G. Agazie, Md F. Alam, A. Anumarlapudi, A. Archibald, Z. Arzoumanian, P. Baker, L. Blecha, Victoria Bonidie, A. Brazier, P. Brook, S. Burke-Spolaor, B. B'ecsy, Christopher Chapman, M. Charisi, S. Chatterjee, T. Cohen, J. Cordes, N. Cornish, F. Crawford, H. Cromartie, K. Crowter, M. DeCesar, P. Demorest, T. Dolch, B. Drachler, E. Ferrara, W. Fiore, E. Fonseca, G. Freedman, N. Garver-Daniels, P. Gentile, J. Glaser, D. Good, K. Gultekin, J. Hazboun, R. Jennings, Cody Jessup, A. Johnson, Megan L. Jones, A. Kaiser, D. Kaplan, L. Kelley, M. Kerr, J. Key, A. Kuske, N. Laal, M. Lam, W. Lamb, T. Lazio, N. Lewandowska, Ye Lin, Tianyu Liu, D. Lorimer, Jing Luo, R. Lynch, Chung-Pei Ma, D. Madison, Kaleb Maraccini, A. McEwen, J. McKee, Maura A. McLaughlin, N. McMann, B. W. Meyers, C. Mingarelli, A. Mitridate, C. Ng, D. Nice, S. Ocker, K. Olum, Elisa Panciu, T. Pennucci, B. Perera, N. Pol, H. Radovan, S. Ransom, P. Ray, J. Romano, Laura Salo, S. C. Sardesai, C. Schmiedekamp, A. Schmiedekamp, K. Schmitz, B. Shapiro-Albe
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引用次数: 60
Abstract
We present observations and timing analyses of 68 millisecond pulsars (MSPs) comprising the 15 yr data set of the North American Nanohertz Observatory for Gravitational Waves (NANOGrav). NANOGrav is a pulsar timing array (PTA) experiment that is sensitive to low-frequency gravitational waves (GWs). This is NANOGrav’s fifth public data release, including both “narrowband” and “wideband” time-of-arrival (TOA) measurements and corresponding pulsar timing models. We have added 21 MSPs and extended our timing baselines by 3 yr, now spanning nearly 16 yr for some of our sources. The data were collected using the Arecibo Observatory, the Green Bank Telescope, and the Very Large Array between frequencies of 327 MHz and 3 GHz, with most sources observed approximately monthly. A number of notable methodological and procedural changes were made compared to our previous data sets. These improve the overall quality of the TOA data set and are part of the transition to new pulsar timing and PTA analysis software packages. For the first time, our data products are accompanied by a full suite of software to reproduce data reduction, analysis, and results. Our timing models include a variety of newly detected astrometric and binary pulsar parameters, including several significant improvements to pulsar mass constraints. We find that the time series of 23 pulsars contain detectable levels of red noise, 10 of which are new measurements. In this data set, we find evidence for a stochastic GW background.
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