foundation (U.S.) (PHY-0835713), National Science Foundation (U.S.) (CAREER-0847753), National Science Foundation (U.S.) (AST-0908884), United States. Air Force Office of Scientific Research (FA9550-0510247)

Published

2017

231. Constraining high-redshift X-ray sources with next generation 21-cm power spectrum measurements

Author

Adrian Liu, Jonathan C. Pober, Andrei Mesinger, Jacqueline N. Hewitt, Joshua S. Dillon, Aaron Ewall-Wice, Massachusetts Institute of Technology. Department of Physics, MIT Kavli Institute for Astrophysics and Space Research, Ewall-Wice, Aaron Michael, Hewitt, Jacqueline N, Dillon, Joshua Shane, Liu, Adrian Chi-Yan, Ewall-Wice, Aaron, Hewitt, Jacqueline, Mesinger, Andrei, Dillon, Joshua S., Liu, Adrian, and Pober, Jonathan

Subjects

Cosmology and Nongalactic Astrophysics (astro-ph.CO), FOS: Physical sciences, Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, 01 natural sciences, 7. Clean energy, 0103 physical sciences, Astronomical interferometer, 010303 astronomy & astrophysics, Reionization, Physics, 010308 nuclear & particles physics, Astrophysics::Instrumentation and Methods for Astrophysics, Spectral density, Astronomy, Astronomy and Astrophysics, Observable, HERA, Astrophysics - Astrophysics of Galaxies, Redshift, Amplitude, 13. Climate action, Space and Planetary Science, Astrophysics of Galaxies (astro-ph.GA), Dark Ages, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We use the Fisher matrix formalism and seminumerical simulations to derive quantitative predictions of the constraints that power spectrum measurements on next-generation interferometers, such as the Hydrogen Epoch of Reionization Array (HERA) and the Square Kilometre Array (SKA), will place on the characteristics of the X-ray sources that heated the high-redshift intergalactic medium. Incorporating observations between z = 5 and 25, we find that the proposed 331 element HERA and SKA phase 1 will be capable of placing ≲ 10 per cent constraints on the spectral properties of these first X-ray sources, even if one is unable to perform measurements within the foreground contaminated ‘wedge’ or the FM band. When accounting for the enhancement in power spectrum amplitude from spin temperature fluctuations, we find that the observable signatures of reionization extend well beyond the peak in the power spectrum usually associated with it. We also find that lower redshift degeneracies between the signatures of heating and reionization physics lead to errors on reionization parameters that are significantly greater than previously predicted. Observations over the heating epoch are able to break these degeneracies and improve our constraints considerably. For these two reasons, 21-cm observations during the heating epoch significantly enhance our understanding of reionization as well., National Science Foundation (U.S.) (AST-0821321), National Science Foundation (U.S.) (1122374), United States. National Aeronautics and Space Administration (HST-HF2-51363.001-A), National Science Foundation (U.S.) (1302774)

Published

2016

232. Direct Optimal Mapping for 21cm Cosmology: A Demonstration with the Hydrogen Epoch of Reionization Array

Author

Xu, Z, Hewitt, JN, Chen, KF, Kim, H, Dillon, JS, Kern, NS, Morales, MF, Hazelton, BJ, Byrne, R, Fagnoni, N, Acedo, EDL, Abdurashidova, Z, Adams, T, Aguirre, JE, Alexander, P, Ali, ZS, Baartman, R, Balfour, Y, Beardsley, AP, Bernardi, G, Billings, TS, Bowman, JD, Bradley, RF, Bull, P, Burba, J, Carey, S, Carilli, CL, Cheng, C, DeBoer, DR, Dexter, M, Eksteen, N, Ely, J, Ewall-Wice, A, Fritz, R, Furlanetto, Gale-Sides, K, Glendenning, B, Gorthi, D, Greig, B, Grobbelaar, J, Halday, Z, Hickish, J, Jacobs, DC, Julius, A, Kariseb, M, Kerrigan, J, Kittiwisit, P, Kohn, SA, Kolopanis, M, Lanman, A, Plante, PL, Liu, A, Loots, A, Ma, YZ, Edward MacMahon, DH, Malan, L, Malgas, C, Malgas, K, Marero, B, Martinot, ZE, Mesinger, A, Molewa, M, Mosiane, T, Murray, SG, Neben, AR, Nikolic, B, Nuwegeld, H, Parsons, AR, Patra, N, Pieterse, S, Pober, JC, Razavi-Ghods, N, Robnett, J, Rosie, K, Sims, P, Smith, C, Swarts, H, Thyagarajan, N, Wyngaarden, PVV, Williams, PKG, Zheng, H, Xu, Z [0000-0001-5112-2567], Hewitt, JN [0000-0002-4117-570X], Chen, KF [0000-0002-3839-0230], Dillon, JS [0000-0003-3336-9958], Kern, NS [0000-0002-8211-1892], Morales, MF [0000-0001-7694-4030], Hazelton, BJ [0000-0001-7532-645X], Byrne, R [0000-0003-4980-2736], Aguirre, JE [0000-0002-4810-666X], Beardsley, AP [0000-0001-9428-8233], Bernardi, G [0000-0002-0916-7443], Bowman, JD [0000-0002-8475-2036], Bradley, RF [0000-0003-1172-8331], Bull, P [0000-0001-5668-3101], Carilli, CL [0000-0001-6647-3861], DeBoer, DR [0000-0003-3197-2294], Ewall-Wice, A [0000-0002-0086-7363], Furlanetto, SR [0000-0002-0658-1243], Gorthi, D [0000-0002-0829-167X], Greig, B [0000-0002-4085-2094], Jacobs, DC [0000-0002-0917-2269], Kerrigan, J [0000-0002-1876-272X], Kittiwisit, P [0000-0003-0953-313X], Kohn, SA [0000-0001-6744-5328], Kolopanis, M [0000-0002-2950-2974], Lanman, A [0000-0003-2116-3573], Plante, PL [0000-0002-4693-0102], Liu, A [0000-0001-6876-0928], Ma, YZ [0000-0001-8108-0986], Mesinger, A [0000-0003-3374-1772], Murray, SG [0000-0003-3059-3823], Neben, AR [0000-0001-7776-7240], Parsons, AR [0000-0002-5400-8097], Patra, N [0000-0002-9457-1941], Pober, JC [0000-0002-3492-0433], Sims, P [0000-0002-2871-0413], Thyagarajan, N [0000-0003-1602-7868], Williams, PKG [0000-0003-3734-3587], Apollo - University of Cambridge Repository, Xu, Zhilei, Hewitt, Jacqueline N., Chen, Kai-Feng, Kim, Honggeun, Dillon, Joshua S., Kern, Nicholas S., Morales, Miguel F., Hazelton, Bryna J., Byrne, Ruby, Fagnoni, Nicola, de Lera Acedo, Eloy, Abdurashidova, Zara, Adams, Tyrone, Aguirre, James E., Alexander, Paul, Ali, Zaki S., Baartman, Rushelle, Balfour, Yanga, Beardsley, Adam P., Bernardi, Gianni, Billings, Tashalee S., Bowman, Judd D., Bradley, Richard F., Bull, Philip, Burba, Jacob, Carey, Steven, Carilli, Chris L., Cheng, Carina, Deboer, David R., Dexter, Matt, Eksteen, Nico, Ely, John, Ewall-Wice, Aaron, Fritz, Randall, Furlanetto, Steven R., Gale-Sides, Kingsley, Glendenning, Brian, Gorthi, Deepthi, Greig, Bradley, Grobbelaar, Jasper, Halday, Ziyaad, Hickish, Jack, Jacobs, Daniel C., Julius, Austin, Kariseb, Maccalvin, Kerrigan, Joshua, Kittiwisit, Piyanat, Kohn, Saul A., Kolopanis, Matthew, Lanman, Adam, La Plante, Paul, Liu, Adrian, Loots, Anita, Ma, Yin-Zhe, Harold Edward MacMahon, David, Malan, Lourence, Malgas, Cresshim, Malgas, Keith, Marero, Bradley, Martinot, Zachary E., Mesinger, ANDREI ALBERT, Molewa, Mathakane, Mosiane, Tshegofalang, Murray, Steven G., Neben, Abraham R., Nikolic, Bojan, Nuwegeld, Han, Parsons, Aaron R., Patra, Nipanjana, Pieterse, Samantha, Pober, Jonathan C., Razavi-Ghods, Nima, Robnett, Jame, Rosie, Kathryn, Sims, Peter, Smith, Craig, Swarts, Hilton, Thyagarajan, Nithyanandan, Van Van Wyngaarden, Pieter, Williams, Peter K. G., and Zheng, Haoxuan

Subjects

Cosmology and Nongalactic Astrophysics (astro-ph.CO), model, maps, Astrophysics::Instrumentation and Methods for Astrophysics, FOS: Physical sciences, Astronomy and Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Galactic radio-emission, 5109 Space Sciences, power spectrum, calibration, 10 mhz, Settore FIS/05 - Astronomia e Astrofisica, 5101 Astronomical Sciences, Space and Planetary Science, Astrophysics - Instrumentation and Methods for Astrophysics, Instrumentation and Methods for Astrophysics (astro-ph.IM), upper limit, 51 Physical Sciences, 5107 Particle and High Energy Physics, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Motivated by the desire for wide-field images with well-defined statistical properties for 21cm cosmology, we implement an optimal mapping pipeline that computes a maximum likelihood estimator for the sky using the interferometric measurement equation. We demonstrate this direct optimal mapping with data from the Hydrogen Epoch of Reionization (HERA) Phase I observations. After validating the pipeline with simulated data, we develop a maximum likelihood figure-of-merit for comparing four sky models at 166MHz with a bandwidth of 100kHz. The HERA data agree with the GLEAM catalogs to, 16 pages, 10 figures, 2 tables, published on ApJ

Published

2022

233. Imaging and Modeling Data from the Hydrogen Epoch of Reionization Array

Author

Juan Mena Parra, Piyanat Kittiwisit, Kingsley Gale-Sides, Joshua Kerrigan, Honggeun Kim, Adrian Liu, Phil Bull, Nipanjana Patra, Ziyaad Halday, Matthys Maree, James E. Aguirre, Bryna J. Hazelton, Jacqueline N. Hewitt, Zara Abdurashidova, Saul A. Kohn, Judd D. Bowman, Matt Dexter, K. Gale-Sides, Samantha Pieterse, Paul La Plante, Mathakane Molewa, James Kent, Nithyanandan Thyagarajan, Eunice Matsetela, Nicolas Fagnoni, Adam P. Beardsley, Alec Josaitis, Kathryn Rosie, David MacMahon, Jonathan C. Pober, Andrei Mesinger, Jasper Grobbelaar, Tashalee S. Billings, Zachary E. Martinot, Tshegofalang Mosiane, Abraham R. Neben, Austin Julius, Randall Fritz, Siyanda Matika, Brian Glendenning, Carina Cheng, Peter Sims, Paul Alexander, Daniel C. Jacobs, Steve R. Furlanetto, Gianni Bernardi, Bradley Greig, Lourence Malan, Nima Razavi-Ghods, Cresshim Malgas, Yanga Balfour, Nicholas S. Kern, Telalo Lekalake, David DeBoer, Aaron R. Parsons, Richard F. Bradley, Matthew Kolopanis, Deepthi Gorthi, Peter K. G. Williams, James Robnett, Joshua S. Dillon, Chris Carilli, Eloy de Lera Acedo, Miguel F. Morales, Zaki S. Ali, Bojan Nikolic, Aaron Ewall-Wice, Jack Hickish, Jacob Burba, Angelo Syce, Haoxuan Zheng, Adam Lanman, ITA, USA, ZAF, Carilli, C. L., Thyagarajan, N., Kent, J., Nikolic, B., Gale-Sides, K., Kern, N. S., Bernardi, G., Mesinger, A., Matika, S., Abdurashidova, Zara, Aguirre, James E., Paul, Alexander Christian, Ali, Zaki S., Balfour, Yanga, Beardsley, Adam P., Billings, Tashalee S., Bowman, Judd D., Bradley, Richard F., Bull, Phil, Burba, Jacob, Cheng, Carina, Deboer, David R., Dexter, Matt, Acedo, Eloy de Lera, Dillon, Joshua S., Ewall-Wice, Aaron, Fagnoni, Nicola, Fritz, Randall, Furlanetto, Steve R., Gale-Sides, Kingsley, Glendenning, Brian, Gorthi, Deepthi, Greig, Bradley, Grobbelaar, Jasper, Halday, Ziyaad, Hazelton, Bryna J., Hewitt, Jacqueline N., Hickish, Jack, Jacobs, Daniel C., Josaitis, Alec, Julius, Austin, Kerrigan, Joshua, Kim, Honggeun, Kittiwisit, Piyanat, Kohn, Saul A., Kolopanis, Matthew, Lanman, Adam, Plante, Paul La, Lekalake, Telalo, Liu, Adrian, Macmahon, David, Malan, Lourence, Malgas, Cresshim, Maree, Matthy, Martinot, Zachary E., Matsetela, Eunice, Molewa, Mathakane, Morales, Miguel F., Mosiane, Tshegofalang, Neben, Abraham R., Parra, Juan Mena, Parsons, Aaron R., Patra, Nipanjana, Pieterse, Samantha, Pober, Jonathan C., Razavi-Ghods, Nima, Robnett, Jame, Rosie, Kathryn, Sims, Peter, Syce, Angelo, Williams, Peter K. G., Zheng, Haoxuan, Carilli, CL [0000-0001-6647-3861], Thyagarajan, N [0000-0003-1602-7868], Kern, NS [0000-0002-8211-1892], Bernardi, G [0000-0002-0916-7443], Aguirre, JE [0000-0002-4810-666X], Beardsley, AP [0000-0001-9428-8233], Bowman, JD [0000-0002-8475-2036], Bull, P [0000-0001-5668-3101], Dillon, JS [0000-0003-3336-9958], Ewall-Wice, A [0000-0002-0086-7363], Furlanetto, SR [0000-0002-0658-1243], Hazelton, BJ [0000-0001-7532-645X], Jacobs, DC [0000-0002-0917-2269], Kerrigan, J [0000-0002-1876-272X], Kittiwisit, P [0000-0003-0953-313X], Kohn, SA [0000-0001-6744-5328], Kolopanis, M [0000-0002-2950-2974], Liu, A [0000-0001-6876-0928], Morales, MF [0000-0001-7694-4030], Neben, AR [0000-0001-7776-7240], Patra, N [0000-0002-9457-1941], Pober, JC [0000-0002-3492-0433], Williams, PKG [0000-0003-3734-3587], and Apollo - University of Cambridge Repository

Subjects

Physics, Cosmological evolution, Hydrogen, 010308 nuclear & particles physics, Astrophysics::Instrumentation and Methods for Astrophysics, Astronomy, chemistry.chemical_element, FOS: Physical sciences, Astronomy and Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, 01 natural sciences, Cosmology, Data modeling, chemistry, Reionization, Space and Planetary Science, 0103 physical sciences, Radio interferometry, Astrophysics - Instrumentation and Methods for Astrophysics, 010303 astronomy & astrophysics, Instrumentation and Methods for Astrophysics (astro-ph.IM)

Abstract

We analyze data from the Hydrogen Epoch of Reionization Array. This is the third in a series of papers on the closure phase delay-spectrum technique designed to detect the HI 21cm emission from cosmic reionization. We present the details of the data and models employed in the power spectral analysis, and discuss limitations to the process. We compare images and visibility spectra made with HERA data, to parallel quantities generated from sky models based on the GLEAM survey, incorporating the HERA telescope model. We find reasonable agreement between images made from HERA data, with those generated from the models, down to the confusion level. For the visibility spectra, there is broad agreement between model and data across the full band of $\sim 80$MHz. However, models with only GLEAM sources do not reproduce a roughly sinusoidal spectral structure at the tens of percent level seen in the observed visibility spectra on scales $\sim 10$ MHz on 29 m baselines. We find that this structure is likely due to diffuse Galactic emission, predominantly the Galactic plane, filling the far sidelobes of the antenna primary beam. We show that our current knowledge of the frequency dependence of the diffuse sky radio emission, and the primary beam at large zenith angles, is inadequate to provide an accurate reproduction of the diffuse structure in the models. We discuss implications due to this missing structure in the models, including calibration, and in the search for the HI 21cm signal, as well as possible mitigation techniques., Comment: 17 pages, 10 figures, accepted for the ApJ Supplement

Published

2020

234. The hydrogen epoch of reionization array dish III: measuring chromaticity of prototype element with reflectometry

Author

Aaron R. Parsons, Adam P. Beardsley, Cherie Day, Haoxuan Zheng, Joshua S. Dillon, Gcobisa Fadana, Bradley Greig, Jacqueline N. Hewitt, Craig Smith, Daniel C. Jacobs, Anna Lebedeva, Richard F. Bradley, Cresshim Malgas, Brian Glendenning, Carina Cheng, Peter K. G. Williams, Jonathan C. Pober, Andrei Mesinger, Abraham R. Neben, Nima Razavi-Ghods, Randall Fritz, Nipanjana Patra, Jasper Grobbelaar, Paul Alexander, Nithyanandan Thyagarajan, David DeBoer, Gilbert Hsyu, Steve R. Furlanetto, Kathryn Rosie, Max Tegmark, Nicolas Fagnoni, Lourence Malan, Angelo Syce, Zachary E. Martinot, David MacMahon, Jon Ringuette, Adrian Liu, Saul A. Kohn, James Robnett, Chris Carilli, Eloy de Lera Acedo, Nathan Mathison, Austin Julius, Judd D. Bowman, Samantha Pieterse, Anita Loots, Tsz Kuk Leung, Raddwine Sell, Eunice Matsetela, Miguel F. Morales, Bryna J. Hazelton, Zaki S. Ali, MacCalvin Kariseb, Aaron Ewall-Wice, James E. Aguirre, Matthys Maree, Telalo Lekalake, Patra, Nipanjana, Parsons, Aaron R., Deboer, David R., Thyagarajan, Nithyanandan, Ewall-Wice, Aaron, Hsyu, Gilbert, Leung, Tsz Kuk, Day, Cherie K., de Lera Acedo, Eloy, Aguirre, James E., Alexander, Paul, Ali, Zaki S., Beardsley, Adam P., Bowman, Judd D., Bradley, Richard F., Carilli, Chris L., Cheng, Carina, Dillon, Joshua S., Fadana, Gcobisa, Fagnoni, Nicola, Fritz, Randall, Furlanetto, Steve R., Glendenning, Brian, Greig, Bradley, Grobbelaar, Jasper, Hazelton, Bryna J., Jacobs, Daniel C., Julius, Austin, Kariseb, Mac. Calvin., Kohn, Saul A., Lebedeva, Anna, Lekalake, Telalo, Liu, Adrian, Loots, Anita, Macmahon, David, Malan, Lourence, Malgas, Cresshim, Maree, Matthy, Martinot, Zachary, Mathison, Nathan, Matsetela, Eunice, Mesinger, Andrei, Morales, Miguel F., Neben, Abraham R., Pieterse, Samantha, Pober, Jonathan C., Razavi-Ghods, Nima, Ringuette, Jon, Robnett, Jame, Rosie, Kathryn, Sell, Raddwine, Smith, Craig, Syce, Angelo, Tegmark, Max, Williams, Peter K. G., and Zheng, Haoxuan

Subjects

Frequency response, FOS: Physical sciences, Astrophysics::Cosmology and Extragalactic Astrophysics, Astronomy & Astrophysics, 01 natural sciences, Astronomical instrumentation, Methods and techniques-wideband radio interferometry, Optics, 0103 physical sciences, cm cosmology, 010306 general physics, Reflectometry, Instrumentation and Methods for Astrophysics (astro-ph.IM), 010303 astronomy & astrophysics, Reionization, Physics, Delay spectrum technique-EoR power spectrum, business.industry, Attenuation, Astrophysics::Instrumentation and Methods for Astrophysics, Delay spectrum technique–EoR power spectrum, Spectral density, Astronomy and Astrophysics, HERA, Astronomy and Astrophysic, Methods and technique, Redshift, wideband radio interferometry, Space and Planetary Science, 21 cm cosmology, Antenna (radio), Astrophysics - Instrumentation and Methods for Astrophysics, business, Astronomical and Space Sciences, astro-ph.IM

Abstract

The experimental efforts to detect the redshifted 21 cm signal from the Epoch of Reionization (EoR) are limited predominantly by the chromatic instrumental systematic effect. The delay spectrum methodology for 21 cm power spectrum measurements brought new attention to the critical impact of an antenna's chromaticity on the viability of making this measurement. This methodology established a straightforward relationship between time-domain response of an instrument and the power spectrum modes accessible to a 21 cm EoR experiment. We examine the performance of a prototype of the Hydrogen Epoch of Reionization Array (HERA) array element that is currently observing in Karoo desert, South Africa. We present a mathematical framework to derive the beam integrated frequency response of a HERA prototype element in reception from the return loss measurements between 100-200 MHz and determined the extent of additional foreground contamination in the delay space. The measurement reveals excess spectral structures in comparison to the simulation studies of the HERA element. Combined with the HERA data analysis pipeline that incorporates inverse covariance weighting in optimal quadratic estimation of power spectrum, we find that in spite of its departure from the simulated response, HERA prototype element satisfies the necessary criteria posed by the foreground attenuation limits and potentially can measure the power spectrum at spatial modes as low as $k_{\parallel} > 0.1h$~Mpc$^{-1}$. The work highlights a straightforward method for directly measuring an instrument response and assessing its impact on 21 cm EoR power spectrum measurements for future experiments that will use reflector-type antenna., 13 pages, 10 figures, Submitted to APJ

Published

2018

235. A high reliability survey of discrete Epoch of Reionization foreground sources in the MWA EoR0 field

Author

Chen Wu, J. Riding, Frank H. Briggs, A. Roshi, Rachel L. Webster, S. K. Sethi, J. L. B. Line, S. M. Ord, Jonathan C. Pober, Adam P. Beardsley, N. Udaya Shankar, K. S. Srivani, Eric Kratzenberg, Andrew Williams, Pietro Procopio, Robert F. Goeke, Colin J. Lonsdale, M. Waterson, Gianni Bernardi, Roger J. Cappallo, Ian Sullivan, Bryna J. Hazelton, Bryan Gaensler, J. S. Dillon, Abraham Loeb, A. de Oliveira-Costa, Eric R. Morgan, Nichole Barry, T. Prabu, Steven Tingay, Alan E. E. Rogers, David Emrich, Benjamin McKinley, Brian E. Corey, Bartosz Pindor, Christopher L. Williams, Daniel A. Mitchell, D. L. Kaplan, P. Carroll, Alan R. Whitney, D. C. Jacobs, Judd D. Bowman, Lu Feng, A. R. Offringa, Jacqueline N. Hewitt, J. S. B. Wyithe, Abraham R. Neben, L. J. Greenhill, D. Oberoi, Hs. Kim, Stephen R. McWhirter, J. C. Kasper, Cathryn M. Trott, Miguel F. Morales, Aaron Ewall-Wice, Natasha Hurley-Walker, Emil Lenc, M. J. Lynch, Randall B. Wayth, Max Tegmark, S. Paul, Melanie Johnston-Hollitt, Ravi Subrahmanyan, Nithyanandan Thyagarajan, ITA, USA, AUS, Haystack Observatory, Massachusetts Institute of Technology. Department of Physics, MIT Kavli Institute for Astrophysics and Space Research, Cappallo, Roger J, Corey, Brian E, de Oliveira Costa, Angelica, Dillon, Joshua Shane, Ewall-Wice, Aaron Michael, Feng, Lu, Goeke, Robert F, Hewitt, Jacqueline N, Kratzenberg, Eric W, Lonsdale, Colin John, McWhirter, Stephen R., Morgan, Edward H, Neben, Abraham Richard, Rogers, Alan E E, Tegmark, Max Erik, Whitney, Alan R, and Williams, Christopher Leigh

Subjects

Physics, Spectral index, Cosmology and Nongalactic Astrophysics (astro-ph.CO), 010308 nuclear & particles physics, media_common.quotation_subject, FOS: Physical sciences, Astronomy, Astronomy and Astrophysics, Murchison Widefield Array, Astrophysics, 01 natural sciences, Galaxy, Flattening, Space and Planetary Science, Sky, 0103 physical sciences, Dark Ages, Calibration, Astrophysics - Instrumentation and Methods for Astrophysics, Instrumentation and Methods for Astrophysics (astro-ph.IM), 010303 astronomy & astrophysics, Reionization, Astrophysics - Cosmology and Nongalactic Astrophysics, media_common

Abstract

Detection of the epoch of reionization H i signal requires a precise understanding of the intervening galaxies and AGN, both for instrumental calibration and foreground removal. We present a catalogue of 7394 extragalactic sources at 182 MHz detected in the RA = 0 field of the Murchison Widefield Array Epoch of Reionization observation programme. Motivated by unprecedented requirements for precision and reliability we develop new methods for source finding and selection. We apply machine learning methods to self-consistently classify the relative reliability of 9490 source candidates. A subset of 7466 are selected based on reliability class and signal-to-noise ratio criteria. These are statistically cross-matched to four other radio surveys using both position and flux density information. We find 7369 sources to have confident matches, including 90 partially resolved sources that split into a total of 192 sub-components. An additional 25 unmatched sources are included as new radio detections. The catalogue sources have a median spectral index of −0.85. Spectral flattening is seen towards lower frequencies with a median of −0.71 predicted at 182 MHz. The astrometric error is 7 arcsec compared to a 2.3 arcmin beam FWHM. The resulting catalogue covers ∼1400 deg² and is complete to approximately 80 mJy within half beam power. This provides the most reliable discrete source sky model available to date in the MWA EoR0 field for precision foreground subtraction., National Science Foundation (U.S.) (AST-0847753), National Science Foundation (U.S.) (AST-1410484), National Science Foundation (U.S.) (AST-1506024)

Published

2016

236. MITEoR: a scalable interferometer for precision 21 cm cosmology

Author

Hrant Gharibyan, Jon Losh, Sruthi Narayanan, Victor Buza, J. Villasenor, Eben Kunz, Michael Matejek, Qinxuan Pan, Richard F. Bradley, Meng Su, M. Valdez, Matthew R. Dexter, Haoxuan Zheng, Scott Morrison, Courtney M. Peterson, A. Lutomirski, R. P. Armstrong, Abraham R. Neben, Kevin Zheng, Hung-I Yang, Robert F. Penna, Katelin Schutz, Nevada J. Sanchez, Y. Zhu, Devon Rosner, Jack Hickish, Aaron Ewall-Wice, Eric R. Morgan, Joshua S. Dillon, Alessio Magro, Ashley Perko, Max Tegmark, S. M. Tribiano, Ioana Zelko, Adrian Liu, Christopher L. Williams, K. Zarb Adami, Massachusetts Institute of Technology. Department of Physics, MIT Kavli Institute for Astrophysics and Space Research, Zheng, Haoxuan, Tegmark, Max Erik, Buza, Victor, Dillon, Joshua Shane, Gharibyan, Hrant, Kunz, Eben A., Liu, Adrian Chi-Yan, Losh, Jonathan L., Lutomirski, Andrew Michael, Morrison, Scott D., Narayanan, Siddharth Madhavan, Perko, Ashley, Rosner, Devin, Sanchez, N., Schutz, Katharine, Tribiano, Shana M., Valdez, M., Yang, H., Zelko, Ioana, Zheng, K., Armstrong, R. P., Ewall-Wice, Aaron Michael, Matejek, Michael Scott, Morgan, Edward H., Neben, Abraham Richard, Pan, Qinxuan, Penna, Robert, Su, Meng, Villasenor, Jesus Noel Samonte, Williams, Christopher Leigh, and Zhu, Y.

Subjects

Physics, business.industry, Calibration (statistics), Wiener filter, Astrophysics::Instrumentation and Methods for Astrophysics, FOS: Physical sciences, Estimator, Astronomy and Astrophysics, 7. Clean energy, symbols.namesake, Interferometry, Optics, Space and Planetary Science, Robustness (computer science), Scalability, symbols, Redundancy (engineering), Astrophysics - Instrumentation and Methods for Astrophysics, business, Instrumentation and Methods for Astrophysics (astro-ph.IM), Reionization, Algorithm

Abstract

We report on the MIT Epoch of Reionization (MITEoR) experiment, a pathfinder low-frequency radio interferometer whose goal is to test technologies that improve the calibration precision and reduce the cost of the high-sensitivity 3D mapping required for 21 cm cosmology. MITEoR accomplishes this by using massive baseline redundancy, which enables both automated precision calibration and correlator cost reduction. We demonstrate and quantify the power and robustness of redundancy for scalability and precision. We find that the calibration parameters precisely describe the effect of the instrument upon our measurements, allowing us to form a model that is consistent with $��^2$ per degree of freedom < 1.2 for as much as 80% of the observations. We use these results to develop an optimal estimator of calibration parameters using Wiener filtering, and explore the question of how often and how finely in frequency visibilities must be reliably measured to solve for calibration coefficients. The success of MITEoR with its 64 dual-polarization elements bodes well for the more ambitious Hydrogen Epoch of Reionization Array (HERA) project and other next-generation instruments, which would incorporate many identical or similar technologies., 22 pages, 20 figures. Updated to match the accepted version for MNRAS. Supersedes arXiv:1309.2639. Movies, data and links at http://space.mit.edu/home/tegmark/omniscope.html

Published

2014

237. Brute-Force Mapmaking with Compact Interferometers: A MITEoR Northern Sky Map from 128 MHz to 175 MHz

Author

Adrian Liu, M. Valdez, K. Zarb Adami, Eben Kunz, Hrant Gharibyan, I. Zelko, Max Tegmark, Haoxuan Zheng, Devon Rosner, Aaron Ewall-Wice, Sruthi Narayanan, H. Yang, Nevada J. Sanchez, J. Villasenor, Victor Buza, A. Lutomirski, Jon Losh, Eric R. Morgan, Joshua S. Dillon, Ashley Perko, Abraham R. Neben, S. M. Tribiano, Richard F. Bradley, Kevin Zheng, Katelin Schutz, Jack Hickish, Massachusetts Institute of Technology. Department of Physics, MIT Kavli Institute for Astrophysics and Space Research, Zheng, Haoxuan, Tegmark, Max Erik, Dillon, Joshua Shane, Neben, Abraham Richard, Tribiano, Shana, Buza, Victor, Ewall-Wice, Aaron Michael, Gharibyan, Hrant, Losh, Jonathan L, Kunz, Eben A, Lutomirski, Andrew Michael, Morgan, Edward H, Narayanan, Siddharth Madhavan, Perko, Ashley N, Rosner, Devon J., Schutz, Katharine, Valdez, Melinda, Villasenor, Jesus Noel Samonte, Yang, Hong, Zelko, Ioana A., and Zheng, K.

Subjects

Cosmology and Nongalactic Astrophysics (astro-ph.CO), media_common.quotation_subject, FOS: Physical sciences, Murchison Widefield Array, Astrophysics::Cosmology and Extragalactic Astrophysics, 01 natural sciences, Optics, 0103 physical sciences, Astronomical interferometer, 010303 astronomy & astrophysics, Reionization, Instrumentation and Methods for Astrophysics (astro-ph.IM), media_common, Physics, Spectral index, 010308 nuclear & particles physics, business.industry, Astrophysics::Instrumentation and Methods for Astrophysics, Astronomy and Astrophysics, HERA, Astrophysics - Astrophysics of Galaxies, Data set, Interferometry, Space and Planetary Science, Sky, Astrophysics of Galaxies (astro-ph.GA), business, Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We present a new method for interferometric imaging that is ideal for the large fields of view and compact arrays common in 21 cm cosmology. We first demonstrate the method with the simulations for two very different low-frequency interferometers, the Murchison Widefield Array and the MIT Epoch of Reionization (MITEoR) experiment. We then apply the method to the MITEoR data set collected in 2013 July to obtain the first northern sky map from 128 to 175 MHz at ∼2° resolution and find an overall spectral index of −2.73 ± 0.11. The success of this imaging method bodes well for upcoming compact redundant low-frequency arrays such as Hydrogen Epoch of Reionization Array. Both the MITEoR interferometric data and the 150 MHz sky map are available at http://space.mit.edu/home/tegmark/omniscope.html., National Science Foundation (U.S.) (AST-0908848), National Science Foundation (U.S.) (AST-1105835), National Science Foundation (U.S.) (AST-1440343)

Published

2016

238. Parametrizing Epoch of Reionization foregrounds: a deep survey of low-frequency point-source spectra with the Murchison Widefield Array

Author

Ravi Subrahmanyan, S. Paul, Bryna J. Hazelton, Bryan Gaensler, Nithyanandan Thyagarajan, Natasha Hurley-Walker, Emil Lenc, Bartosz Pindor, Nichole Barry, Han-Seek Kim, Lincoln J. Greenhill, J. L. B. Line, Jonathan C. Pober, P. Carroll, Piyanat Kittiwisit, Lu Feng, Abraham R. Neben, Daniel C. Jacobs, Jacqueline N. Hewitt, Adam P. Beardsley, J. Riding, N. U. Shankar, Ian Sullivan, Joshua S. Dillon, J. S. B. Wyithe, Frank H. Briggs, Benjamin McKinley, Abraham Loeb, Steven Tingay, Judd D. Bowman, Daniel A. Mitchell, A. R. Offringa, Rachel L. Webster, Pietro Procopio, Shiv K. Sethi, Cathryn M. Trott, Miguel F. Morales, Aaron Ewall-Wice, Randall B. Wayth, Max Tegmark, Melanie Johnston-Hollitt, Massachusetts Institute of Technology. Department of Physics, MIT Kavli Institute for Astrophysics and Space Research, Dillon, Joshua Shane, Ewall-Wice, Aaron Michael, Feng, Lu, Hewitt, Jacqueline N, Neben, Abraham Richard, and Tegmark, Max Erik

Subjects

Physics, Point spread function, Field (physics), 010308 nuclear & particles physics, Point source, Astrophysics::Instrumentation and Methods for Astrophysics, Astronomy, Astronomy and Astrophysics, Murchison Widefield Array, Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, 01 natural sciences, Spectral line, Space and Planetary Science, 0103 physical sciences, Dark Ages, Ionosphere, 010303 astronomy & astrophysics, Reionization

Abstract

Experiments that pursue detection of signals from the Epoch of Reionization (EoR) are relying on spectral smoothness of source spectra at low frequencies. This article empirically explores the effect of foreground spectra on EoR experiments by measuring high-resolution full-polarization spectra for the 586 brightest unresolved sources in one of the Murchison Widefield Array (MWA) EoR fields using 45 h of observation. A novel peeling scheme is used to subtract 2500 sources from the visibilities with ionospheric and beam corrections, resulting in the deepest, confusion-limited MWA image so far. The resulting spectra are found to be affected by instrumental effects, which limit the constraints that can be set on source-intrinsic spectral structure. The sensitivity and power-spectrum of the spectra are analysed, and it is found that the spectra of residuals are dominated by point spread function sidelobes from nearby undeconvolved sources. We release a catalogue describing the spectral parameters for each measured source.

Published

2016

239. Hydrogen Epoch of Reionization Array (HERA)

Author

Paul Alexander, Lourence Malan, David MacMahon, Daniel C. Jacobs, Jon Ringuette, C. H. Smith, Angelo Syce, Cresshim Malgas, Aaron R. Parsons, Nicolas Fagnoni, Joshua S. Dillon, Miguel F. Morales, Nithyanandan Thyagarajan, Richard F. Bradley, Peter Williams, Zaki S. Ali, Telalo Lekalake, Aaron Ewall-Wice, Nipanjana Patra, Eloy de Lera Acedo, Jonathan C. Pober, Nathan Mathison, Andrei Mesinger, Nima Razavi-Ghods, Gianni Bernardi, Bradley Greig, Steve R. Furlanetto, Jasper Grobbelaar, David DeBoer, Adrian Liu, Matthys Maree, Saul A. Kohn, Zachary E. Martinot, Anita Loots, Brian Glendenning, Carina Cheng, Judd D. Bowman, Raddwine Sell, Kathryn Rosie, Samantha Pieterse, Adam P. Beardsley, Gcobisa Fadana, Bryna J. Hazelton, Jacqueline N. Hewitt, Haoxuan Zheng, James E. Aguirre, James Robnett, Abraham R. Neben, Randall Fritz, Austin Julius, Chris L. Carilli, Jack Hickish, Eunice Matsetela, MacCalvin Kariseb, Max Tegmark, ITA, USA, Deboer, David R., Parsons, Aaron R., Aguirre, James E., Alexander, Paul, Ali, Zaki S., Beardsley, Adam P., Bernardi, Gianni, Bowman, Judd D., Bradley, Richard F., Carilli, Chris L., Cheng, Carina, Acedo, Eloy de Lera, Dillon, Joshua S., Ewall-Wice, Aaron, Fadana, Gcobisa, Fagnoni, Nicola, Fritz, Randall, Furlanetto, Steve R., Glendenning, Brian, Greig, Bradley, Grobbelaar, Jasper, Hazelton, Bryna J., Hewitt, Jacqueline N., Hickish, Jack, Jacobs, Daniel C., Julius, Austin, Kariseb, Maccalvin, Kohn, Saul A., Lekalake, Telalo, Liu, Adrian, Loots, Anita, Macmahon, David, Malan, Lourence, Malgas, Cresshim, Maree, Matthy, Martinot, Zachary, Mathison, Nathan, Matsetela, Eunice, Mesinger, Andrei, Morales, Miguel F., Neben, Abraham R., Patra, Nipanjana, Pieterse, Samantha, Pober, Jonathan C., Razavi-Ghods, Nima, Ringuette, Jon, Robnett, Jame, Rosie, Kathryn, Sell, Raddwine, Smith, Craig, Syce, Angelo, Tegmark, Max, Thyagarajan, Nithyanandan, Williams, Peter K. G., and Zheng, Haoxuan

Subjects

Cosmology and Nongalactic Astrophysics (astro-ph.CO), Bryna, Dark age, FOS: Physical sciences, Astrophysics::Cosmology and Extragalactic Astrophysics, 7. Clean energy, 01 natural sciences, Reionization, Settore FIS/05 - Astronomia e Astrofisica, First star, 0103 physical sciences, Physical Sciences and Mathematics, Theology, Telescope, 010303 astronomy & astrophysics, Instrumentation and Methods for Astrophysics (astro-ph.IM), Astrophysics::Galaxy Astrophysics, biology, 010308 nuclear & particles physics, Philosophy, Astrophysics::Instrumentation and Methods for Astrophysics, Astronomy and Astrophysics, HERA, biology.organism_classification, Space and Planetary Science, Interferometer [Instrumentation], Interferometric [Techniques], Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

The Hydrogen Epoch of Reionization Array (HERA) is a staged experiment to measure 21 cm emission from the primordial intergalactic medium (IGM) throughout cosmic reionization ($z=6-12$), and to explore earlier epochs of our Cosmic Dawn ($z\sim30$). During these epochs, early stars and black holes heated and ionized the IGM, introducing fluctuations in 21 cm emission. HERA is designed to characterize the evolution of the 21 cm power spectrum to constrain the timing and morphology of reionization, the properties of the first galaxies, the evolution of large-scale structure, and the early sources of heating. The full HERA instrument will be a 350-element interferometer in South Africa consisting of 14-m parabolic dishes observing from 50 to 250 MHz. Currently, 19 dishes have been deployed on site and the next 18 are under construction. HERA has been designated as an SKA Precursor instrument. In this paper, we summarize HERA's scientific context and provide forecasts for its key science results. After reviewing the current state of the art in foreground mitigation, we use the delay-spectrum technique to motivate high-level performance requirements for the HERA instrument. Next, we present the HERA instrument design, along with the subsystem specifications that ensure that HERA meets its performance requirements. Finally, we summarize the schedule and status of the project. We conclude by suggesting that, given the realities of foreground contamination, current-generation 21 cm instruments are approaching their sensitivity limits. HERA is designed to bring both the sensitivity and the precision to deliver its primary science on the basis of proven foreground filtering techniques, while developing new subtraction techniques to unlock new capabilities. The result will be a major step toward realizing the widely recognized scientific potential of 21 cm cosmology., Comment: 26 pages, 24 figures, 2 tables

Published

2016

240. The low-frequency environment of the Murchison Widefield Array: radio-frequency interference analysis and mitigation

Author

Anna D. Kapińska, Nichole Barry, Ian Sullivan, Han-Seek Kim, Joshua S. Dillon, Lincoln J. Greenhill, Ravi Subrahmanyan, Jonathan C. Pober, Joseph R. Callingham, Edward H. Morgan, Natasha Hurley-Walker, Lister Staveley-Smith, Emil Lenc, D. L. Kaplan, Daniel C. Jacobs, Paul Hancock, Bartosz Pindor, Steven Tingay, Qinghua Zheng, J. L. B. Line, Cathryn M. Trott, S. Paul, Divya Oberoi, Miguel F. Morales, Bryan Gaensler, N. Udaya Shankar, Luke Hindson, J. Riding, Abraham R. Neben, Christopher L. Williams, Bryna J. Hazelton, Nithyanandan Thyagarajan, K. S. Dwarakanath, Aaron Ewall-Wice, Stephen M. Ord, Chen Wu, Abraham Loeb, Colin J. Lonsdale, Gianni Bernardi, T. Prabu, P. Carroll, Martin Bell, Daniel A. Mitchell, Roger J. Cappallo, Rachel L. Webster, Shiv K. Sethi, Jacqueline N. Hewitt, Benjamin McKinley, Piyanat Kittiwisit, Judd D. Bowman, Avinash A. Deshpande, J. S. B. Wyithe, John Morgan, Adam P. Beardsley, Bi-Qing For, Frank H. Briggs, S. R. McWhirter, K. S. Srivani, Randall B. Wayth, Pietro Procopio, Anne M. Williams, Max Tegmark, Melanie Johnston-Hollitt, A. R. Offringa, Lu Feng, Haystack Observatory, MIT Kavli Institute for Astrophysics and Space Research, Cappallo, Roger J., Lonsdale, Colin John, McWhirter, Stephen R., Dillon, Joshua Shane, Ewall-Wice, Aaron Michael, Feng, Lu, Hewitt, Jacqueline N., Morgan, Edward H., Neben, Abraham Richard, Tegmark, Max Erik, Williams, Christopher Leigh, ITA, USA, and AUS

Subjects

010504 meteorology & atmospheric sciences, Computer science, Astrophysics::High Energy Astrophysical Phenomena, Astrophysics::Instrumentation and Methods for Astrophysics, FOS: Physical sciences, Astronomy and Astrophysics, Murchison Widefield Array, LOFAR, Astrophysics::Cosmology and Extragalactic Astrophysics, Interference (wave propagation), 01 natural sciences, Electromagnetic interference, Radio telescope, Interferometry, Space and Planetary Science, 0103 physical sciences, Ionosphere, Astrophysics - Instrumentation and Methods for Astrophysics, 010303 astronomy & astrophysics, Instrumentation and Methods for Astrophysics (astro-ph.IM), 0105 earth and related environmental sciences, Remote sensing, Computer Science::Information Theory

Abstract

The Murchison Widefield Array (MWA) is a new low-frequency interferometric radio telescope built in Western Australia at one of the locations of the future Square Kilometre Array (SKA). We describe the automated radio-frequency interference (RFI) detection strategy implemented for the MWA, which is based on the AOFlagger platform, and present 72-231-MHz RFI statistics from 10 observing nights. RFI detection removes 1.1% of the data. RFI from digital TV (DTV) is observed 3% of the time due to occasional ionospheric or atmospheric propagation. After RFI detection and excision, almost all data can be calibrated and imaged without further RFI mitigation efforts, including observations within the FM and DTV bands. The results are compared to a previously published Low-Frequency Array (LOFAR) RFI survey. The remote location of the MWA results in a substantially cleaner RFI environment compared to LOFAR's radio environment, but adequate detection of RFI is still required before data can be analysed. We include specific recommendations designed to make the SKA more robust to RFI, including: the availability of sufficient computing power for RFI detection; accounting for RFI in the receiver design; a smooth band-pass response; and the capability of RFI detection at high time and frequency resolution (second and kHz-scale respectively)., Comment: Accepted for publication in PASA

Published

2015

241. What Next-Generation 21 cm Power Spectrum Measurements Can Teach Us About the Epoch of Reionization

Author

Dan Werthimer, Judd D. Bowman, James E. Aguirre, Matthew McQuinn, Max Tegmark, Joshua S. Dillon, Miguel F. Morales, Chris L. Carilli, David DeBoer, Richard F. Bradley, Jacqueline N. Hewitt, Adrian Liu, Daniel C. Jacobs, Jonathan C. Pober, Aaron R. Parsons, Massachusetts Institute of Technology. Department of Physics, MIT Kavli Institute for Astrophysics and Space Research, Dillon, Joshua Shane, Hewitt, Jacqueline N., and Tegmark, Max Erik

Subjects

Physics, Cosmology and Nongalactic Astrophysics (astro-ph.CO), 010308 nuclear & particles physics, Astrophysics::Instrumentation and Methods for Astrophysics, Spectral density, FOS: Physical sciences, Astronomy and Astrophysics, Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, 01 natural sciences, Precision Array for Probing the Epoch of Reionization, Redshift, Cosmology, Galaxy, Radio telescope, Space and Planetary Science, 0103 physical sciences, Dark Ages, 010303 astronomy & astrophysics, Reionization, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

A number of experiments are currently working towards a measurement of the 21 cm signal from the Epoch of Reionization. Whether or not these experiments deliver a detection of cosmological emission, their limited sensitivity will prevent them from providing detailed information about the astrophysics of reionization. In this work, we consider what types of measurements will be enabled by a next-generation of larger 21 cm EoR telescopes. To calculate the type of constraints that will be possible with such arrays, we use simple models for the instrument, foreground emission, and the reionization history. We focus primarily on an instrument modeled after the $\sim 0.1~\rm{km}^2$ collecting area Hydrogen Epoch of Reionization Array (HERA) concept design, and parameterize the uncertainties with regard to foreground emission by considering different limits to the recently described "wedge" footprint in k-space. Uncertainties in the reionization history are accounted for using a series of simulations which vary the ionizing efficiency and minimum virial temperature of the galaxies responsible for reionization, as well as the mean free path of ionizing photons through the IGM. Given various combinations of models, we consider the significance of the possible power spectrum detections, the ability to trace the power spectrum evolution versus redshift, the detectability of salient power spectrum features, and the achievable level of quantitative constraints on astrophysical parameters. Ultimately, we find that $0.1~\rm{km}^2$ of collecting area is enough to ensure a very high significance ($\gtrsim30\sigma$) detection of the reionization power spectrum in even the most pessimistic scenarios. This sensitivity should allow for meaningful constraints on the reionization history and astrophysical parameters, especially if foreground subtraction techniques can be improved and successfully implemented., Comment: 27 pages, 18 figures, updated SKA numbers in appendix

Published

2013