Noise analysis in the European Pulsar Timing Array data release 2 and its implications on the gravitational-wave background search
Chalumeau A, Babak S, Petiteau A, Chen S, Samajdar A, Caballero RN, Theureau G, Guillemot L, Desvignes G, Parthasarathy A, Liu K, et al. (2022)
Monthly Notices of the Royal Astronomical Society 509(4): 5538-5558.
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Autor*in
Chalumeau, A;
Babak, S;
Petiteau, A;
Chen, S;
Samajdar, A;
Caballero, R N;
Theureau, G;
Guillemot, L;
Desvignes, G;
Parthasarathy, A;
Liu, K;
Shaifullah, G
Alle
Alle
Einrichtung
Abstract / Bemerkung
**ABSTRACT**
The European Pulsar Timing Array (EPTA) collaboration has recently released an extended data set for six pulsars (DR2) and reported evidence for a common red noise signal. Here we present a noise analysis for each of the six pulsars. We consider several types of noise: (i) radio frequency independent, ‘achromatic’, and time-correlated red noise; (ii) variations of dispersion measure and scattering; (iii) system and band noise; and (iv) deterministic signals (other than gravitational waves) that could be present in the PTA data. We perform Bayesian model selection to find the optimal combination of noise components for each pulsar. Using these custom models we revisit the presence of the common uncorrelated red noise signal previously reported in the EPTA DR2 and show that the data still supports it with a high statistical significance. Next, we confirm that there is no preference for or against the Hellings–Downs spatial correlations expected for the stochastic gravitational-wave background. The main conclusion of the EPTA DR2 paper remains unchanged despite a very significant change in the noise model of each pulsar. However, modelling the noise is essential for the robust detection of gravitational waves and its impact could be significant when analysing the next EPTA data release, which will include a larger number of pulsars and more precise measurements.
The European Pulsar Timing Array (EPTA) collaboration has recently released an extended data set for six pulsars (DR2) and reported evidence for a common red noise signal. Here we present a noise analysis for each of the six pulsars. We consider several types of noise: (i) radio frequency independent, ‘achromatic’, and time-correlated red noise; (ii) variations of dispersion measure and scattering; (iii) system and band noise; and (iv) deterministic signals (other than gravitational waves) that could be present in the PTA data. We perform Bayesian model selection to find the optimal combination of noise components for each pulsar. Using these custom models we revisit the presence of the common uncorrelated red noise signal previously reported in the EPTA DR2 and show that the data still supports it with a high statistical significance. Next, we confirm that there is no preference for or against the Hellings–Downs spatial correlations expected for the stochastic gravitational-wave background. The main conclusion of the EPTA DR2 paper remains unchanged despite a very significant change in the noise model of each pulsar. However, modelling the noise is essential for the robust detection of gravitational waves and its impact could be significant when analysing the next EPTA data release, which will include a larger number of pulsars and more precise measurements.
Erscheinungsjahr
2022
Zeitschriftentitel
Monthly Notices of the Royal Astronomical Society
Band
509
Ausgabe
4
Seite(n)
5538-5558
ISSN
0035-8711
eISSN
1365-2966
Page URI
https://pub.uni-bielefeld.de/record/2960508
Zitieren
Chalumeau A, Babak S, Petiteau A, et al. Noise analysis in the European Pulsar Timing Array data release 2 and its implications on the gravitational-wave background search. Monthly Notices of the Royal Astronomical Society. 2022;509(4):5538-5558.
Chalumeau, A., Babak, S., Petiteau, A., Chen, S., Samajdar, A., Caballero, R. N., Theureau, G., et al. (2022). Noise analysis in the European Pulsar Timing Array data release 2 and its implications on the gravitational-wave background search. Monthly Notices of the Royal Astronomical Society, 509(4), 5538-5558. https://doi.org/10.1093/mnras/stab3283
Chalumeau, A, Babak, S, Petiteau, A, Chen, S, Samajdar, A, Caballero, R N, Theureau, G, et al. 2022. “Noise analysis in the European Pulsar Timing Array data release 2 and its implications on the gravitational-wave background search”. Monthly Notices of the Royal Astronomical Society 509 (4): 5538-5558.
Chalumeau, A., Babak, S., Petiteau, A., Chen, S., Samajdar, A., Caballero, R. N., Theureau, G., Guillemot, L., Desvignes, G., Parthasarathy, A., et al. (2022). Noise analysis in the European Pulsar Timing Array data release 2 and its implications on the gravitational-wave background search. Monthly Notices of the Royal Astronomical Society 509, 5538-5558.
Chalumeau, A., et al., 2022. Noise analysis in the European Pulsar Timing Array data release 2 and its implications on the gravitational-wave background search. Monthly Notices of the Royal Astronomical Society, 509(4), p 5538-5558.
A. Chalumeau, et al., “Noise analysis in the European Pulsar Timing Array data release 2 and its implications on the gravitational-wave background search”, Monthly Notices of the Royal Astronomical Society, vol. 509, 2022, pp. 5538-5558.
Chalumeau, A., Babak, S., Petiteau, A., Chen, S., Samajdar, A., Caballero, R.N., Theureau, G., Guillemot, L., Desvignes, G., Parthasarathy, A., Liu, K., Shaifullah, G., Hu, H., van der Wateren, E., Antoniadis, J., Bak Nielsen, A.-S., Bassa, C.G., Berthereau, A., Burgay, M., Champion, D.J., Cognard, I., Falxa, M., Ferdman, R.D., Freire, P.C.C., Gair, J.R., Graikou, E., Guo, Y.J., Jang, J., Janssen, G.H., Karuppusamy, R., Keith, M.J., Kramer, M., Lee, K.J., Liu, X.J., Lyne, A.G., Main, R.A., McKee, J.W., Mickaliger, M.B., Perera, B.B.P., Perrodin, D., Porayko, N.K., Possenti, A., Sanidas, S.A., Sesana, A., Speri, L., Stappers, B.W., Tiburzi, C., Vecchio, A., Verbiest, J., Wang, J., Wang, L., Xu, H.: Noise analysis in the European Pulsar Timing Array data release 2 and its implications on the gravitational-wave background search. Monthly Notices of the Royal Astronomical Society. 509, 5538-5558 (2022).
Chalumeau, A, Babak, S, Petiteau, A, Chen, S, Samajdar, A, Caballero, R N, Theureau, G, Guillemot, L, Desvignes, G, Parthasarathy, A, Liu, K, Shaifullah, G, Hu, H, van der Wateren, E, Antoniadis, J, Bak Nielsen, A-S, Bassa, C G, Berthereau, A, Burgay, M, Champion, D J, Cognard, I, Falxa, M, Ferdman, R D, Freire, P C C, Gair, J R, Graikou, E, Guo, Y J, Jang, J, Janssen, G H, Karuppusamy, R, Keith, M J, Kramer, M, Lee, K J, Liu, X J, Lyne, A G, Main, R A, McKee, J W, Mickaliger, M B, Perera, B B P, Perrodin, D, Porayko, N K, Possenti, A, Sanidas, S A, Sesana, A, Speri, L, Stappers, B W, Tiburzi, C, Vecchio, A, Verbiest, Joris, Wang, Jun, Wang, L, and Xu, H. “Noise analysis in the European Pulsar Timing Array data release 2 and its implications on the gravitational-wave background search”. Monthly Notices of the Royal Astronomical Society 509.4 (2022): 5538-5558.
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