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16 results on '"Matthews, Allison M"'

2. Resolved Star Formation Efficiency in the Antennae Galaxies

Author

Matthews, Allison M., Johnson, Kelsey E., Whitmore, Bradley C., Brogan, Crystal L., Leroy, Adam K., and Indebetouw, Remy

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

We use Atacama Large Millimeter Array CO(3-2) observations in conjunction with optical observations from the Hubble Space Telescope to determine the ratio of stellar to gas mass for regions in the Antennae Galaxies. We adopt the term "instantaneous mass ratio" IMR(t) = M$_{stars}$/(M$_{gas}$ +M$_{stars}$), that is equivalent to the star formation efficiency for an idealized system at t = 0. We use two complementary approaches to determining the IMR(t) based on 1) the enclosed stellar and molecular mass within circular apertures centered on optically-identified clusters, and 2) a tessellation algorithm that defines regions based on CO emission. We find that only a small number of clusters appear to have IMR(0) = SFE > 0.2, which suggests that only a small fraction of these clusters will remain bound. The results suggest that by ages of $10^{6.7}$ years, some clusters will have lost all of their associated molecular gas, and by $10^{7.5}$ years this is true for the majority of clusters. There appears to be slight dependence of the IMR(t) on the CO surface brightness, which could support the idea that dense molecular environments are more likely to form bound clusters. However, the IMR(t) appears to have a strong dependence on extinction, which likely traces the evolutionary state of clusters., Comment: 17 pages, 10 figures, accepted for publication in ApJ

Published
2018
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3. The NANOGrav 11-year Data Set: High-precision timing of 45 Millisecond Pulsars

Author

Arzoumanian, Zaven, Brazier, Adam, Burke-Spolaor, Sarah, Chamberlin, Sydney, Chatterjee, Shami, Christy, Brian, Cordes, James M., Cornish, Neil J., Crawford, Fronefield, Cromartie, H. Thankful, Crowter, Kathryn, DeCesar, Megan E., Demorest, Paul B., Dolch, Timothy, Ellis, Justin A., Ferdman, Robert D., Ferrara, Elizabeth C., Fonseca, Emmanuel, Garver-Daniels, Nathan, Gentile, Peter A., Halmrast, Daniel, Huerta, Eliu, Jenet, Fredrick A., Jessup, Cody, Jones, Glenn, Jones, Megan L., Kaplan, David L., Lam, Michael T., Lazio, T. Joseph W., Levin, Lina, Lommen, Andrea, Lorimer, Duncan R., Luo, Jing, Lynch, Ryan S., Madison, Dustin, Matthews, Allison M., McLaughlin, Maura A., McWilliams, Sean T., Mingarelli, Chiara, Ng, Cherry, Nice, David J., Pennucci, Timothy T., Ransom, Scott M., Ray, Paul S., Siemens, Xavier, Simon, Joseph, Spiewak, Renee, Stairs, Ingrid H., Stinebring, Daniel R., Stovall, Kevin, Swiggum, Joseph K., Taylor, Stephen R., Vallisneri, Michele, van Haasteren, Rutger, Vigeland, Sarah J., and Zhu, Weiwei

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

We present high-precision timing data over time spans of up to 11 years for 45 millisecond pulsars observed as part of the North American Nanohertz Observatory for Gravitational Waves (NANOGrav) project, aimed at detecting and characterizing low-frequency gravitational waves. The pulsars were observed with the Arecibo Observatory and/or the Green Bank Telescope at frequencies ranging from 327 MHz to 2.3 GHz. Most pulsars were observed with approximately monthly cadence, with six high--timing-precision pulsars observed weekly, and all were observed at widely separated frequencies at each observing epoch in order to fit for time-variable dispersion delays. We describe our methods for data processing, time-of-arrival (TOA) calculation, and the implementation of a new, automated method for removing outlier TOAs. We fit a timing model for each pulsar that includes spin, astrometric, and, if necessary, binary parameters, in addition to time-variable dispersion delays and parameters that quantify pulse-profile evolution with frequency. The new timing solutions provide three new parallax measurements, two new Shapiro delay measurements, and two new measurements of large orbital-period variations. We fit models that characterize sources of noise for each pulsar. We find that 11 pulsars show significant red noise, with generally smaller spectral indices than typically measured for non-recycled pulsars, possibly suggesting a different origin. Future papers will use these data to constrain or detect the signatures of gravitational-wave signals., Comment: Published in the Astrophysical Journal Supplement Series

Published
2017
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4. Disentangling the Galactic Halo with APOGEE: I. Chemical and Kinematical Investigation of Distinct Metal-Poor Populations

Author

Hayes, Christian R., Majewski, Steven R., Shetrone, Matthew, Fernández-Alvar, Emma, Prieto, Carlos Allende, Schuster, William J., Carigi, Leticia, Cunha, Katia, Smith, Verne V., Sobeck, Jennifer, Almeida, Andres, Beers, Timothy C., Carrera, Ricardo, Fernández-Trincado, J. G., García-Hernández, D. A., Geisler, Doug, Lane, Richard R., Lucatello, Sara, Matthews, Allison M., Minniti, Dante, Nitschelm, Christian, Tang, Baitian, Tissera, Patricia B., and Zamora, Olga

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

We find two chemically distinct populations separated relatively cleanly in the [Fe/H] - [Mg/Fe] plane, but also distinguished in other chemical planes, among metal-poor stars (primarily with metallicities [Fe/H] $< -0.9$) observed by the Apache Point Observatory Galactic Evolution Experiment (APOGEE) and analyzed for Data Release 13 (DR13) of the Sloan Digital Sky Survey. These two stellar populations show the most significant differences in their [X/Fe] ratios for the $\alpha$-elements, C+N, Al, and Ni. In addition to these populations having differing chemistry, the low metallicity high-Mg population (which we denote the HMg population) exhibits a significant net Galactic rotation, whereas the low-Mg population (or LMg population) has halo-like kinematics with little to no net rotation. Based on its properties, the origin of the LMg population is likely as an accreted population of stars. The HMg population shows chemistry (and to an extent kinematics) similar to the thick disk, and is likely associated with $\it in$ $\it situ$ formation. The distinction between the LMg and HMg populations mimics the differences between the populations of low- and high-$\alpha$ halo stars found in previous studies, suggesting that these are samples of the same two populations., Comment: 21 pages, 13 figures, 1 table. Accepted for publishing in The Astrophysical Journal

Published
2017
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5. First Results from the Dark Skies, Bright Kids Astronomy Club Draw-a-Scientist Test

Author

Hayes, Christian R., Matthews, Allison M., Song, Yiqing, Linden, Sean T., Wilson, Robert F., Finn, Molly, Huang, Xiaoshan, Johnson, Kelsey E., McAlister, Anne M., Prager, Brian, Seifert, Richard, Liss, Sandra E., Burkhardt, Andrew M., and Troup, Nicholas

Abstract

This paper presents the first results from draw-a-scientist tests (DASTs) over five years that were used to measure the effect of 8-10 week long astronomy clubs and week long summer camps on 3rd-5th grade elementary school students' perceptions of scientists. We facilitated these DASTs prior to these clubs or camps, which provide a baseline for a student's initial conception of scientists, and once at the end, to determine whether their conception changed, possibly as a result of their involvement. In total we analyze 89 pairs of DASTs using a numerical grading scheme designed to quantify the presence of various features in the drawn scientist and their activities. We find that there is a gender imbalance in both the pre- and postclub drawings, with only 32% and 35%, respectively, of students drawing female scientists. We also find that a third to a half of the scientists have a stereotypical appearance and/or are performing stereotypical activities. Although we find insignificant changes (<5%) in most categories, we do find an 8% increase in the number of scientists that have a stereotypical appearance, which is worth following up, but a significant 12% decrease in the number of scientists who are performing stereotypical activities. In addition, we present some possible improvements to implementing DASTs and discuss other possible assessments that could provide a more direct method of gauging the effect of these astronomy clubs or camps.

Published
2020
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7. The NANOGrav Nine-year Data Set: Astrometric Measurements of 37 Millisecond Pulsars

Author

Matthews, Allison M., Nice, David J., Fonseca, Emmanuel, Arzoumanian, Zaven, Crowter, Kathryn, Demorest, Paul B., Dolch, Timothy, Ellis, Justin A., Ferdman, Robert D., Gonzalez, Marjorie E., Jones, Glenn, Jones, Megan L., Lam, Michael T., Levin, Lina, McLaughlin, Maura A., Pennucci, Timothy T., Ransom, Scott M., Stairs, Ingrid H., Stovall, Kevin, Swiggum, Joseph K., and Zhu, Weiwei

Subjects
Astrophysics - Astrophysics of Galaxies, Astrophysics - High Energy Astrophysical Phenomena
Abstract

Using the nine-year radio-pulsar timing data set from the North American Nanohertz Observatory for Gravitational Waves (NANOGrav), collected at Arecibo Observatory and the Green Bank Telescope, we have measured the positions, proper motions, and parallaxes for 37 millisecond pulsars. We report twelve significant parallax measurements and distance measurements, and eighteen lower limits on distance. We compare these measurements to distances predicted by the NE2001 interstellar electron density model and find them to be in general agreement. We use measured orbital-decay rates and spin-down rates to confirm two of the parallax distances and to place distance upper limits on other sources; these distance limits agree with the parallax distances with one exception, PSR J1024-0719, which we discuss at length. Using the proper motions of the 37 NANOGrav pulsars in combination with other published measurements, we calculate the velocity dispersion of the millisecond pulsar population in Galactocentric coordinates. We find the radial, azimuthal, and perpendicular dispersions to be 46, 40, and 24 km s-1, respectively, in a model that allows for high-velocity outliers; or 81, 58, and 62 km s-1 for the full population. These velocity dispersions are far smaller than those of the canonical pulsar population, and are similar to older Galactic disk populations. This suggests that millisecond pulsar velocities are largely attributable to their being an old population rather than being artifacts of their birth and evolution as neutron star binary systems. The components of these velocity dispersions follow similar proportions to other Galactic populations, suggesting that our results are not biased by selection effects., Comment: Accepted by ApJ

Published
2015
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9. Atypical cerebral palsy: genomics analysis enables precision medicine

Author

Matthews, Allison M., Blydt-Hansen, Ingrid, Al-Jabri, Basmah, Andersen, John, Tarailo-Graovac, Maja, Price, Magda, Selby, Katherine, Demos, Michelle, Connolly, Mary, Drögemoller, Britt, Shyr, Casper, Mwenifumbo, Jill, Elliott, Alison M., Lee, Jessica, Ghani, Aisha, Stöckler, Sylvia, Salvarinova, Ramona, Vallance, Hilary, Sinclair, Graham, Ross, Colin J., Wasserman, Wyeth W., McKinnon, Margaret L., Horvath, Gabriella A., Goez, Helly, van Karnebeek, Clara D., and On behalf of TIDE BC, United for Metabolic Diseases and the CAUSES Study

Published
2019
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10. The NANOGrav 11-year Data Set: High-Precision Timing of 45 Millisecond Pulsars

Author

Arzoumanian, Zaven, Brazier, Adam, Burke-Spolaor, Sarah, Chamberlin, Sydney, Chatterjee, Shami, Christy, Brian, Cordes, James M, Cornish, Neil J, Crawford, Fronefield, Cromartie, H. Thankful, Crowter, Kathryn, DeCesar, Megan E, Demorest, Paul B, Dolch, Timothy, Ellis, Justin A, Ferdman, Robert D, Ferrara, Elizabeth C, Fonseca, Emmanuel, Garver-Daniels, Nathan, Gentile, Peter A, Halmrast, Daniel, Huerta, E. A, Jenet, Fredrick A, Jessup, Cody, Jones, Glenn, Jones, Megan L, Kaplan, David L, Lam, Michael T, Lazio, T. Joseph W, Levin, Lina, Lommen, Andrea, Lorimer, Duncan R, Luo, Jing, Lynch, Ryan S, Madison, Dustin, Matthews, Allison M, McLaughlin, Maura A, McWilliams, Sean T, Mingarelli, Chiara, Ng, Cherry, Nice, David J, Pennucci, Timothy T, Ransom, Scott M, Ray, Paul S, Siemens, Xavier, Simon, Joseph, Spiewak, Renée, Stairs, Ingrid H, Stinebring, Daniel R, Stovall, Kevin, Swiggum, Joseph K, Taylor, Stephen R, Vallisneri, Michele, van Haasteren, Rutger, Vigeland, Sarah J, and Zhu, Weiwei

Subjects
Astrophysics
Abstract

We present high-precision timing data over time spans of up to 11 years for 45 millisecond pulsars observed as part of the North American Nanohertz Observatory for Gravitational Waves (NANOGrav) project, aimed at detecting and characterizing low-frequency gravitational waves. The pulsars were observed with the Arecibo Observatory and/or the Green Bank Telescope at frequencies ranging from 327 MHz to 2.3 GHz. Most pulsars were observed with approximately monthly cadence, and six high-timing-precision pulsars were observed weekly. All were observed at widely separated frequencies at each observing epoch in order to fit for time-variable dispersion delays. We describe our methods for data processing, time-of-arrival (TOA) calculation, and the implementation of a new, automated method for removing outlier TOAs. We fit a timing model for each pulsar that includes spin, astrometric, and (for binary pulsars) orbital parameters; time-variable dispersion delays; and parameters that quantify pulse-profile evolution with frequency. The timing solutions provide three new parallax measurements, two new Shapiro delay measurements, and two new measurements of significant orbital-period variations. We fit models that characterize sources of noise for each pulsar. We find that 11 pulsars show significant red noise, with generally smaller spectral indices than typically measured for non-recycled pulsars, possibly suggesting a different origin. A companion paper uses these data to constrain the strength of the gravitational-wave background

Published
2018
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14. Disentangling the Galactic Halo with APOGEE. I. Chemical and Kinematical Investigation of Distinct Metal-poor Populations

Author

Hayes, Christian R., primary, Majewski, Steven R., additional, Shetrone, Matthew, additional, Fernández-Alvar, Emma, additional, Prieto, Carlos Allende, additional, Schuster, William J., additional, Carigi, Leticia, additional, Cunha, Katia, additional, Smith, Verne V., additional, Sobeck, Jennifer, additional, Almeida, Andres, additional, Beers, Timothy C., additional, Carrera, Ricardo, additional, Fernández-Trincado, J. G., additional, García-Hernández, D. A., additional, Geisler, Doug, additional, Lane, Richard R., additional, Lucatello, Sara, additional, Matthews, Allison M., additional, Minniti, Dante, additional, Nitschelm, Christian, additional, Tang, Baitian, additional, Tissera, Patricia B., additional, and Zamora, Olga, additional

Published
2018
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15. YY1 binding association with sex-biased transcription revealed through X-linked transcript levels and allelic binding analyses

Author

Chen, Chih-yu, primary, Shi, Wenqiang, additional, Balaton, Bradley P., additional, Matthews, Allison M., additional, Li, Yifeng, additional, Arenillas, David J., additional, Mathelier, Anthony, additional, Itoh, Masayoshi, additional, Kawaji, Hideya, additional, Lassmann, Timo, additional, Hayashizaki, Yoshihide, additional, Carninci, Piero, additional, Forrest, Alistair R. R., additional, Brown, Carolyn J., additional, and Wasserman, Wyeth W., additional

Published
2016
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16. THE NANOGRAV NINE-YEAR DATA SET: ASTROMETRIC MEASUREMENTS OF 37 MILLISECOND PULSARS

Author

Matthews, Allison M., primary, Nice, David J., additional, Fonseca, Emmanuel, additional, Arzoumanian, Zaven, additional, Crowter, Kathryn, additional, Demorest, Paul B., additional, Dolch, Timothy, additional, Ellis, Justin A., additional, Ferdman, Robert D., additional, Gonzalez, Marjorie E., additional, Jones, Glenn, additional, Jones, Megan L., additional, Lam, Michael T., additional, Levin, Lina, additional, McLaughlin, Maura A., additional, Pennucci, Timothy T., additional, Ransom, Scott M., additional, Stairs, Ingrid H., additional, Stovall, Kevin, additional, Swiggum, Joseph K., additional, and Zhu, Weiwei, additional

Published
2016
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