Improving DM estimates using low-frequency scattering-broadening estimates

A pulsar's pulse profile gets broadened at low frequencies due to dispersion along the line of sight or due to multi-path propagation. The dynamic nature of the interstellar medium makes both of these effects time-dependent and introduces slowly varying time delays in the measured times-of-arri...

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Veröffentlicht in:	arXiv.org 2024-10
Hauptverfasser:	Singha, Jaikhomba, Joshi, Bhal Chandra, Krishnakumar, M A, Fazal Kareem, Bathula, Adarsh, Dwivedi, Churchil, Shebin Jose Jacob, Desai, Shantanu, Tarafdar, Pratik, Arumugam, P, Arumugam, Swetha, Bagchi, Manjari, Neelam Dhanda Batra, Dandapat, Subhajit, Deb, Debabrata, Debnath, Jyotijwal, Gopakumar, A, Gupta, Yashwant, Hisano, Shinnosuke, Kato, Ryo, Kikunaga, Tomonosuke, Marmat, Piyush, Nobleson, K, Paladi, Avinash K, Arul, Pandian B, Prabu, Thiagaraj, Rana, Prerna, Srivastava, Aman, Surnis, Mayuresh, Susobhanan, Abhimanyu, Takahashi, Keitaro
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Sprache:	eng
Schlagworte:	Bias Estimates Gravitational effects Gravitational waves Interstellar matter Parameter estimation Physics - Instrumentation and Methods for Astrophysics Pulsars Pulse propagation Radio telescopes S parameters Scattering Signal to noise ratio Time dependence Time measurement Turbulence
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creator	Singha, Jaikhomba Joshi, Bhal Chandra Krishnakumar, M A Fazal Kareem Bathula, Adarsh Dwivedi, Churchil Shebin Jose Jacob Desai, Shantanu Tarafdar, Pratik Arumugam, P Arumugam, Swetha Bagchi, Manjari Neelam Dhanda Batra Dandapat, Subhajit Deb, Debabrata Debnath, Jyotijwal Gopakumar, A Gupta, Yashwant Hisano, Shinnosuke Kato, Ryo Kikunaga, Tomonosuke Marmat, Piyush Nobleson, K Paladi, Avinash K Arul, Pandian B Prabu, Thiagaraj Rana, Prerna Srivastava, Aman Surnis, Mayuresh Susobhanan, Abhimanyu Takahashi, Keitaro
description	A pulsar's pulse profile gets broadened at low frequencies due to dispersion along the line of sight or due to multi-path propagation. The dynamic nature of the interstellar medium makes both of these effects time-dependent and introduces slowly varying time delays in the measured times-of-arrival similar to those introduced by passing gravitational waves. In this article, we present an improved method to correct for such delays by obtaining unbiased dispersion measure (DM) measurements by using low-frequency estimates of the scattering parameters. We evaluate this method by comparing the obtained DM estimates with those, where scatter-broadening is ignored using simulated data. A bias is seen in the estimated DMs for simulated data with pulse-broadening with a larger variability for a data set with a variable frequency scaling index, $\alpha$, as compared to that assuming a Kolmogorov turbulence. Application of the proposed method removes this bias robustly for data with band averaged signal-to-noise ratio larger than 100. We report the measurements of the scatter-broadening time and $\alpha$ from analysis of PSR J1643$-$1224, observed with upgraded Giant Metrewave Radio Telescope as part of the Indian Pulsar Timing Array experiment. These scattering parameters were found to vary with epoch and $\alpha$ was different from that expected for Kolmogorov turbulence. Finally, we present the DM time-series after application of this technique to PSR J1643$-$1224.
doi_str_mv	10.48550/arxiv.2309.16765
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We report the measurements of the scatter-broadening time and $\alpha$ from analysis of PSR J1643$-$1224, observed with upgraded Giant Metrewave Radio Telescope as part of the Indian Pulsar Timing Array experiment. These scattering parameters were found to vary with epoch and $\alpha$ was different from that expected for Kolmogorov turbulence. 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The dynamic nature of the interstellar medium makes both of these effects time-dependent and introduces slowly varying time delays in the measured times-of-arrival similar to those introduced by passing gravitational waves. In this article, we present an improved method to correct for such delays by obtaining unbiased dispersion measure (DM) measurements by using low-frequency estimates of the scattering parameters. We evaluate this method by comparing the obtained DM estimates with those, where scatter-broadening is ignored using simulated data. A bias is seen in the estimated DMs for simulated data with pulse-broadening with a larger variability for a data set with a variable frequency scaling index, $\alpha$, as compared to that assuming a Kolmogorov turbulence. Application of the proposed method removes this bias robustly for data with band averaged signal-to-noise ratio larger than 100. We report the measurements of the scatter-broadening time and $\alpha$ from analysis of PSR J1643$-$1224, observed with upgraded Giant Metrewave Radio Telescope as part of the Indian Pulsar Timing Array experiment. These scattering parameters were found to vary with epoch and $\alpha$ was different from that expected for Kolmogorov turbulence. Finally, we present the DM time-series after application of this technique to PSR J1643$-$1224.</abstract><cop>Ithaca</cop><pub>Cornell University Library, arXiv.org</pub><doi>10.48550/arxiv.2309.16765</doi><oa>free_for_read</oa></addata></record>
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subjects	Bias Estimates Gravitational effects Gravitational waves Interstellar matter Parameter estimation Physics - Instrumentation and Methods for Astrophysics Pulsars Pulse propagation Radio telescopes S parameters Scattering Signal to noise ratio Time dependence Time measurement Turbulence
title	Improving DM estimates using low-frequency scattering-broadening estimates
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