Saved in:
Bibliographic Details
Main Authors: Gouiffés, C., Ng, C., Cognard, I., Dennefeld, M., Devaney, N., Dhillon, V. S., Guilet, J., Laurent, P., Floc'h, E. Le, Maury, A. J., Nimmo, K., Shearer, A., Spitler, L. G., Zarka, P., Corbel, S.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2411.16419
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866918217676488704
author Gouiffés, C.
Ng, C.
Cognard, I.
Dennefeld, M.
Devaney, N.
Dhillon, V. S.
Guilet, J.
Laurent, P.
Floc'h, E. Le
Maury, A. J.
Nimmo, K.
Shearer, A.
Spitler, L. G.
Zarka, P.
Corbel, S.
author_facet Gouiffés, C.
Ng, C.
Cognard, I.
Dennefeld, M.
Devaney, N.
Dhillon, V. S.
Guilet, J.
Laurent, P.
Floc'h, E. Le
Maury, A. J.
Nimmo, K.
Shearer, A.
Spitler, L. G.
Zarka, P.
Corbel, S.
contents The origin(s) of Fast Radio Bursts (FRBs), mysterious radio bursts coming from extragalactic distances, remains unknown. Multi-wavelength observations are arguably the only way to answer this question unambiguously. We attempt to detect hard X-ray/soft gamma-ray counterparts to one of the most active FRB sources, FRB20121102, as well as improve understanding of burst properties in radio through a long-term monitoring campaign using the Nançay Radio Telescope (NRT). Multi-wavelength campaigns involving the International Gamma-ray Astrophysics Laboratory (INTEGRAL) satellite, the Nançay Radio Observatory, the optical telescopes at the Observatoire de Haute Provence as well as Arecibo were conducted between 2017 and 2019. In 2017, the telescopes were scheduled to observe simultaneously between Sept 24-29. We specifically used the Fast Response Enhanced CCDs for the optical observations to ensure a high time resolution. In 2019, we changed the strategy to instead conduct ToO observations on INTEGRAL and other available facilities upon positive detection triggers from the NRT. In the 2017 campaign, FRB20121102 was not in its burst activity window. We obtain a 5-sigma optical flux limit of 12 mJy ms using the GASP and a 3-sigma limit from OHP T120cm R-band image of R=22.2 mag of any potential persistent emission not associated to radio bursts. In the 2019 campaign, we have simultaneous INTEGRAL data with 11 radio bursts from the NRT and Arecibo. We obtain a 5-sigma upper limit of 2.7e-7 erg/cm2 in the 25-400 keV energy range for contemporary radio and high energy bursts, and a 5-sigma upper limit of 3.8e-11 erg/cm2 for permanent emission in the 25-100 keV energy range. In addition, we report on the regular observations from NRT between 2016-2020, which accounts for 119 additional radio bursts from FRB20121102. We present an updated fit of the periodic active window of 154+/-2 days.
format Preprint
id arxiv_https___arxiv_org_abs_2411_16419
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Long term monitoring of FRB~20121102 with the Nançay Radio Telescope and multi-wavelength campaigns including INTEGRAL
Gouiffés, C.
Ng, C.
Cognard, I.
Dennefeld, M.
Devaney, N.
Dhillon, V. S.
Guilet, J.
Laurent, P.
Floc'h, E. Le
Maury, A. J.
Nimmo, K.
Shearer, A.
Spitler, L. G.
Zarka, P.
Corbel, S.
High Energy Astrophysical Phenomena
The origin(s) of Fast Radio Bursts (FRBs), mysterious radio bursts coming from extragalactic distances, remains unknown. Multi-wavelength observations are arguably the only way to answer this question unambiguously. We attempt to detect hard X-ray/soft gamma-ray counterparts to one of the most active FRB sources, FRB20121102, as well as improve understanding of burst properties in radio through a long-term monitoring campaign using the Nançay Radio Telescope (NRT). Multi-wavelength campaigns involving the International Gamma-ray Astrophysics Laboratory (INTEGRAL) satellite, the Nançay Radio Observatory, the optical telescopes at the Observatoire de Haute Provence as well as Arecibo were conducted between 2017 and 2019. In 2017, the telescopes were scheduled to observe simultaneously between Sept 24-29. We specifically used the Fast Response Enhanced CCDs for the optical observations to ensure a high time resolution. In 2019, we changed the strategy to instead conduct ToO observations on INTEGRAL and other available facilities upon positive detection triggers from the NRT. In the 2017 campaign, FRB20121102 was not in its burst activity window. We obtain a 5-sigma optical flux limit of 12 mJy ms using the GASP and a 3-sigma limit from OHP T120cm R-band image of R=22.2 mag of any potential persistent emission not associated to radio bursts. In the 2019 campaign, we have simultaneous INTEGRAL data with 11 radio bursts from the NRT and Arecibo. We obtain a 5-sigma upper limit of 2.7e-7 erg/cm2 in the 25-400 keV energy range for contemporary radio and high energy bursts, and a 5-sigma upper limit of 3.8e-11 erg/cm2 for permanent emission in the 25-100 keV energy range. In addition, we report on the regular observations from NRT between 2016-2020, which accounts for 119 additional radio bursts from FRB20121102. We present an updated fit of the periodic active window of 154+/-2 days.
title Long term monitoring of FRB~20121102 with the Nançay Radio Telescope and multi-wavelength campaigns including INTEGRAL
topic High Energy Astrophysical Phenomena
url https://arxiv.org/abs/2411.16419