A Gaussian-processes approach to fitting for time-variable spherical solar wind in pulsar timing data
Nitu LC, Keith MJ, Tiburzi C, Brueggen M, Champion DJ, Chen S, Cognard I, Desvignes G, Dettmar R-J, Griessmeier J-M, Guillemot L, et al. (2024)
Monthly Notices of the Royal Astronomical Society 528(2): 3304-3319.
Zeitschriftenaufsatz
| Veröffentlicht | Englisch
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Autor*in
Nitu, Luliana C.;
Keith, Michael J.;
Tiburzi, Caterina;
Brueggen, Marcus;
Champion, David J.;
Chen, Siyuan;
Cognard, Ismael;
Desvignes, Gregory;
Dettmar, Ralf-Juergen;
Griessmeier, Jean-Mathias;
Guillemot, Lucas;
Guo, Yanjun
Alle
Alle
Einrichtung
Abstract / Bemerkung
Propagation effects are one of the main sources of noise in high-precision pulsar timing. For pulsars below an ecliptic latitude of 5 degrees, the ionized plasma in the solar wind can introduce dispersive delays of order 100 mu s around solar conjunction at an observing frequency of 300 MHz. A common approach to mitigate this assumes a spherical solar wind with a time-constant amplitude. However, this has been shown to be insufficient to describe the solar wind. We present a linear, Gaussian-process piecewise Bayesian approach to fit a spherical solar wind of time-variable amplitude, which has been implemented in the pulsar software RUN_ENTERPRISE. Through simulations, we find that the current EPTA+InPTA data combination is not sensitive to such variations; however, solar wind variations will become important in the near future with the addition of new InPTA data and data collected with the low-frequency LOFAR telescope. We also compare our results for different high-precision timing data sets (EPTA+InPTA, PPTA, and LOFAR) of 3 ms pulsars (J0030+0451, J1022+1001, J2145-0450), and find that the solar-wind amplitudes are generally consistent for any individual pulsar, but they can vary from pulsar to pulsar. Finally, we compare our results with those of an independent method on the same LOFAR data of the three millisecond pulsars. We find that differences between the results of the two methods can be mainly attributed to the modelling of dispersion variations in the interstellar medium, rather than the solar wind modelling.
Stichworte
methods: data analysis;
solar wind;
pulsars: general;
pulsars:;
individual: PSRJ0030+0451;
PSRJ1022+1001;
PSR J2145-0450
Erscheinungsjahr
2024
Zeitschriftentitel
Monthly Notices of the Royal Astronomical Society
Band
528
Ausgabe
2
Seite(n)
3304-3319
ISSN
0035-8711
eISSN
1365-2966
Page URI
https://pub.uni-bielefeld.de/record/2988243
Zitieren
Nitu LC, Keith MJ, Tiburzi C, et al. A Gaussian-processes approach to fitting for time-variable spherical solar wind in pulsar timing data. Monthly Notices of the Royal Astronomical Society. 2024;528(2):3304-3319.
Nitu, L. C., Keith, M. J., Tiburzi, C., Brueggen, M., Champion, D. J., Chen, S., Cognard, I., et al. (2024). A Gaussian-processes approach to fitting for time-variable spherical solar wind in pulsar timing data. Monthly Notices of the Royal Astronomical Society, 528(2), 3304-3319. https://doi.org/10.1093/mnras/stae220
Nitu, Luliana C., Keith, Michael J., Tiburzi, Caterina, Brueggen, Marcus, Champion, David J., Chen, Siyuan, Cognard, Ismael, et al. 2024. “A Gaussian-processes approach to fitting for time-variable spherical solar wind in pulsar timing data”. Monthly Notices of the Royal Astronomical Society 528 (2): 3304-3319.
Nitu, L. C., Keith, M. J., Tiburzi, C., Brueggen, M., Champion, D. J., Chen, S., Cognard, I., Desvignes, G., Dettmar, R. - J., Griessmeier, J. - M., et al. (2024). A Gaussian-processes approach to fitting for time-variable spherical solar wind in pulsar timing data. Monthly Notices of the Royal Astronomical Society 528, 3304-3319.
Nitu, L.C., et al., 2024. A Gaussian-processes approach to fitting for time-variable spherical solar wind in pulsar timing data. Monthly Notices of the Royal Astronomical Society, 528(2), p 3304-3319.
L.C. Nitu, et al., “A Gaussian-processes approach to fitting for time-variable spherical solar wind in pulsar timing data”, Monthly Notices of the Royal Astronomical Society, vol. 528, 2024, pp. 3304-3319.
Nitu, L.C., Keith, M.J., Tiburzi, C., Brueggen, M., Champion, D.J., Chen, S., Cognard, I., Desvignes, G., Dettmar, R.-J., Griessmeier, J.-M., Guillemot, L., Guo, Y., Hoeft, M., Hu, H., Jang, J., Janssen, G.H., Jawor, J., Karuppusamy, R., Keane, E.F., Kramer, M., Künsemöller, J., Lackeos, K., Liu, K., Main, R.A., Mckee, J.W., Porayko, N.K., Shaifullah, G.M., Theureau, G., Vocks, C.: A Gaussian-processes approach to fitting for time-variable spherical solar wind in pulsar timing data. Monthly Notices of the Royal Astronomical Society. 528, 3304-3319 (2024).
Nitu, Luliana C., Keith, Michael J., Tiburzi, Caterina, Brueggen, Marcus, Champion, David J., Chen, Siyuan, Cognard, Ismael, Desvignes, Gregory, Dettmar, Ralf-Juergen, Griessmeier, Jean-Mathias, Guillemot, Lucas, Guo, Yanjun, Hoeft, Matthias, Hu, Huanchen, Jang, Jiwoong, Janssen, Gemma H., Jawor, Jedrzej, Karuppusamy, Ramesh, Keane, Evan F., Kramer, Michael, Künsemöller, Jörn, Lackeos, Kristen, Liu, Kuo, Main, Robert A., Mckee, James W., Porayko, Nataliya K., Shaifullah, Golam M., Theureau, Gilles, and Vocks, Christian. “A Gaussian-processes approach to fitting for time-variable spherical solar wind in pulsar timing data”. Monthly Notices of the Royal Astronomical Society 528.2 (2024): 3304-3319.
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