학술논문
The second data release from the European Pulsar Timing Array IV. Search for continuous gravitational wave signals
Document Type
Working Paper
Author
Antoniadis, J.; Arumugam, P.; Arumugam, S.; Babak, S.; Bagchi, M.; Nielsen, A. S. Bak; Bassa, C. G.; Bathula, A.; Berthereau, A.; Bonetti, M.; Bortolas, E.; Brook, P. R.; Burgay, M.; Caballero, R. N.; Chalumeau, A.; Champion, D. J.; Chanlaridis, S.; Chen, S.; Cognard, I.; Dandapat, S.; Deb, D.; Desai, S.; Desvignes, G.; Dhanda-Batra, N.; Dwivedi, C.; Falxa, M.; Ferranti, I.; Ferdman, R. D.; Franchini, A.; Gair, J. R.; Goncharov, B.; Gopakumar, A.; Graikou, E.; Grießmeier, J. M.; Guillemot, L.; Guo, Y. J.; Gupta, Y.; Hisano, S.; Hu, H.; Iraci, F.; Izquierdo-Villalba, D.; Jang, J.; Jawor, J.; Janssen, G. H.; Jessner, A.; Joshi, B. C.; Kareem, F.; Karuppusamy, R.; Keane, E. F.; Keith, M. J.; Kharbanda, D.; Kikunaga, T.; Kolhe, N.; Kramer, M.; Krishnakumar, M. A.; Lackeos, K.; Lee, K. J.; Liu, K.; Liu, Y.; Lyne, A. G.; McKee, J. W.; Maan, Y.; Main, R. A.; Manzini, S.; Mickaliger, M. B.; Nitu, I. C.; Nobleson, K.; Paladi, A. K.; Parthasarathy, A.; Perera, B. B. P.; Perrodin, D.; Petiteau, A.; Porayko, N. K.; Possenti, A.; Prabu, T.; Leclere, H. Quelquejay; Rana, P.; Samajdar, A.; Sanidas, S. A.; Sesana, A.; Shaifullah, G.; Singha, J.; Speri, L.; Spiewak, R.; Srivastava, A.; Stappers, B. W.; Surnis, M.; Susarla, S. C.; Susobhanan, A.; Takahashi, K.; Tarafdar, P.; Theureau, G.; Tiburzi, C.; van der Wateren, E.; Vecchio, A.; Krishnan, V. Venkatraman; Verbiest, J. P. W.; Wang, J.; Wang, L.; Wu, Z.
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Abstract
We present the results of a search for continuous gravitational wave signals (CGWs) in the second data release (DR2) of the European Pulsar Timing Array (EPTA) collaboration. The most significant candidate event from this search has a gravitational wave frequency of 4-5 nHz. Such a signal could be generated by a supermassive black hole binary (SMBHB) in the local Universe. We present the results of a follow-up analysis of this candidate using both Bayesian and frequentist methods. The Bayesian analysis gives a Bayes factor of 4 in favor of the presence of the CGW over a common uncorrelated noise process, while the frequentist analysis estimates the p-value of the candidate to be 1%, also assuming the presence of common uncorrelated red noise. However, comparing a model that includes both a CGW and a gravitational wave background (GWB) to a GWB only, the Bayes factor in favour of the CGW model is only 0.7. Therefore, we cannot conclusively determine the origin of the observed feature, but we cannot rule it out as a CGW source. We present results of simulations that demonstrate that data containing a weak gravitational wave background can be misinterpreted as data including a CGW and vice versa, providing two plausible explanations of the EPTA DR2 data. Further investigations combining data from all PTA collaborations will be needed to reveal the true origin of this feature.
Comment: 12 figures, 15 pages, to be submitted
Comment: 12 figures, 15 pages, to be submitted