Your search keyword '"Petroff, Emily"' showing total 165 results

1. Improved constraints on the Faraday rotation towards eight fast radio bursts using dense grids of polarized radio galaxies

Author

Pandhi, Ayush, Gaensler, Bryan M., Pleunis, Ziggy, Hutschenreuter, Sebastian, Law, Casey, Mckinven, Ryan, O'Sullivan, Shane P., Petroff, Emily B., and Vernstrom, Tessa

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - High Energy Astrophysical Phenomena

Abstract

We present 2-4 GHz observations of polarized radio galaxies towards eight fast radio bursts (FRBs), producing grids of Faraday rotation measure (RM) sources with sky densities of 9-28 polarized sources per square degree. Using a Bayesian interpolation framework, we constrain Galactic RM fluctuations below ~ 1 degree squared angular scales around the FRB positions. Despite the positions of all eight FRBs far from the Galactic plane, we constrain previously unresolved small-scale Galactic RM structures around six of the eight FRBs. In two of these fields, we find potential changes in the sign of the Galactic RM that are not captured by previous, sparsely sampled RM grid observations. Our Galactic RM estimate towards the FRBs differs between a few rad m^-2 up to ~ 40 rad m^-2 from the all-sky Galactic RM map of Hutschenreuter et al. (2022). Extrapolating our results to the known population of polarized FRB sources, we may be incorrectly interpreting the host galaxy RM for ~ 30% of the FRB source population with current RM grid observations. Measuring small-scale Galactic RM variations is crucial for identifying FRBs in low density and weakly magnetized environments, which in turn could serve as potent probes of cosmic magnetism. This framework of reconstructing continuous Galactic RM structure from RM grid observations can be readily applied to FRBs that fall in the sky coverage of upcoming large-sky radio polarization surveys of radio galaxies, such as the Very Large Array Sky Survey (VLASS) and the Polarization Sky Survey of the Universe's Magnetism (POSSUM)., Comment: 25 pages, 8 figures, accepted to ApJ

Published

2025

2. A Catalog of Local Universe Fast Radio Bursts from CHIME/FRB and the KKO Outrigger

Author

Amiri, Mandana, Amouyal, Daniel, Andersen, Bridget C., Andrew, Shion, Bandura, Kevin, Bhardwaj, Mohit, Boyle, P. J., Brar, Charanjot, Cassity, Alyssa, Chatterjee, Shami, Curtin, Alice P., Dobbs, Matt, Dong, Fengqiu Adam, Dong, Yuxin, Eadie, Gwendolyn M., Eftekhari, Tarraneh, Fong, Wen-fai, Fonseca, Emmanuel, Gaensler, B. M., Halpern, Mark, Hessels, Jason W. T., Hopkins, Hans, Ibik, Adaeze L., Joseph, Ronniy C., Kaczmarek, Jane, Kahinga, Lordrick, Kaspi, Victoria, Khairy, Kholoud, Kilpatrick, Charles D., Lanman, Adam E., Lazda, Mattias, Leung, Calvin, Main, Robert, Mas-Ribas, Lluis, Masui, Kiyoshi W., Mckinven, Ryan, Mena-Parra, Juan, Meyers, Bradley W., Michilli, Daniele, Milutinovic, Nikola, Nimmo, Kenzie, Noble, Gavin, Pandhi, Ayush, Patil, Swarali Shivraj, Pearlman, Aaron B., Petroff, Emily, Pleunis, Ziggy, Prochaska, J. Xavier, Rafiei-Ravandi, Masoud, Rahman, Mubdi, Renard, Andre, Sammons, Mawson W., Sand, Ketan R., Scholz, Paul, Shah, Vishwangi, Shin, Kaitlyn, Siegel, Seth R., Simha, Sunil, Smith, Kendrick, Stairs, Ingrid, Vanderlinde, Keith, Wang, Haochen, Wulf, Dallas, and Zegmott, Tarik J.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We present the first catalog of fast radio burst (FRB) host galaxies from CHIME/FRB Outriggers, selected uniformly in the radio and the optical by localizing 81 new bursts to 2'' x ~60'' accuracy using CHIME and the KKO Outrigger, located 66 km from CHIME. Of the 81 localized bursts, we use the Probabilistic Association of Transients to their Hosts (PATH) algorithm to securely identify 21 new FRB host galaxies, and compile spectroscopic redshifts for 19 systems, 15 of which are newly obtained via spectroscopic observations. The most nearby source is FRB 20231229A, at a distance of 90 Mpc. One burst in our sample is from a previously reported repeating source in a galaxy merger (FRB 20190303A). Three new FRB host galaxies (FRBs 20230203A, 20230703A, and 20231206A) are found towards X-ray and optically selected galaxy clusters, potentially doubling the sample of known galaxy cluster FRBs. A search for radio counterparts reveals that FRB 20231128A is associated with a luminous persistent radio source (PRS) candidate with high significance ($P_{cc} \sim 10^{-2}$). If its compactness is confirmed, it would be the nearest known compact PRS at $z = 0.1079$. Our catalog significantly increases the statistics of the Macquart relation at low redshifts ($z < 0.2$). In the near future, the completed CHIME/FRB Outriggers array will produce hundreds of FRBs localized with very long baseline interferometry (VLBI). This will significantly expand the known sample and pave the way for future telescopes relying on VLBI for FRB localization., Comment: 27 pages, 10 figures

Published

2025

3. frb-voe: A Real-time Virtual Observatory Event Alert Service for Fast Radio Bursts

Author

Abbott, Thomas C., Zwaniga, Andrew V., Brar, Charanjot, Kaspi, Victoria M., Petroff, Emily, Bhardwaj, Mohit, Boyle, P. J., Cook, Amanda M., Joseph, Ronny C., Masui, Kiyoshi W., Pandhi, Ayush, Pleunis, Ziggy, Scholz, Paul, Shin, Kaitlyn, and Tendulkar, Shriharsh

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

We present frb-voe, a publicly available software package that enables radio observatories to broadcast fast radio burst (FRB) alerts to subscribers through low-latency virtual observatory events (VOEvents). We describe a use-case of frb-voe by the Canadian Hydrogen Intensity Mapping Experiment Fast Radio Burst (CHIME/FRB) Collaboration, which has broadcast thousands of FRB alerts to subscribers worldwide. Using this service, observers have daily opportunities to conduct rapid multi-wavelength follow-up observations of new FRB sources. Alerts are distributed as machine-readable reports and as emails containing FRB metadata, and are available to the public within approximately 13 seconds of detection. A sortable database and a downloadable JSON file containing FRB metadata from all broadcast alerts can be found on the CHIME/FRB public webpage. The frb-voe service also provides users with the ability to retrieve FRB names from the Transient Name Server (TNS) through the frb-voe client user interface (CLI). The frb-voe service can act as a foundation on which any observatory that detects FRBs can build its own VOEvent broadcasting service to contribute to the coordinated multi-wavelength follow-up of astrophysical transients., Comment: Submitted to The Astronomical Journal

Published

2024

4. Comprehensive analysis of the Apertif Fast Radio Burst sample: similarities with young, energetic neutron stars

Author

Pastor-Marazuela, Inés, van Leeuwen, Joeri, Bilous, Anna, Connor, Liam, Maan, Yogesh, Oostrum, Leon, Petroff, Emily, Vohl, Dany, Hess, Kelley M., Orrù, Emanuela, Sclocco, Alessio, and Wang, Yuyang

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

Understanding the origin of fast radio bursts (FRBs) has become the main science driver of recent dedicated FRB surveys. Between July 2019 and February 2022, we carried out ALERT, an FRB survey at 1370 MHz using the Apertif instrument installed at the Westerbork Synthesis Radio Telescope (WSRT). Here we report the detection of 18 new FRBs, and we study the properties of the entire 24 burst sample detected during the survey. For five bursts, we identify host galaxy candidates with >50% probability association. We observe an average linear polarisation fraction of $\sim$43% and an average circular polarisation fraction consistent with 0%. A third of the FRBs display multiple components. The sample next reveals a population of highly scattered bursts, which is most likely to have been produced in the immediate circumburst environment. Furthermore, two FRBs show evidence for high rotation measures, reaching |RM|>$10^3$ rad m$^{-2}$ in the source reference frames. Together, the scattering and rotation measures ALERT finds prove that a large fraction of FRBs are embedded in complex media such as star forming regions or supernova remnants. Through the discovery of the third most dispersed FRB so far, we show that one-off FRBs can emit at frequencies in excess of 6 GHz. Finally, we determine an FRB all-sky rate of $459^{+208}_{-155}$ sky$^{-1}$ day$^{-1}$ above a fluence limit of 4.1 Jy ms, and a fluence cumulative distribution with a power law index $\gamma=-1.23\pm0.06\pm0.2$, which is roughly consistent with the Euclidean Universe predictions. Through the high resolution in time, frequency, polarisation and localisation that ALERT featured, we were able to determine the morphological complexity, polarisation, local scattering and magnetic environment, and high-frequency luminosity of FRBs. We find all these strongly resemble those seen in young, energetic, highly magnetised neutron stars., Comment: 40 pages (including 11 of appendix), 37 figures, 5 tables. Accepted for publication in A&A

Published

2024

5. A fast radio burst localized at detection to an edge-on galaxy using very-long-baseline interferometry

Author

Cassanelli, Tomas, Leung, Calvin, Sanghavi, Pranav, Mena-Parra, Juan, Cary, Savannah, Mckinven, Ryan, Bhardwaj, Mohit, Masui, Kiyoshi W., Michilli, Daniele, Bandura, Kevin, Chatterjee, Shami, Peterson, Jeffrey B., Kaczmarek, Jane, Rahman, Mubdi, Shin, Kaitlyn, Vanderlinde, Keith, Berger, Sabrina, Brar, Charanjot, Boyle, P. J., Breitman, Daniela, Chawla, Pragya, Curtin, Alice P., Dobbs, Matt, Dong, Fengqiu Adam, Fonseca, Emmanuel, Gaensler, B. M., Ibik, Adaeze, Kaspi, Victoria M., Khairy, Kholoud, Lanman, Adam E., Lazda, Mattias, Lin, Hsiu-Hsien, Luo, Jing, Meyers, Bradley W., Milutinovic, Nikola, Ng, Cherry, Noble, Gavin, Pearlman, Aaron B., Pen, Ue-Li, Petroff, Emily, Pleunis, Ziggy, Quine, Brendan, Rafiei-Ravandi, Masoud, Renard, Andre, Sand, Ketan R., Schoen, Eve, Scholz, Paul, Smith, Kendrick M., Stairs, Ingrid, and Tendulkar, Shriharsh P.

Published

2024

6. CHIME/FRB Outriggers: KKO Station System and Commissioning Results

Author

Lanman, Adam E., Andrew, Shion, Lazda, Mattias, Shah, Vishwangi, Amiri, Mandana, Balasubramanian, Arvind, Bandura, Kevin, Boyle, P. J., Brar, Charanjot, Carlson, Mark, Cliche, Jean-François, Gusinskaia, Nina, Hendricksen, Ian T., Kaczmarek, J. F., Landecker, Tom, Leung, Calvin, Mckinven, Ryan, Mena-Parra, Juan, Milutinovic, Nikola, Nimmo, Kenzie, Pearlman, Aaron B., Renard, Andre, Rahman, Mubdi, Shaw, J. Richard, Siegel, Seth R., Smegal, Rick J., Cassanelli, Tomas, Chatterjee, Shami, Curtin, Alice P., Dobbs, Matt, Dong, Fengqiu Adam, Halpern, Mark, Hopkins, Hans, Kaspi, Victoria M., Khairy, Kholoud, Masui, Kiyoshi W., Meyers, Bradley W., Michilli, Daniele, Petroff, Emily, Pinsonneault-Marotte, Tristan, Pleunis, Ziggy, Rafiei-Ravandi, Masoud, Shin, Kaitlyn, Smith, Kendrick, Vanderlinde, Keith, and Zegmott, Tarik J.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

Localizing fast radio bursts (FRBs) to their host galaxies is an essential step to better understanding their origins and using them as cosmic probes. The CHIME/FRB Outrigger program aims to add VLBI-localization capabilities to CHIME, such that FRBs may be localized to tens of milliarcsecond precision at the time of their discovery, more than sufficient for host galaxy identification. The first-built outrigger telescope is KKO, located 66 kilometers west of CHIME. Cross-correlating KKO with CHIME can achieve arcsecond-scale localization in right ascension while avoiding the worst effects of the ionosphere. This paper presents measurements of KKO's performance throughout its commissioning phase, as well as a summary of its design and function. We demonstrate KKO's capabilities as a standalone instrument by producing full-sky images, mapping the angular and frequency structure of the primary beam, and measuring feed positions. To demonstrate the localization capabilities of the CHIME -- KKO baseline, we collected five separate observations each for a set of twenty bright pulsars, and aimed to measure their positions to within 5~arcseconds. All of these pulses were successfully localized to within this specification. The next two outriggers are expected to be commissioned in 2024, and will enable subarcsecond localizations for approximately hundreds of FRBs each year., Comment: 41 pages, 17 figures

Published

2024

7. Polarization properties of 128 non-repeating fast radio bursts from the first CHIME/FRB baseband catalog

Author

Pandhi, Ayush, Pleunis, Ziggy, Mckinven, Ryan, Gaensler, B. M., Su, Jianing, Ng, Cherry, Bhardwaj, Mohit, Brar, Charanjot, Cassanelli, Tomas, Cook, Amanda M., Curtin, Alice P., Kaspi, Victoria M., Lazda, Mattias, Leung, Calvin, Li, Dongzi, Masui, Kiyoshi W., Michilli, Daniele, Nimmo, Kenzie, Pearlman, Aaron, Petroff, Emily, Rafiei-Ravandi, Masoud, Sand, Ketan R., Scholz, Paul, Shin, Kaitlyn, Smith, Kendrick, and Stairs, Ingrid

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We present a 400-800 MHz polarimetric analysis of 128 non-repeating fast radio bursts (FRBs) from the first CHIME/FRB baseband catalog, increasing the total number of FRB sources with polarization properties by a factor of ~3. 89 FRBs have >6${\sigma}$ linearly polarized detections, 29 FRBs fall below this significance threshold and are deemed linearly unpolarized, and for 10 FRBs the polarization data are contaminated by instrumental polarization. For the 89 polarized FRBs, we find Faraday rotation measure (RM) amplitudes, after subtracting approximate Milky Way contributions, in the range 0.5-1160 rad m$^{-2}$ with a median of 53.8 rad m$^{-2}$. Most non-repeating FRBs in our sample have RMs consistent with Milky Way-like host galaxies and their linear polarization fractions range from <10% to 100% with a median of 63%. We see marginal evidence that non-repeating FRBs have more constraining lower limits than repeating FRBs for the host electron-density-weighted line-of-sight magnetic field strength. We classify the non-repeating FRB polarization position angle (PA) profiles into four archetypes: (i) single component with constant PA (57% of the sample), (ii) single component with variable PA (10%), (iii) multiple components with a single constant PA (22%), and (iv) multiple components with different or variable PAs (11%). We see no evidence for population-wide frequency-dependent depolarization and, therefore, the spread in the distribution of fractional linear polarization is likely intrinsic to the FRB emission mechanism. Finally, we present a novel method to derive redshift lower limits for polarized FRBs without host galaxy identification and test this method on 20 FRBs with independently measured redshifts., Comment: 44 pages, 18 figures, accepted to ApJ

Published

2024

8. Morphologies of Bright Complex Fast Radio Bursts with CHIME/FRB Voltage Data

Author

Faber, Jakob T., Michilli, Daniele, Mckinven, Ryan, Su, Jianing, Pearlman, Aaron B., Nimmo, Kenzie, Main, Robert A., Kaspi, Victoria, Bhardwaj, Mohit, Chatterjee, Shami, Curtin, Alice P., Dobbs, Matt, Eadie, Gwendolyn, Gaensler, B. M., Kader, Zarif, Leung, Calvin, Masui, Kiyoshi W., Pandhi, Ayush, Petroff, Emily, Pleunis, Ziggy, Rafiei-Ravandi, Masoud, Sand, Ketan R., Scholz, Paul, Shin, Kaitlyn, Smith, Kendrick, and Stairs, Ingrid

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We present the discovery of twelve thus far non-repeating fast radio burst (FRB) sources, detected by the Canadian Hydrogen Intensity Mapping Experiment (CHIME) telescope. These sources were selected from a database comprising of order $10^3$ CHIME/FRB full-array raw voltage data recordings, based on their exceptionally high brightness and complex morphology. Our study examines the time-frequency characteristics of these bursts, including drifting, microstructure, and periodicities. The events in this sample display a variety of unique drifting phenomenologies that deviate from the linear negative drifting phenomenon seen in many repeating FRBs, and motivate a possible new framework for classifying drifting archetypes. Additionally, we detect microstructure features of duration $\lesssim$ 50 $\mu s$ in seven events, with some as narrow as $\approx$ 7 $\mu s$. We find no evidence of significant periodicities. Furthermore, we report the polarization characteristics of seven events, including their polarization fractions and Faraday rotation measures (RMs). The observed $|\mathrm{RM}|$ values span a wide range of $17.24(2)$ - $328.06(2) \mathrm{~rad~m}^{-2}$, with linear polarization fractions between $0.340(1)$ - $0.946(3)$. The morphological properties of the bursts in our sample appear broadly consistent with predictions from both relativistic shock and magnetospheric models of FRB emission, as well as propagation through discrete ionized plasma structures. We address these models and discuss how they can be tested using our improved understanding of morphological archetypes., Comment: 29 pages, 14 figures, submitted to ApJ, comments appreciated

Published

2023

9. Updating the first CHIME/FRB catalog of fast radio bursts with baseband data

Author

Collaboration, The CHIME/FRB, Amiri, Mandana, Andersen, Bridget C., Andrew, Shion, Bandura, Kevin, Bhardwaj, Mohit, Boyle, P. J., Brar, Charanjot, Breitman, Daniela, Cassanelli, Tomas, Chawla, Pragya, Cook, Amanda M., Curtin, Alice P., Dobbs, Matt, Dong, Fengqiu Adam, Eadie, Gwendolyn, Fonseca, Emmanuel, Gaensler, B. M., Giri, Utkarsh, Herrera-Martin, Antonio, Hopkins, Hans, Ibik, Adaeze L., Joseph, Ronniy C., Kaczmarek, J. F., Kader, Zarif, Kaspi, Victoria M., Lanman, Adam E., Lazda, Mattias, Leung, Calvin, Liu, Siqi, Masui, Kiyoshi W., Mckinven, Ryan, Mena-Parra, Juan, Merryfield, Marcus, Michilli, Daniele, Ng, Cherry, Nimmo, Kenzie, Noble, Gavin, Pandhi, Ayush, Patel, Chitrang, Pearlman, Aaron B., Pen, Ue-Li, Petroff, Emily, Pleunis, Ziggy, Rafiei-Ravandi, Masoud, Rahman, Mubdi, Ransom, Scott M., Sand, Ketan R., Scholz, Paul, Shah, Vishwangi, Shin, Kaitlyn, Shpunarska, Yuliya, Siegel, Seth R., Smith, Kendrick, Stairs, Ingrid, Stenning, David C., Vanderlinde, Keith, Wang, Haochen, White, Henry, and Wulf, Dallas

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

In 2021, a catalog of 536 fast radio bursts (FRBs) detected with the Canadian Hydrogen Intensity Mapping Experiment (CHIME) radio telescope was released by the CHIME/FRB Collaboration. This large collection of bursts, observed with a single instrument and uniform selection effects, has advanced our understanding of the FRB population. Here we update the results for 140 of these FRBs for which channelized raw voltage ('baseband') data are available. With the voltages measured by the telescope's antennas, it is possible to maximize the telescope sensitivity in any direction within the primary beam, an operation called 'beamforming'. This allows us to increase the signal-to-noise ratio (S/N) of the bursts and to localize them to sub-arcminute precision. The improved localization is also used to correct the beam response of the instrument and to measure fluxes and fluences with a ~10% uncertainty. Additionally, the time resolution is increased by three orders of magnitude relative to that in the first CHIME/FRB catalog, and, applying coherent dedispersion, burst morphologies can be studied in detail. Polarization information is also available for the full sample of 140 FRBs, providing an unprecedented dataset to study the polarization properties of the population. We release the baseband data beamformed to the most probable position of each FRB. These data are analyzed in detail in a series of accompanying papers.

Published

2023

10. Statistical association between the candidate repeating FRB 20200320A and a galaxy group

Author

Rafiei-Ravandi, Masoud, Smith, Kendrick M., Michilli, D., Pleunis, Ziggy, Bhardwaj, Mohit, Dobbs, Matt, Eadie, Gwendolyn M., Fonseca, Emmanuel, Gaensler, B. M., Kaczmarek, Jane, Kaspi, Victoria M., Leung, Calvin, Li, Dongzi, Masui, Kiyoshi W., Pandhi, Ayush, Pearlman, Aaron B., Petroff, Emily, Rahman, Mubdi, Scholz, Paul, and Stenning, David C.

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - High Energy Astrophysical Phenomena

Abstract

We present results from angular cross-correlations between select samples of CHIME/FRB repeaters and galaxies in three photometric galaxy surveys, which have shown correlations with the first CHIME/FRB catalog containing repeating and nonrepeating sources: WISE$\times$SCOS, DESI-BGS, and DESI-LRG. We find a statistically significant correlation ($p$-value $<0.001$, after accounting for look-elsewhere factors) between a sample of repeaters with extragalactic dispersion measure DM $>395$ pc cm$^{-3}$ and WISE$\times$SCOS galaxies with redshift $z>0.275$. We demonstrate that the correlation arises surprisingly because of a statistical association between FRB 20200320A (extragalactic DM $\approx550$ pc cm$^{-3}$) and a galaxy group in the same dark matter halo at redshift $z\approx0.32$. We estimate that the host halo, along with an intervening halo at redshift $z\approx0.12$, accounts for at least $\sim$$30\%$ of the extragalactic DM. Our results strongly motivate incorporating galaxy group and cluster catalogs into direct host association pipelines for FRBs with $\lesssim$$1'$ localization precision, effectively utilizing the two-point information to constrain FRB properties such as their redshift and DM distributions. In addition, we find marginal evidence for a negative correlation at 99.4% CL between a sample of repeating FRBs with baseband data (median extragalactic DM $=354$ pc cm$^{-3}$) and DESI-LRG galaxies with redshift $0.3\le z<0.45$, suggesting that the repeaters might be more prone than apparent nonrepeaters to propagation effects in FRB-galaxy correlations due to intervening free electrons over angular scales $\sim$$0\mbox{$.\!\!^\circ$}5$., Comment: 14 pages, 4 figures, 3 tables, published in ApJ

Published

2023

11. A CHIME/FRB study of burst rate and morphological evolution of the periodically repeating FRB 20180916B

Author

Sand, Ketan R., Breitman, Daniela, Michilli, Daniele, Kaspi, Victoria M., Chawla, Pragya, Fonseca, Emmanuel, Mckinven, Ryan, Nimmo, Kenzie, Pleunis, Ziggy, Shin, Kaitlyn, Andersen, Bridget C., Bhardwaj, Mohit, Boyle, P. J., Brar, Charanjot, Cassanelli, Tomas, Cook, Amanda M., Curtin, Alice P., Dong, Fengqiu Adam, Eadie, Gwendolyn M., Gaensler, B. M., Kaczmarek, Jane, Lanman, Adam, Leung, Calvin, Masui, Kiyoshi W., Rahman, Mubdi, Pandhi, Ayush, Pearlman, Aaron B., Petroff, Emily, Rafiei-Ravandi, Masoud, Scholz, Paul, Shah, Vishwangi, Smith, Kendrick, Stairs, Ingrid, and Stenning, David C.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

FRB 20180916B is a repeating Fast Radio Burst (FRB) with a 16.3-day periodicity in its activity. In this study, we present morphological properties of 60 FRB 20180916B bursts detected by CHIME/FRB between 2018 August and 2021 December. We recorded raw voltage data for 45 of these bursts, enabling microseconds time resolution in some cases. We studied variation of spectro-temporal properties with time and activity phase. We find that the variation in Dispersion Measure (DM) is $\lesssim$1 pc cm$^{-3}$ and that there is burst-to-burst variation in scattering time estimates ranging from $\sim$0.16 to over 2 ms, with no discernible trend with activity phase for either property. Furthermore, we find no DM and scattering variability corresponding to the recent change in rotation measure from the source, which has implications for the immediate environment of the source. We find that FRB 20180916B has thus far shown no epochs of heightened activity as have been seen in other active repeaters by CHIME/FRB, with its burst count consistent with originating from a Poissonian process. We also observe no change in the value of the activity period over the duration of our observations and set a 1$\sigma$ upper limit of $1.5\times10^{-4}$ day day$^{-1}$ on the absolute period derivative. Finally, we discuss constraints on progenitor models yielded by our results, noting that our upper limits on changes in scattering and dispersion measure as a function of phase do not support models invoking a massive binary companion star as the origin of the 16.3-day periodicity., Comment: 25 pages, 10 figures

Published

2023

12. CHIME/FRB Discovery of 25 Repeating Fast Radio Burst Sources

Author

Collaboration, The CHIME/FRB, Andersen, Bridget C., Bandura, Kevin, Bhardwaj, Mohit, Boyle, P. J., Brar, Charanjot, Cassanelli, Tomas, Chatterjee, S., Chawla, Pragya, Cook, Amanda M., Curtin, Alice P., Dobbs, Matt, Dong, Fengqiu Adam, Faber, Jakob T., Fandino, Mateus, Fonseca, Emmanuel, Gaensler, B. M., Giri, Utkarsh, Herrera-Martin, Antonio, Hill, Alex S., Ibik, Adaeze, Josephy, Alexander, Kaczmarek, Jane F., Kader, Zarif, Kaspi, Victoria, Landecker, T. L., Lanman, Adam E., Lazda, Mattias, Leung, Calvin, Lin, Hsiu-Hsien, Masui, Kiyoshi W., Mckinven, Ryan, Mena-Parra, Juan, Meyers, Bradley W., Michilli, D., Ng, Cherry, Pandhi, Ayush, Pearlman, Aaron B., Pen, Ue-Li, Petroff, Emily, Pleunis, Ziggy, Rafiei-Ravandi, Masoud, Rahman, Mubdi, Ransom, Scott M., Renard, Andre, Sand, Ketan R., Sanghavi, Pranav, Scholz, Paul, Shah, Vishwangi, Shin, Kaitlyn, Siegel, Seth, Smith, Kendrick, Stairs, Ingrid, Su, Jianing, Tendulkar, Shriharsh P., Vanderlinde, Keith, Wang, Haochen, Wulf, Dallas, and Zwaniga, Andrew

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We present the discovery of 25 new repeating fast radio burst (FRB) sources found among CHIME/FRB events detected between 2019 September 30 and 2021 May 1. The sources were found using a new clustering algorithm that looks for multiple events co-located on the sky having similar dispersion measures (DMs). The new repeaters have DMs ranging from $\sim$220 pc cm$^{-3}$ to $\sim$1700 pc cm$^{-3}$, and include sources having exhibited as few as two bursts to as many as twelve. We report a statistically significant difference in both the DM and extragalactic DM (eDM) distributions between repeating and apparently nonrepeating sources, with repeaters having lower mean DM and eDM, and we discuss the implications. We find no clear bimodality between the repetition rates of repeaters and upper limits on repetition from apparently nonrepeating sources after correcting for sensitivity and exposure effects, although some active repeating sources stand out as anomalous. We measure the repeater fraction over time and find that it tends to an equilibrium of $2.6_{-2.6}^{+2.9}$% over our total time-on-sky thus far. We also report on 14 more sources which are promising repeating FRB candidates and which merit follow-up observations for confirmation., Comment: ApJ in press. Comments are still welcome and follow-up observations are encouraged!

Published

2023

13. Sub-arcminute localization of 13 repeating fast radio bursts detected by CHIME/FRB

Author

Michilli, Daniele, Bhardwaj, Mohit, Brar, Charanjot, Patel, Chitrang, Gaensler, B. M., Kaspi, Victoria M., Kirichenko, Aida, Masui, Kiyoshi W., Sand, Ketan R., Scholz, Paul, Shin, Kaitlyn, Stairs, Ingrid, Cassanelli, Tomas, Cook, Amanda M., Dobbs, Matt, Dong, Fengqiu Adam, Fonseca, Emmanuel, Ibik, Adaeze, Kaczmarek, Jane, Leung, Calvin, Pearlman, Aaron B., Petroff, Emily, Pleunis, Ziggy, Rafiei-Ravandi, Masoud, Sanghavi, Pranav, and Tendulkar, Shriharsh P.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We report on improved sky localizations of thirteen repeating fast radio bursts (FRBs) discovered by CHIME/FRB via the use of interferometric techniques on channelized voltages from the telescope. These so-called 'baseband localizations' improve the localization uncertainty area presented in past studies by more than three orders of magnitude. The improved localization regions are provided for the full sample of FRBs to enable follow-up studies. The localization uncertainties, together with limits on the source distances from their dispersion measures (DMs), allow us to identify likely host galaxies for two of the FRB sources. FRB 20180814A lives in a massive passive red spiral at z~0.068 with very little indication of star formation, while FRB 20190303A resides in a merging pair of spiral galaxies at z~0.064 undergoing significant star formation. These galaxies show very different characteristics, further confirming the presence of FRB progenitors in a variety of environments even among the repeating sub-class.

Published

2022

14. Limits on Fast Radio Burst-like Counterparts to Gamma-ray Bursts using CHIME/FRB

Author

Curtin, Alice P., Tendulkar, Shriharsh P., Josephy, Alexander, Chawla, Pragya, Andersen, Bridget, Kaspi, Victoria M., Bhardwaj, Mohit, Cassanelli, Tomas, Cook, Amanda, Dong, Fengqiu Adam, Fonseca, Emmanuel, Gaensler, B. M., Kaczmarek, Jane F., Lanmnan, Adam E., Leung, Calvin, Pearlman, Aaron B., Petroff, Emily, Pleunis, Ziggy, Rafiei-Ravandi, Masoud, Ransom, Scott M., Shin, Kaitlyn, Scholz, Paul, Smith, Kendrick, and Stairs, Ingrid

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

Fast Radio Bursts (FRBs) are a class of highly energetic, mostly extragalactic radio transients lasting for a few milliseconds. While over 600 FRBs have been published so far, their origins are presently unclear, with some theories for extragalactic FRBs predicting accompanying high-energy emission. In this work, we use the Canadian Hydrogen Intensity Mapping Experiment (CHIME) Fast Radio Burst (CHIME/FRB) Project to explore whether any FRB-like radio emission coincides in space and time with 81 gamma-ray bursts (GRBs) detected between 2018 July 17 and 2019 July 8 by Swift/BAT and Fermi/GBM. We do not find any statistically significant, coincident pairs within 3sigma of each other's spatial localization regions and within a time difference of up to one week. In addition to searching for spatial matches between known FRBs and known GRBs, we use CHIME/FRB to constrain FRB-like radio emission before, at the time of, or after the reported high-energy emission at the position of 39 GRBs. Our most constraining radio flux limits in the 400- to 800-MHz band for short gamma-ray bursts (SGRBs) are <50 Jy at 18.6 ks pre-high-energy emission, and <5 Jy at 28.4 ks post-high-energy emission, assuming a 10-ms radio burst width with each limit valid for 60 seconds. We use these limits to constrain models that predict FRB-like prompt radio emission before and after SGRBs. We also place limits as low as 2 Jy for long gamma-ray bursts (LGRBs), but there are no strong theoretical predictions for coincident FRB-like radio emission for LGRBs., Comment: 20 pages, 5 tables, 10 figures; Submitted to ApJ

Published

2022

15. The Apertif Radio Transient System (ARTS): Design, Commissioning, Data Release, and Detection of the first 5 Fast Radio Bursts

Author

van Leeuwen, Joeri, Kooistra, Eric, Oostrum, Leon, Connor, Liam, Hargreaves, J. E., Maan, Yogesh, Pastor-Marazuela, Inés, Petroff, Emily, van der Schuur, Daniel, Sclocco, Alessio, Straal, Samayra M., Vohl, Dany, Wijnholds, Stefan J., Adams, Elizabeth A. K., Adebahr, Björn, Attema, Jisk, Bassa, Cees, Bast, Jeanette E., Bilous, Anna, de Blok, W. J. G., Boersma, Oliver M., van Cappellen, Wim A., Coolen, Arthur H. W. M., Damstra, Sieds, Dénes, Helga, van Diepen, Ger N. J., Gardenier, David W., Grange, Yan G., Gunst, André W., Hess, Kelley M., Holties, Hanno, van der Hulst, Thijs, Hut, Boudewijn, Kutkin, Alexander, Loose, G. Marcel, Lucero, Danielle M., Mika, Ágnes, Mikhailov, Klim, Morganti, Raffaella, Moss, Vanessa A., Mulder, Henk, Norden, Menno J., Oosterloo, Tom A., Orrú, Emaneula, Paragi, Zsolt, de Reijer, Jan-Pieter R., Schoenmakers, Arno P., Stuurwold, Klaas J. C., ter Veen, Sander, Wang, Yu-Yang, Zanting, Alwin W., and Ziemke, Jacob

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

Fast Radio Bursts must be powered by uniquely energetic emission mechanisms. This requirement has eliminated a number of possible source types, but several remain. Identifying the physical nature of Fast Radio Burst (FRB) emitters arguably requires good localisation of more detections, and broadband studies enabled by real-time alerting. We here present the Apertif Radio Transient System (ARTS), a supercomputing radio-telescope instrument that performs real-time FRB detection and localisation on the Westerbork Synthesis Radio Telescope (WSRT) interferometer. It reaches coherent-addition sensitivity over the entire field of the view of the primary dish beam. After commissioning results verified the system performed as planned, we initiated the Apertif FRB survey (ALERT). Over the first 5 weeks we observed at design sensitivity in 2019, we detected 5 new FRBs, and interferometrically localised each of these to 0.4--10 sq. arcmin. All detections are broad band and very narrow, of order 1 ms duration, and unscattered. Dispersion measures are generally high. Only through the very high time and frequency resolution of ARTS are these hard-to-find FRBs detected, producing an unbiased view of the intrinsic population properties. Most localisation regions are small enough to rule out the presence of associated persistent radio sources. Three FRBs cut through the halos of M31 and M33. We demonstrate that Apertif can localise one-off FRBs with an accuracy that maps magneto-ionic material along well-defined lines of sight. The rate of 1 every ~7 days next ensures a considerable number of new sources are detected for such study. The combination of detection rate and localisation accuracy exemplified by the 5 first ARTS FRBs thus marks a new phase in which a growing number of bursts can be used to probe our Universe., Comment: Accepted version

Published

2022

16. A High-Time Resolution Search for Compact Objects using Fast Radio Burst Gravitational Lens Interferometry with CHIME/FRB

Author

Kader, Zarif, Leung, Calvin, Dobbs, Matt, Masui, Kiyoshi W., Michilli, Daniele, Mena-Parra, Juan, Mckinven, Ryan, Ng, Cherry, Bandura, Kevin, Bhardwaj, Mohit, Brar, Charanjot, Cassanelli, Tomas, Chawla, Pragya, Dong, Fengqiu Adam, Good, Deborah, Kaspi, Victoria, Lanman, Adam E., Lin, Hsiu-Hsien, Meyers, Bradley W., Pearlman, Aaron B., Pen, Ue-Li, Petroff, Emily, Pleunis, Ziggy, Rafiei-Ravandi, Masoud, Rahman, Mubdi, Sanghavi, Pranav, Scholz, Paul, Shin, Kaitlyn, Siegel, Seth, Smith, Kendrick M., Stairs, Ingrid, Tendulkar, Shriharsh P., Vanderlinde, Keith, and Wulf, Dallas

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

The gravitational field of compact objects, such as primordial black holes, can create multiple images of background sources. For transients such as fast radio bursts (FRBs), these multiple images can be resolved in the time domain. Under certain circumstances, these images not only have similar burst morphologies but are also phase-coherent at the electric field level. With a novel dechannelization algorithm and a matched filtering technique, we search for repeated copies of the same electric field waveform in observations of FRBs detected by the FRB backend of the Canadian Hydrogen Mapping Intensity Experiment (CHIME). An interference fringe from a coherent gravitational lensing signal will appear in the time-lag domain as a statistically-significant peak in the time-lag autocorrelation function. We calibrate our statistical significance using telescope data containing no FRB signal. Our dataset consists of $\sim$100-ms long recordings of voltage data from 172 FRB events, dechannelized to 1.25-ns time resolution. This coherent search algorithm allows us to search for gravitational lensing signatures from compact objects in the mass range of $10^{-4}-10^{4} ~\mathrm{M_{\odot}}$. After ruling out an anomalous candidate due to diffractive scintillation, we find no significant detections of gravitational lensing in the 172 FRB events that have been analyzed. In a companion work [Leung, Kader+2022], we interpret the constraints on dark matter from this search., Comment: 23 pages, 13 figures

Published

2022

17. Constraining Primordial Black Holes using Fast Radio Burst Gravitational-Lens Interferometry with CHIME/FRB

Author

Leung, Calvin, Kader, Zarif, Masui, Kiyoshi W., Dobbs, Matt, Michilli, Daniele, Mena-Parra, Juan, Mckinven, Ryan, Ng, Cherry, Bandura, Kevin, Bhardwaj, Mohit, Brar, Charanjot, Cassanelli, Tomas, Chawla, Pragya, Dong, Fengqiu Adam, Good, Deborah, Kaspi, Victoria, Lanman, Adam E., Lin, Hsiu-Hsien, Meyers, Bradley W., Pearlman, Aaron B., Pen, Ue-Li, Petroff, Emily, Pleunis, Ziggy, Rafiei-Ravandi, Masoud, Rahman, Mubdi, Sanghavi, Pranav, Scholz, Paul, Shin, Kaitlyn, Siegel, Seth, Smith, Kendrick M., Stairs, Ingrid, Tendulkar, Shriharsh P., and Vanderlinde, Keith

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Fast radio bursts (FRBs) represent an exciting frontier in the study of gravitational lensing, due to their brightness, extragalactic nature, and the compact, coherent characteristics of their emission. In a companion work [Kader, Leung+2022], we use a novel interferometric method to search for gravitationally lensed FRBs in the time domain using bursts detected by CHIME/FRB. There, we dechannelize and autocorrelate electric field data at a time resolution of 1.25 ns. This enables a search for FRBs whose emission is coherently deflected by gravitational lensing around a foreground compact object such as a primordial black hole (PBH). Here, we use our non-detection of lensed FRBs to place novel constraints on the PBH abundance outside the Local Group. We use a novel two-screen model to take into account decoherence from scattering screens in our constraints. Our constraints are subject to a single astrophysical model parameter -- the effective distance between an FRB source and the scattering screen, for which we adopt a fiducial distance of 1 parsec. We find that coherent FRB lensing is a sensitive probe of sub-solar mass compact objects. Having observed no lenses in $172$ bursts from $114$ independent sightlines through the cosmic web, we constrain the fraction of dark matter made of compact objects, such as PBHs, to be $f \lesssim 0.8$, if their masses are $\sim 10^{-3} M_{\odot}$., Comment: 20 pages, 5 figures

Published

2022

18. A fast radio burst with sub-millisecond quasi-periodic structure

Author

Pastor-Marazuela, Inés, van Leeuwen, Joeri, Bilous, Anna, Connor, Liam, Maan, Yogesh, Oostrum, Leon, Petroff, Emily, Straal, Samayra, Vohl, Dany, Adams, E. A. K., Adebahr, B., Attema, Jisk, Boersma, Oliver M., Brink, R. van den, van Cappellen, W. A., Coolen, A. H. W. M., Damstra, S., Dénes, H., Hess, K. M., van der Hulst, J. M., Hut, B., Kutkin, A., Loose, G. Marcel, Lucero, D. M., Mika, Á., Moss, V. A., Mulder, H., Norden, M. J., Oosterloo, T. A., Rajwade, Kaustubh, van der Schuur, D., Sclocco, A., Smits, R., and Ziemke, J.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

Fast radio bursts (FRBs) are extragalactic radio transients of extraordinary luminosity. Studying the diverse temporal and spectral behaviour recently observed in a number of FRBs may help determine the nature of the entire class. For example, a fast spinning or highly magnetised neutron star might generate the rotation-powered acceleration required to explain the bright emission. Periodic, sub-second components, suggesting such rotation, were recently reported in one FRB, and potentially in two more. Here we report the discovery of FRB 20201020A with Apertif, an FRB showing five components regularly spaced by 0.415 ms. This sub-millisecond structure in FRB 20201020A carries important clues about the progenitor of this FRB specifically, and potentially about that of FRBs in general. We thus contrast its features to the predictions of the main FRB source models. We perform a timing analysis of the FRB 20201020A components to determine the significance of the periodicity. We compare these against the timing properties of the previously reported CHIME FRBs with sub-second quasi-periodic components, and against two Apertif bursts from repeating FRB 20180916B that show complex time-frequency structure. We find the periodicity of FRB 20201020A to be marginally significant at 2.5$\sigma$. Its repeating subcomponents cannot be explained as a pulsar rotation since the required spin rate of over 2 kHz exceeds the limits set by typical neutron star equations of state and observations. The fast periodicity is also in conflict with a compact object merger scenario. These quasi-periodic components could, however, be caused by equidistant emitting regions in the magnetosphere of a magnetar. The sub-millisecond spacing of the components in FRB 20201020A, the smallest observed so far in a one-off FRB, may rule out both neutron-star rotation and binary mergers as the direct source of quasi-periodic FRBs., Comment: 13 pages, 6 figures, 3 tables, supplementary material. Submitted to A&A

Published

2022

19. Multiband Detection of Repeating FRB 20180916B

Author

Sand, Ketan R., Faber, Jakob, Gajjar, Vishal, Michilli, Daniele, Andersen, Bridget C., Joshi, Bhal Chandra, Kudale, Sanjay, Pilia, Maura, Brzycki, Bryan, Cassanelli, Tomas, Croft, Steve, Dey, Biprateep, John, Hoang, Leung, Calvin, Mckinven, Ryan, Ng, Cherry, Pearlman, Aaron B., Petroff, Emily, Price, Danny C., Siemion, Andrew, Smith, Kendrick, and Tendulkar, Shriharsh P.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We present a multiband study of FRB 20180916B, a repeating source with a 16.3 day periodicity. We report the detection of 4, 1 and 7 bursts from observations spanning 3 days using upgraded Giant Metrewave Radio Telescope (300-500 MHz), Canadian Hydrogen Intensity Mapping Experiment (400-800 MHz) and Green Bank Telescope (600-1000 MHz), respectively. We report the first-ever detection of the source in the 800-1000 MHz range along with one of the widest instantaneous bandwidth detection (200 MHz) at lower frequencies. We identify 30 $\mu$s wide structures in one of the bursts at 800 MHz, making it the lowest frequency detection of such structures for this FRB thus far. There is also a clear indication of high activity of the source at a higher frequency during earlier phases of the activity cycle. We identify a gradual decrease in the rotation measure over two years and no significant variations in the dispersion measure. We derive useful conclusions about progenitor scenarios, energy distribution, emission mechanisms, and variation of downward drift rate of emission with frequency. Our results reinforce that multiband observations are an effective approach to study repeaters and even one-off events to better understand their varying activity and spectral anomalies., Comment: 20 pages, 10 figures

Published

2021

20. A sudden period of high activity from repeating Fast Radio Burst 20201124A

Author

Lanman, Adam E., Andersen, Bridget C., Chawla, Pragya, Josephy, Alexander, Noble, Gavin, Kaspi, Victoria M., Bandura, Kevin, Bhardwaj, Mohit, Boyle, Patrick J., Brar, Charanjot, Breitman, Daniela, Cassanelli, Tomas, Dong, Fengqi, Fonseca, Emmanuel, Gaensler, Bryan M., Good, Deborah, Kaczmarek, Jane, Leung, Calvin, Masui, Kiyoshi W., Meyers, Bradley W., Ng, Cherry, Patel, Chitrang, Pearlman, Aaron B., Petroff, Emily, Pleunis, Ziggy, Rafiei-Ravandi, Masoud, Rahman, Mubdi, Sanghavi, Pranav, Scholz, Paul, Shin, Kaitlyn, Stairs, Ingrid, Tendulkar, Shriharsh, and Zwaniga, Andrew

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

The repeating FRB 20201124A was first discovered by CHIME/FRB in November of 2020, after which it was seen to repeat a few times over several months. It entered a period of high activity in April of 2021, at which time several observatories recorded tens to hundreds more bursts from the source. These follow-up observations enabled precise localization and host galaxy identification. In this paper, we report on the CHIME/FRB-detected bursts from FRB 20201124A, including their best-fit morphologies, fluences, and arrival times. The large exposure time of the CHIME/FRB telescope to the location of this source allows us to constrain its rates of activity. We analyze the repetition rates over different spans of time, constraining the rate prior to discovery to $< 3.4$ day$^{-1}$ (at 3$\sigma$), and demonstrate significant change in the event rate following initial detection. Lastly, we perform a maximum-likelihood estimation of a power-law luminosity function, finding a best-fit index $\alpha = -4.6 \pm 1.3 \pm 0.6$, with a break at a fluence threshold of $F_{\rm min} \sim 16.6$~Jy~ms, consistent with the fluence completeness limit of the observations. This index is consistent within uncertainties with those of other repeating FRBs for which it has been determined., Comment: 19 pages, 6 figures

Published

2021

21. A Local Universe Host for the Repeating Fast Radio Burst FRB 20181030A

Author

Bhardwaj, M., Kirichenko, A. Yu., Michilli, D., Mayya, Y. D., Kaspi, V. M., Gaensler, B. M., Rahman, M., Tendulkar, S. P., Fonseca, E., Josephy, Alexander, Leung, C., Merryfield, Marcus, Petroff, Emily, Pleunis, Z., Sanghavi, Pranav, Scholz, P., Shin, K., Smith, Kendrick M., and Stairs, I. H.

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We report on the host association of FRB 20181030A, a repeating fast radio burst (FRB) with a low dispersion measure (DM, 103.5 pc cm$^{-3}$) discovered by CHIME/FRB Collaboration et al. (2019a). Using baseband voltage data saved for its repeat bursts, we localize the FRB to a sky area of 5.3 sq. arcmin (90% confidence). Within the FRB localization region, we identify NGC 3252 as the most promising host, with an estimated chance coincidence probability $< 2.5 \times 10^{-3}$. Moreover, we do not find any other galaxy with M$_{r} < -15$ AB mag within the localization region to the maximum estimated FRB redshift of 0.05. This rules out a dwarf host 5 times less luminous than any FRB host discovered to date. NGC 3252 is a star-forming spiral galaxy, and at a distance of $\approx$ 20 Mpc, it is one of the closest FRB hosts discovered thus far. From our archival radio data search, we estimate a 3$\sigma$ upper limit on the luminosity of a persistent compact radio source (source size $<$ 0.3 kpc at 20 Mpc) at 3 GHz to be ${\rm 2 \times 10^{26} erg~s^{-1} Hz^{-1}}$, at least 1500 times smaller than that of the FRB 20121102A persistent radio source. We also argue that a population of young millisecond magnetars alone cannot explain the observed volumetric rate of repeating FRBs. Finally, FRB 20181030A is a promising source for constraining FRB emission models due to its proximity, and we strongly encourage its multi-wavelength follow-up., Comment: Accepted for publication in ApJL

Published

2021

22. Sub-second periodicity in a fast radio burst

Author

Collaboration, The CHIME/FRB, Andersen, Bridget C., Bandura, Kevin, Bhardwaj, Mohit, Boyle, P. J., Brar, Charanjot, Breitman, Daniela, Cassanelli, Tomas, Chatterjee, Shami, Chawla, Pragya, Cliche, Jean-François, Cubranic, Davor, Curtin, Alice P., Deng, Meiling, Dobbs, Matt, Dong, Fengqiu Adam, Fonseca, Emmanuel, Gaensler, B. M., Giri, Utkarsh, Good, Deborah C., Hill, Alex S., Josephy, Alexander, Kaczmarek, J. F., Kader, Zarif, Kania, Joseph, Kaspi, Victoria M., Leung, Calvin, Li, D. Z., Lin, Hsiu-Hsien, Masui, Kiyoshi W., Mckinven, Ryan, Mena-Parra, Juan, Merryfield, Marcus, Meyers, B. W., Michilli, D., Naidu, Arun, Newburgh, Laura, Ng, C., Ordog, Anna, Patel, Chitrang, Pearlman, Aaron B., Pen, Ue-Li, Petroff, Emily, Pleunis, Ziggy, Rafiei-Ravandi, Masoud, Rahman, Mubdi, Ransom, Scott, Renard, Andre, Sanghavi, Pranav, Scholz, Paul, Shaw, J. Richard, Shin, Kaitlyn, Siegel, Seth R., Singh, Saurabh, Smith, Kendrick, Stairs, Ingrid, Tan, Chia Min, Tendulkar, Shriharsh P., Vanderlinde, Keith, Wiebe, D. V., Wulf, Dallas, and Zwaniga, Andrew

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

Fast radio bursts (FRBs) are millisecond-duration flashes of radio waves that are visible at distances of billions of light-years. The nature of their progenitors and their emission mechanism remain open astrophysical questions. Here we report the detection of the multi-component FRB 20191221A and the identification of a periodic separation of 216.8(1) ms between its components with a significance of 6.5 sigmas. The long (~3 s) duration and nine or more components forming the pulse profile make this source an outlier in the FRB population. Such short periodicity provides strong evidence for a neutron-star origin of the event. Moreover, our detection favours emission arising from the neutron-star magnetosphere, as opposed to emission regions located further away from the star, as predicted by some models., Comment: Updated to conform to the accepted version

Published

2021

23. The First CHIME/FRB Fast Radio Burst Catalog

Author

Collaboration, The CHIME/FRB, Amiri, Mandana, Andersen, Bridget C., Bandura, Kevin, Berger, Sabrina, Bhardwaj, Mohit, Boyce, Michelle M., Boyle, P. J., Brar, Charanjot, Breitman, Daniela, Cassanelli, Tomas, Chawla, Pragya, Chen, Tianyue, Cliche, J. -F., Cook, Amanda, Cubranic, Davor, Curtin, Alice P., Deng, Meiling, Dobbs, Matt, Fengqiu, Dong, Eadie, Gwendolyn, Fandino, Mateus, Fonseca, Emmanuel, Gaensler, B. M., Giri, Utkarsh, Good, Deborah C., Halpern, Mark, Hill, Alex S., Hinshaw, Gary, Josephy, Alexander, Kaczmarek, Jane F., Kader, Zarif, Kania, Joseph W., Kaspi, Victoria M., Landecker, T. L., Lang, Dustin, Leung, Calvin, Li, Dongzi, Lin, Hsiu-Hsien, Masui, Kiyoshi W., Mckinven, Ryan, Mena-Parra, Juan, Merryfield, Marcus, Meyers, Bradley W., Michilli, Daniele, Milutinovic, Nikola, Mirhosseini, Arash, Münchmeyer, Moritz, Naidu, Arun, Newburgh, Laura, Ng, Cherry, Patel, Chitrang, Pen, Ue-Li, Petroff, Emily, Pinsonneault-Marotte, Tristan, Pleunis, Ziggy, Rafiei-Ravandi, Masoud, Rahman, Mubdi, Ransom, Scott M., Renard, Andre, Sanghavi, Pranav, Scholz, Paul, Shaw, J. Richard, Shin, Kaitlyn, Siegel, Seth R., Sikora, Andrew E., Singh, Saurabh, Smith, Kendrick M., Stairs, Ingrid, Tan, Chia Min, Tendulkar, S. P., Vanderlinde, Keith, Wang, Haochen, Wulf, Dallas, and Zwaniga, A. V.

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

We present a catalog of 536 fast radio bursts (FRBs) detected by the Canadian Hydrogen Intensity Mapping Experiment Fast Radio Burst (CHIME/FRB) Project between 400 and 800 MHz from 2018 July 25 to 2019 July 1, including 62 bursts from 18 previously reported repeating sources. The catalog represents the first large sample, including bursts from repeaters and non-repeaters, observed in a single survey with uniform selection effects. This facilitates comparative and absolute studies of the FRB population. We show that repeaters and apparent non-repeaters have sky locations and dispersion measures (DMs) that are consistent with being drawn from the same distribution. However, bursts from repeating sources differ from apparent non-repeaters in intrinsic temporal width and spectral bandwidth. Through injection of simulated events into our detection pipeline, we perform an absolute calibration of selection effects to account for systematic biases. We find evidence for a population of FRBs - comprising a large fraction of the overall population - with a scattering time at 600 MHz in excess of 10 ms, of which only a small fraction are observed by CHIME/FRB. We infer a power-law index for the cumulative fluence distribution of $\alpha=-1.40\pm0.11(\textrm{stat.})^{+0.06}_{-0.09}(\textrm{sys.})$, consistent with the $-3/2$ expectation for a non-evolving population in Euclidean space. We find $\alpha$ is steeper for high-DM events and shallower for low-DM events, which is what would be expected when DM is correlated with distance. We infer a sky rate of $[525\pm30(\textrm{stat.})^{+140}_{-130}({\textrm{sys.}})]/\textrm{sky}/\textrm{day}$ above a fluence of 5 Jy ms at 600 MHz, with scattering time at $600$ MHz under 10 ms, and DM above 100 pc cm$^{-3}$., Comment: 67 pages, 27 figures, 5 tables. Published in ApJS and updated with changes reflected in an erratum (affecting the sky rate). Extended figures and data at https://www.chime-frb.ca/catalog

Published

2021

24. CHIME/FRB Catalog 1 results: statistical cross-correlations with large-scale structure

Author

Rafiei-Ravandi, Masoud, Smith, Kendrick M., Li, Dongzi, Masui, Kiyoshi W., Josephy, Alexander, Dobbs, Matt, Lang, Dustin, Bhardwaj, Mohit, Patel, Chitrang, Bandura, Kevin, Berger, Sabrina, Boyle, P. J., Brar, Charanjot, Breitman, Daniela, Cassanelli, Tomas, Chawla, Pragya, Dong, Fengqiu Adam, Fonseca, Emmanuel, Gaensler, B. M., Giri, Utkarsh, Good, Deborah C., Halpern, Mark, Kaczmarek, Jane, Kaspi, Victoria M., Leung, Calvin, Lin, Hsiu-Hsien, Mena-Parra, Juan, Meyers, B. W., Michilli, D., Münchmeyer, Moritz, Ng, Cherry, Petroff, Emily, Pleunis, Ziggy, Rahman, Mubdi, Sanghavi, Pranav, Scholz, Paul, Shin, Kaitlyn, Stairs, Ingrid H., Tendulkar, Shriharsh P., Vanderlinde, Keith, and Zwaniga, Andrew

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - High Energy Astrophysical Phenomena

Abstract

The CHIME/FRB Project has recently released its first catalog of fast radio bursts (FRBs), containing 492 unique sources. We present results from angular cross-correlations of CHIME/FRB sources with galaxy catalogs. We find a statistically significant ($p$-value $\sim 10^{-4}$, accounting for look-elsewhere factors) cross-correlation between CHIME FRBs and galaxies in the redshift range $0.3 \lesssim z \lesssim 0.5$, in three photometric galaxy surveys: WISE$\times$SCOS, DESI-BGS, and DESI-LRG. The level of cross-correlation is consistent with an order-one fraction of the CHIME FRBs being in the same dark matter halos as survey galaxies in this redshift range. We find statistical evidence for a population of FRBs with large host dispersion measure ($\sim 400$ pc cm$^{-3}$), and show that this can plausibly arise from gas in large halos ($M \sim 10^{14} M_\odot$), for FRBs near the halo center ($r \lesssim 100$ kpc). These results will improve in future CHIME/FRB catalogs, with more FRBs and better angular resolution., Comment: 26 pages, 16 figures, published in ApJ

Published

2021

25. The Location of Young Pulsar PSR J0837$-$2454: Galactic Halo or Local Supernova Remnant?

Author

Pol, Nihan, Burke-Spolaor, Sarah, Hurley-Walker, Natasha, Blumer, Harsha, Johnston, Simon, Keith, Michael, Keane, Evan F., Burgay, Marta, Possenti, Andrea, Petroff, Emily, and Bhat, N. D. Ramesh

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We present the discovery and timing of the young (age $\sim 28.6$ kyr) pulsar PSR J0837$-$2454. Based on its high latitude ($b = 9.8^{\circ}$) and dispersion measure (DM $ = 143$~pc~cm$^{-3}$), the pulsar appears to be at a $z$-height of $>$1 kpc above the Galactic plane, but near the edge of our Galaxy. This is many times the observed scale height of the canonical pulsar population, which suggests this pulsar may have been born far out of the plane. If accurate, the young age and high $z$-height imply that this is the first pulsar known to be born from a runaway O/B star. In follow-up imaging with the Australia Telescope Compact Array (ATCA), we detect the pulsar with a flux density $S_{1400} = 0.18 \pm 0.05$ mJy. We do not detect an obvious supernova remnant around the pulsar in our ATCA data, but we detect a co-located, low-surface-brightness region of $\sim$1.5$^\circ$ extent in archival Galactic and Extragalactic All-sky MWA Survey data. We also detect co-located H$\alpha$ emission from the Southern H$\alpha$ Sky Survey Atlas. Distance estimates based on these two detections come out to $\sim$0.9 kpc and $\sim$0.2 kpc respectively, both of which are much smaller than the distance predicted by the NE2001 model ($6.3$ kpc) and YMW model ($>25$ kpc) and place the pulsar much closer to the plane of the Galaxy. If the pulsar/remnant association holds, this result also highlights the inherent difficulty in the classification of transients as "Galactic" (pulsar) or "extragalactic" (fast radio burst) toward the Galactic anti-center based solely on the modeled Galactic electron contribution to a detection., Comment: Published in ApJ. 12 pages, 9 figures, 2 tables

Published

2021

26. Chromatic periodic activity down to 120 MHz in a Fast Radio Burst

Author

Pastor-Marazuela, Inés, Connor, Liam, van Leeuwen, Joeri, Maan, Yogesh, ter Veen, Sander, Bilous, Anna, Oostrum, Leon, Petroff, Emily, Straal, Samayra, Vohl, Dany, Attema, Jisk, Boersma, Oliver M., Kooistra, Eric, van der Schuur, Daniel, Sclocco, Alessio, Smits, Roy, Adams, Elizabeth A. K., Adebahr, Björn, de Blok, Willem J. G., Coolen, Arthur H. W. M., Damstra, Sieds, Dénes, Helga, Hess, Kelley M., van der Hulst, Thijs, Hut, Boudewijn, Ivashina, V. Marianna, Kutkin, Alexander, Loose, G. Marcel, Lucero, Danielle M., Mika, Ágnes, Moss, Vanessa A., Mulder, Henk, Norden, Menno J., Oosterloo, Tom, Orrú, Emanuela, Ruiter, Mark, and Wijnholds, Stefan J.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

Fast radio bursts (FRBs) are extragalactic astrophysical transients whose brightness requires emitters that are highly energetic, yet compact enough to produce the short, millisecond-duration bursts. FRBs have thus far been detected between 300 MHz and 8 GHz, but lower-frequency emission has remained elusive. A subset of FRBs is known to repeat, and one of those sources, FRB 20180916B, does so with a 16.3 day activity period. Using simultaneous Apertif and LOFAR data, we show that FRB 20180916B emits down to 120 MHz, and that its activity window is both narrower and earlier at higher frequencies. Binary wind interaction models predict a narrower periodic activity window at lower frequencies, which is the opposite of our observations. Our detections establish that low-frequency FRB emission can escape the local medium. For bursts of the same fluence, FRB 20180916B is more active below 200 MHz than at 1.4 GHz. Combining our results with previous upper-limits on the all-sky FRB rate at 150 MHz, we find that there are 3-450 FRBs/sky/day above 50 Jy ms at 90% confidence. We are able to rule out the scenario in which companion winds cause FRB periodicity. We also demonstrate that some FRBs live in clean environments that do not absorb or scatter low-frequency radiation., Comment: 50 pages, 14 figures, 3 tables, submitted

Published

2020

27. A Demonstration of Extremely Low Latency $\gamma$-ray, X-Ray & UV Follow-Up of a Millisecond Radio Transient

Author

Tohuvavohu, Aaron, Law, Casey J., Kennea, Jamie A., Adams, Elizabeth A. K., Aggarwal, Kshitij, Bower, Geoffrey, Burke-Spolaor, Sarah, Butler, Bryan J., Cannon, John M., Cenko, S. Bradley, DeLaunay, James, Demorest, Paul, Drout, Maria R., Evans, Philip A., Hirschauer, Alec S., Lazio, T. J. W., Linford, Justin, Marshall, Francis E., McQuinn, K., Petroff, Emily, and Skillman, Evan D.

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

We report results of a novel high-energy follow-up observation of a potential Fast Radio Burst. The radio burst was detected by VLA/realfast and followed-up by the Neil Gehrels Swift Observatory in very low latency utilizing new operational capabilities of Swift (arXiv:2005.01751), with pointed soft X-ray and UV observations beginning at T0+32 minutes, and hard X-ray/gamma-ray event data saved around T0. These observations are $>10$x faster than previous X-ray/UV follow-up of any radio transient to date. No emission is seen coincident with the FRB candidate at T0, with a 0.2s fluence $5\sigma$ upper limit of $1.35\times10^{-8}$ erg cm$^{-2}$ (14-195 keV) for a SGR 1935+2154-like flare, nor at T0+32 minutes down to $3\sigma$ upper limits of 22.18 AB mag in UVOT u band, and $3.33\times10^{-13}$ erg cm$^{-2}$ s$^{-1}$ from 0.3-10 keV for the 2 ks observation. The candidate FRB alone is not significant enough to be considered astrophysical, so this note serves as a technical demonstration. These new Swift operational capabilities will allow future FRB detections to be followed up with Swift at even lower latencies than demonstrated here: 15-20 minutes should be regularly achievable, and 5-10 minutes occasionally achievable. We encourage FRB detecting facilities to release alerts in low latency to enable this science., Comment: Technical note and capability update for the community. We encourage low latency FRB alerts from relevant facilities to enable this science

Published

2020

28. Probing the extragalactic fast transient sky at minute timescales with DECam

Author

Andreoni, Igor, Cooke, Jeffrey, Webb, Sara, Rest, Armin, Pritchard, Tyler A., Caleb, Manisha, Chang, Seo-Won, Farah, Wael, Lien, Amy, Möller, Anais, Ravasio, Maria Edvige, Abbott, Timothy M. C., Bhandari, Shivani, Cucchiara, Antonino, Flynn, Christopher M., Jankowski, Fabian, Keane, Evan F., Moriya, Takashi J., Onken, Christopher, Parthasarathy, Aditya, Price, Daniel C., Petroff, Emily, Ryder, Stuart, Vohl, Dany, and Wolf, Christian

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Astrophysics of Galaxies, Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

Searches for optical transients are usually performed with a cadence of days to weeks, optimised for supernova discovery. The optical fast transient sky is still largely unexplored, with only a few surveys to date having placed meaningful constraints on the detection of extragalactic transients evolving at sub-hour timescales. Here, we present the results of deep searches for dim, minute-timescale extragalactic fast transients using the Dark Energy Camera, a core facility of our all-wavelength and all-messenger Deeper, Wider, Faster programme. We used continuous 20s exposures to systematically probe timescales down to 1.17 minutes at magnitude limits $g > 23$ (AB), detecting hundreds of transient and variable sources. Nine candidates passed our strict criteria on duration and non-stellarity, all of which could be classified as flare stars based on deep multi-band imaging. Searches for fast radio burst and gamma-ray counterparts during simultaneous multi-facility observations yielded no counterparts to the optical transients. Also, no long-term variability was detected with pre-imaging and follow-up observations using the SkyMapper optical telescope. We place upper limits for minute-timescale fast optical transient rates for a range of depths and timescales. Finally, we demonstrate that optical $g$-band light curve behaviour alone cannot discriminate between confirmed extragalactic fast transients such as prompt GRB flashes and Galactic stellar flares., Comment: Published in MNRAS

Published

2019

29. Optical follow-up observation of Fast Radio Burst 151230

Author

Tominaga, Nozomu, Niino, Yuu, Totani, Tomonori, Yasuda, Naoki, Furusawa, Hisanori, Tanaka, Masayuki, Bhandari, Shivani, Dodson, Richard, Keane, Evan, Morokuma, Tomoki, Petroff, Emily, and Possenti, Andrea

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

The origin of fast radio bursts (FRBs), bright millisecond radio transients, is still somewhat of a mystery. Several theoretical models expect that the FRB accompanies an optical afterglow (e.g., Totani 2013; Kashiyama et al. 2013). In order to investigate the origin of FRBs, we perform $gri$-band follow-up observations of FRB~151230 (estimated $z \lesssim 0.8$) with Subaru/Hyper Suprime-Cam at $8$, $11$, and $14$~days after discovery. The follow-up observation reaches a $50\%$ completeness magnitude of $26.5$~mag for point sources, which is the deepest optical follow-up of FRBs to date. We find $13$ counterpart candidates with variabilities during the observation. We investigate their properties with multicolor and multi-wavelength observations and archival catalogs. Two candidates are excluded by the non-detection of FRB~151230 in the other radio feed horns that operated simultaneously to the detection, as well as the inconsistency between the photometric redshift and that derived from the dispersion measure of FRB~151230. Eight further candidates are consistent with optical variability seen in AGNs. Two more candidates are well fitted with transient templates (Type IIn supernovae), and the final candidate is poorly fitted with all of our transient templates and is located off-center of an extended source. It can only be reproduced with rapid transients with a faint peak and rapid decline and the probability of chance coincidence is $\sim3.6\%$. We also find that none of our candidates are consistent with Type Ia supernovae, which rules out the association of Type Ia supernovae to FRB~151230 at $z\leq0.6$ and limits the dispersion measure of the host galaxy to $\lesssim300$~pc~cm$^{-3}$ in a Type Ia supernova scenario., Comment: 22 pages, 11 figures. Accepted for publication in PASJ (Publications of the Astronomical Society of Japan)

Published

2018

30. On detecting repetition from fast radio bursts

Author

Connor, Liam and Petroff, Emily

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

Fast radio bursts (FRBs) are bright, millisecond-duration radio pulses whose origins are unknown. To date, only one (FRB 121102) out of several dozen has been seen to repeat, though the extent to which it is exceptional remains unclear. We discuss detecting repetition from FRBs, which will be very important for understanding their physical origin, and which also allows for host galaxy localisation. We show how the combination of instrument sensitivity, beamshapes, and individual FRB luminosity functions affect the detection of sources whose repetition is not necessarily described by a homogeneous Poisson process. We demonstrate that the Canadian Hydrogen Intensity Mapping Experiment (CHIME) could detect many new repeating FRBs for which host galaxies could be subsequently localised using other interferometers, but it will not be an ideal instrument for monitoring FRB 121102. If the luminosity distributions of repeating FRBs are given by power-laws with significantly more dim than bright bursts, CHIME's repetition discoveries could preferentially come not from its own discoveries, but from sources first detected with lower-sensitivity instruments like the Australian Square Kilometer Array Pathfinder (ASKAP) in fly's eye mode. We then discuss observing strategies for upcoming surveys, and advocate following up sources at approximately regular intervalsand with telescopes of higher sensitivity, when possible. Finally, we discuss doing pulsar-like periodicity searching on FRB follow-up data, based on the idea that while most pulses are undetectable, folding on an underlying rotation period could reveal the hidden signal.

Published

2018

31. VOEvent Standard for Fast Radio Bursts

Author

Petroff, Emily, Houben, Leon, Bannister, Keith, Burke-Spolaor, Sarah, Cordes, Jim, Falcke, Heino, van Haren, Ronald, Karastergiou, Aris, Kramer, Michael, Law, Casey, van Leeuwen, Joeri, Lorimer, Duncan, Martinez-Rubi, Oscar, Rachen, Jörg, Spitler, Laura, and Weltman, Amanda

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

Fast radio bursts are a new class of transient radio phenomena currently detected as millisecond radio pulses with very high dispersion measures. As new radio surveys begin searching for FRBs a large population is expected to be detected in real-time, triggering a range of multi-wavelength and multi-messenger telescopes to search for repeating bursts and/or associated emission. Here we propose a method for disseminating FRB triggers using Virtual Observatory Events (VOEvents). This format was developed and is used successfully for transient alerts across the electromagnetic spectrum and for multi-messenger signals such as gravitational waves. In this paper we outline a proposed VOEvent standard for FRBs that includes the essential parameters of the event and where these parameters should be specified within the structure of the event. An additional advantage to the use of VOEvents for FRBs is that the events can automatically be ingested into the FRB Catalogue (FRBCAT) enabling real-time updates for public use. We welcome feedback from the community on the proposed standard outlined below and encourage those interested to join the nascent working group forming around this topic., Comment: 11 pages, 2 figures, parameter definition table in appendix

Published

2017

32. Polarization Properties of 128 Nonrepeating Fast Radio Bursts from the First CHIME/FRB Baseband Catalog

Author

Pandhi, Ayush, primary, Pleunis, Ziggy, additional, Mckinven, Ryan, additional, Gaensler, B. M., additional, Su, Jianing, additional, Ng, Cherry, additional, Bhardwaj, Mohit, additional, Brar, Charanjot, additional, Cassanelli, Tomas, additional, Cook, Amanda, additional, Curtin, Alice P., additional, Kaspi, Victoria M., additional, Lazda, Mattias, additional, Leung, Calvin, additional, Li, Dongzi, additional, Masui, Kiyoshi W., additional, Michilli, Daniele, additional, Nimmo, Kenzie, additional, Pearlman, Aaron B., additional, Petroff, Emily, additional, Rafiei-Ravandi, Masoud, additional, Sand, Ketan R., additional, Scholz, Paul, additional, Shin, Kaitlyn, additional, Smith, Kendrick, additional, and Stairs, Ingrid, additional

Published

2024

33. Finding the location of a fast radio burst

Author

Petroff, Emily

Published

2019

34. Polarization properties of the 128 non-repeating fast radio bursts from the first CHIME/FRB baseband catalog

Author

Pandhi, Ayush, Pleunis, Ziggy, Mckinven, Ryan, Gaensler, B. M., Su, Jianing, Ng, Cherry, Bhardwaj, Mohit, Brar, Charanjot, Cassanelli, Tomas, Cook, Amanda M., Curtin, Alice P., Kaspi, Victoria M., Lazda, Mattias, Leung, Calvin, Li, Dongzi, Masui, Kiyoshi W., Michilli, Daniele, Nimmo, Kenzie, Pearlman, Aaron, Petroff, Emily, Rafiei-Ravandi, Masoud, Sand, Ketan R., Scholz, Paul, Shin, Kaitlyn, Smith, Kendrick, Stairs, Ingrid, Pandhi, Ayush, Pleunis, Ziggy, Mckinven, Ryan, Gaensler, B. M., Su, Jianing, Ng, Cherry, Bhardwaj, Mohit, Brar, Charanjot, Cassanelli, Tomas, Cook, Amanda M., Curtin, Alice P., Kaspi, Victoria M., Lazda, Mattias, Leung, Calvin, Li, Dongzi, Masui, Kiyoshi W., Michilli, Daniele, Nimmo, Kenzie, Pearlman, Aaron, Petroff, Emily, Rafiei-Ravandi, Masoud, Sand, Ketan R., Scholz, Paul, Shin, Kaitlyn, Smith, Kendrick, and Stairs, Ingrid

Abstract

We present a 400-800 MHz polarimetric analysis of 128 non-repeating fast radio bursts (FRBs) from the first CHIME/FRB baseband catalog, increasing the total number of FRB sources with polarization properties by a factor of ~3. Of the 128 sources, 89 FRBs have >6${\sigma}$ linearly polarized detections, 29 FRBs fall below this significance threshold and are deemed linearly unpolarized, and for 10 FRBs the polarization data are contaminated by instrumental polarization. For the 89 polarized FRBs, we find Faraday rotation measure (RM) amplitudes, after subtracting approximate Milky Way contributions, in the range 0.5-1160 rad m$^{-2}$ with a median of 53.8 rad m$^{-2}$. Most non-repeating FRBs in our sample have RMs consistent with Milky Way-like host galaxies and their linear polarization fractions range from ${\leq}$10% to 100% with a median of 63%. The non-repeater RMs and linear polarization fraction distributions are consistent with those of repeating FRBs. We see marginal evidence that non-repeating FRBs have more constraining lower limits than repeating FRBs for the host electron-density-weighted line-of-sight magnetic field strength. We classify the non-repeating FRB polarization position angle (PA) profiles into four archetypes: (i) single component with constant PA (57% of the sample), (ii) single component with variable PA (10%), (iii) multiple components with a single constant PA (22%), and (iv) multiple components with different or variable PAs (11%). We see no evidence for population-wide frequency-dependent depolarization and, therefore, the spread in the distribution of fractional linear polarization is likely intrinsic to the FRB emission mechanism., Comment: 43 pages, 18 figures, submitted to ApJ

Published

2024

35. Statistical Association between the Candidate Repeating FRB 20200320A and a Galaxy Group

Author

Rafiei-Ravandi, Masoud, primary, Smith, Kendrick M., additional, Michilli, D., additional, Pleunis, Ziggy, additional, Bhardwaj, Mohit, additional, Dobbs, Matt, additional, Eadie, Gwendolyn M., additional, Fonseca, Emmanuel, additional, Gaensler, B. M., additional, Kaczmarek, Jane, additional, Kaspi, Victoria M., additional, Leung, Calvin, additional, Li, Dongzi, additional, Masui, Kiyoshi W., additional, Pandhi, Ayush, additional, Pearlman, Aaron B., additional, Petroff, Emily, additional, Rahman, Mubdi, additional, Scholz, Paul, additional, and Stenning, David C., additional

Published

2024

36. A CHIME/FRB Study of Burst Rate and Morphological Evolution of the Periodically Repeating FRB 20180916B

Author

Sand, Ketan R., primary, Breitman, Daniela, additional, Michilli, Daniele, additional, Kaspi, Victoria M., additional, Chawla, Pragya, additional, Fonseca, Emmanuel, additional, Mckinven, Ryan, additional, Nimmo, Kenzie, additional, Pleunis, Ziggy, additional, Shin, Kaitlyn, additional, Andersen, Bridget C., additional, Bhardwaj, Mohit, additional, Boyle, P. J., additional, Brar, Charanjot, additional, Cassanelli, Tomas, additional, Cook, Amanda M., additional, Curtin, Alice P., additional, Dong, Fengqiu Adam, additional, Eadie, Gwendolyn M., additional, Gaensler, B. M., additional, Kaczmarek, Jane, additional, Lanman, Adam, additional, Leung, Calvin, additional, Masui, Kiyoshi W., additional, Rahman, Mubdi, additional, Pandhi, Ayush, additional, Pearlman, Aaron B., additional, Petroff, Emily, additional, Rafiei-Ravandi, Masoud, additional, Scholz, Paul, additional, Shah, Vishwangi, additional, Smith, Kendrick, additional, Stairs, Ingrid, additional, and Stenning, David C., additional

Published

2023

37. Limits on Fast Radio Burst–like Counterparts to Gamma-Ray Bursts Using CHIME/FRB

Author

Curtin, Alice P., primary, Tendulkar, Shriharsh P., additional, Josephy, Alexander, additional, Chawla, Pragya, additional, Andersen, Bridget, additional, Kaspi, Victoria M., additional, Bhardwaj, Mohit, additional, Cassanelli, Tomas, additional, Cook, Amanda, additional, Dong, Fengqiu Adam, additional, Fonseca, Emmanuel, additional, Gaensler, B. M., additional, Kaczmarek, Jane F., additional, Lanmnan, Adam E., additional, Leung, Calvin, additional, Pearlman, Aaron B., additional, Petroff, Emily, additional, Pleunis, Ziggy, additional, Rafiei-Ravandi, Masoud, additional, Ransom, Scott M., additional, Shin, Kaitlyn, additional, Scholz, Paul, additional, Smith, Kendrick, additional, and Stairs, Ingrid, additional

Published

2023

38. Subarcminute Localization of 13 Repeating Fast Radio Bursts Detected by CHIME/FRB

Author

Michilli, Daniele, primary, Bhardwaj, Mohit, additional, Brar, Charanjot, additional, Gaensler, B. M., additional, Kaspi, Victoria M., additional, Kirichenko, Aida, additional, Masui, Kiyoshi W., additional, Mckinven, Ryan, additional, Ng, Cherry, additional, Patel, Chitrang, additional, Sand, Ketan R., additional, Scholz, Paul, additional, Shin, Kaitlyn, additional, Siegel, Seth R., additional, Stairs, Ingrid, additional, Cassanelli, Tomas, additional, Cook, Amanda M., additional, Dobbs, Matt, additional, Dong, Fengqiu Adam, additional, Fonseca, Emmanuel, additional, Ibik, Adaeze, additional, Kaczmarek, Jane, additional, Leung, Calvin, additional, Pearlman, Aaron B., additional, Petroff, Emily, additional, Pleunis, Ziggy, additional, Rafiei-Ravandi, Masoud, additional, Sanghavi, Pranav, additional, Shaw, J. Richard, additional, and Tendulkar, Shriharsh P., additional

Published

2023

39. A fast radio burst localized at detection to a galactic disk using very long baseline interferometry

Author

Cassanelli, Tomas, Leung, Calvin, Sanghavi, Pranav, Mena-Parra, Juan, Cary, Savannah, Mckinven, Ryan, Bhardwaj, Mohit, Masui, Kiyoshi W., Michilli, Daniele, Bandura, Kevin, Chatterjee, Shami, Peterson, Jeffrey B., Kaczmarek, Jane, Patel, Chitrang, Rahman, Mubdi, Shin, Kaitlyn, Vanderlinde, Keith, Berger, Sabrina, Brar, Charanjot, Boyle, P. J., Breitman, Daniela, Chawla, Pragya, Curtin, Alice P., Dobbs, Matt, Dong, Fengqiu Adam, Fonseca, Emmanuel, Gaensler, B. M., Ibik, Adaeze, Kaspi, Victoria M., Kholoud, Khairy, Landecker, T. L., Lanman, Adam E., Lazda, Mattias, Lin, Hsiu-Hsien, Luo, Jing, Meyers, Bradley W., Milutinovic, Nikola, Ng, Cherry, Noble, Gavin, Pearlman, Aaron B., Pen, Ue-Li, Petroff, Emily, Pleunis, Ziggy, Quine, Brendan, Rafiei-Ravandi, Masoud, Renard, Andre, Sand, Ketan R., Schoen, Eve, Scholz, Paul, Smith, Kendrick M., Stairs, Ingrid, and Tendulkar, Shriharsh P.

Subjects

High Energy Astrophysical Phenomena (astro-ph.HE), FOS: Physical sciences, Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Instrumentation and Methods for Astrophysics, Instrumentation and Methods for Astrophysics (astro-ph.IM)

Abstract

Fast radio bursts (FRBs) are millisecond-duration, luminous radio transients of extragalactic origin. These events have been used to trace the baryonic structure of the Universe using their dispersion measure (DM) assuming that the contribution from host galaxies can be reliably estimated. However, contributions from the immediate environment of an FRB may dominate the observed DM, thus making redshift estimates challenging without a robust host galaxy association. Furthermore, while at least one Galactic burst has been associated with a magnetar, other localized FRBs argue against magnetars as the sole progenitor model. Precise localization within the host galaxy %can enable estimation of the host galaxy DM contribution and can discriminate between progenitor models, a major goal of the field. Until now, localizations on this spatial scale have only been carried out in follow-up observations of repeating sources. Here we demonstrate the localization of FRB 20210603A with very long baseline interferometry (VLBI) on two baselines, using data collected only at the time of detection. We localize the burst to SDSS J004105.82+211331.9, an edge-on galaxy at $z\approx 0.177$, and detect recent star formation in the kiloparsec-scale vicinity of the burst. The edge-on inclination of the host galaxy allows for a unique comparison between the line of sight towards the FRB and lines of sight towards known Galactic pulsars. The DM, Faraday rotation measure (RM), and scattering suggest a progenitor coincident with the host galactic plane, strengthening the link between the environment of FRB 20210603A and the disk of its host galaxy. Single-pulse VLBI localizations of FRBs to within their host galaxies, following the one presented here, will further constrain the origins and host environments of one-off FRBs., 40 pages, 13 figures, submitted

Published

2023

40. CHIME/FRB Discovery of 25 Repeating Fast Radio Burst Sources

Author

Andersen, Bridget C., primary, Bandura, Kevin, additional, Bhardwaj, Mohit, additional, Boyle, P. J., additional, Brar, Charanjot, additional, Cassanelli, Tomas, additional, Chatterjee, S., additional, Chawla, Pragya, additional, Cook, Amanda M., additional, Curtin, Alice P., additional, Dobbs, Matt, additional, Dong, Fengqiu Adam, additional, Faber, Jakob T., additional, Fandino, Mateus, additional, Fonseca, Emmanuel, additional, Gaensler, B. M., additional, Giri, Utkarsh, additional, Herrera-Martin, Antonio, additional, Hill, Alex S., additional, Ibik, Adaeze, additional, Josephy, Alexander, additional, Kaczmarek, Jane F., additional, Kader, Zarif, additional, Kaspi, Victoria, additional, Landecker, T. L., additional, Lanman, Adam E., additional, Lazda, Mattias, additional, Leung, Calvin, additional, Lin, Hsiu-Hsien, additional, Masui, Kiyoshi W., additional, Mckinven, Ryan, additional, Mena-Parra, Juan, additional, Meyers, Bradley W., additional, Michilli, D., additional, Ng, Cherry, additional, Pandhi, Ayush, additional, Pearlman, Aaron B., additional, Pen, Ue-Li, additional, Petroff, Emily, additional, Pleunis, Ziggy, additional, Rafiei-Ravandi, Masoud, additional, Rahman, Mubdi, additional, Ransom, Scott M., additional, Renard, Andre, additional, Sand, Ketan R., additional, Sanghavi, Pranav, additional, Scholz, Paul, additional, Shah, Vishwangi, additional, Shin, Kaitlyn, additional, Siegel, Seth, additional, Smith, Kendrick, additional, Stairs, Ingrid, additional, Su, Jianing, additional, Tendulkar, Shriharsh P., additional, Vanderlinde, Keith, additional, Wang, Haochen, additional, Wulf, Dallas, additional, and Zwaniga, Andrew, additional

Published

2023

41. The Apertif Radio Transient System (ARTS): Design, commissioning, data release, and detection of the first five fast radio bursts

Author

van Leeuwen, Joeri, primary, Kooistra, Eric, additional, Oostrum, Leon, additional, Connor, Liam, additional, Hargreaves, Jonathan E., additional, Maan, Yogesh, additional, Pastor-Marazuela, Inés, additional, Petroff, Emily, additional, van der Schuur, Daniel, additional, Sclocco, Alessio, additional, Straal, Samayra M., additional, Vohl, Dany, additional, Wijnholds, Stefan J., additional, Adams, Elizabeth A. K., additional, Adebahr, Björn, additional, Attema, Jisk, additional, Bassa, Cees, additional, Bast, Jeanette E., additional, Bilous, Anna, additional, de Blok, Willem J. G., additional, Boersma, Oliver M., additional, van Cappellen, Wim A., additional, Coolen, Arthur H. W. M., additional, Damstra, Sieds, additional, Dénes, Helga, additional, van Diepen, Ger N. J., additional, Gardenier, David W., additional, Grange, Yan G., additional, Gunst, André W., additional, Hess, Kelley M., additional, Holties, Hanno, additional, van der Hulst, Thijs, additional, Hut, Boudewijn, additional, Kutkin, Alexander, additional, Loose, G. Marcel, additional, Lucero, Danielle M., additional, Mika, Ágnes, additional, Mikhailov, Klim, additional, Morganti, Raffaella, additional, Moss, Vanessa A., additional, Mulder, Henk, additional, Norden, Menno J., additional, Oosterloo, Tom A., additional, Orrú, Emaneula, additional, Paragi, Zsolt, additional, de Reijer, Jan-Pieter R., additional, Schoenmakers, Arno P., additional, Stuurwold, Klaas J. C., additional, ter Veen, Sander, additional, Wang, Yu-Yang, additional, Zanting, Alwin W., additional, and Ziemke, Jacob, additional

Published

2023

42. CHIME/FRB Discovery of 25 Repeating Fast Radio Burst Sources

Author

FRB Collaboration, Andersen, Bridget C., Bandura, Kevin, Bhardwaj, Mohit, Boyle, P. J., Brar, Charanjot, Cassanelli, Tomas, Chatterjee, S., Chawla, Pragya, Cook, Amanda M., Curtin, Alice P., Dobbs, Matt, Dong, Fengqiu Adam, Faber, Jakob T., Fandino, Mateus, Fonseca, Emmanuel, Gaensler, B. M., Giri, Utkarsh, Herrera-Martin, Antonio, Hill, Alex S., Ibik, Adaeze, Josephy, Alexander, Kaczmarek, Jane F., Kader, Zarif, Kaspi, Victoria, Landecker, T. L., Lanman, Adam E., Lazda, Mattias, Leung, Calvin, Lin, Hsiu-Hsien, Masui, Kiyoshi W., Mckinven, Ryan, Mena-Parra, Juan, Meyers, Bradley W., Michilli, D., Ng, Cherry, Pandhi, Ayush, Pearlman, Aaron B., Pen, Ue-Li, Petroff, Emily, Pleunis, Ziggy, Rafiei-Ravandi, Masoud, Rahman, Mubdi, Ransom, Scott M., Renard, Andre, Sand, Ketan R., Sanghavi, Pranav, Scholz, Paul, Shah, Vishwangi, Shin, Kaitlyn, Siegel, Seth, Smith, Kendrick, Stairs, Ingrid, Su, Jianing, Tendulkar, Shriharsh P., Vanderlinde, Keith, Wang, Haochen, Wulf, Dallas, and Zwaniga, Andrew

Subjects

High Energy Astrophysical Phenomena (astro-ph.HE), Space and Planetary Science, FOS: Physical sciences, Astronomy and Astrophysics, Astrophysics - High Energy Astrophysical Phenomena

Abstract

We present the discovery of 25 new repeating fast radio burst (FRB) sources found among CHIME/FRB events detected between 2019 September 30 and 2021 May 1. The sources were found using a new clustering algorithm that looks for multiple events co-located on the sky having similar dispersion measures (DMs). The new repeaters have DMs ranging from $\sim$220 pc cm$^{-3}$ to $\sim$1700 pc cm$^{-3}$, and include sources having exhibited as few as two bursts to as many as twelve. We report a statistically significant difference in both the DM and extragalactic DM (eDM) distributions between repeating and apparently nonrepeating sources, with repeaters having lower mean DM and eDM, and we discuss the implications. We find no clear bimodality between the repetition rates of repeaters and upper limits on repetition from apparently nonrepeating sources after correcting for sensitivity and exposure effects, although some active repeating sources stand out as anomalous. We measure the repeater fraction over time and find that it tends to an equilibrium of $2.6_{-2.6}^{+2.9}$% over our total time-on-sky thus far. We also report on 14 more sources which are promising repeating FRB candidates and which merit follow-up observations for confirmation., Comment: ApJ in press. Comments are still welcome and follow-up observations are encouraged!

Published

2023

43. Fast Radio Burst Community Newsletter - Volume 4, Issue 01

Author

Nimmo, Kenzie, Chatterjee, Shami, and Petroff, Emily

Published

2023

44. Constraining primordial black holes using fast radio burst gravitational-lens interferometry with CHIME/FRB

Author

Leung, Calvin, primary, Kader, Zarif, additional, Masui, Kiyoshi W., additional, Dobbs, Matt, additional, Michilli, Daniele, additional, Mena-Parra, Juan, additional, Mckinven, Ryan, additional, Ng, Cherry, additional, Bandura, Kevin, additional, Bhardwaj, Mohit, additional, Brar, Charanjot, additional, Cassanelli, Tomas, additional, Chawla, Pragya, additional, Dong, Fengqiu Adam, additional, Good, Deborah, additional, Kaspi, Victoria, additional, Lanman, Adam E., additional, Lin, Hsiu-Hsien, additional, Meyers, Bradley W., additional, Pearlman, Aaron B., additional, Pen, Ue-Li, additional, Petroff, Emily, additional, Pleunis, Ziggy, additional, Rafiei-Ravandi, Masoud, additional, Rahman, Mubdi, additional, Sanghavi, Pranav, additional, Scholz, Paul, additional, Shin, Kaitlyn, additional, Siegel, Seth, additional, Smith, Kendrick M., additional, Stairs, Ingrid, additional, Tendulkar, Shriharsh P., additional, and Vanderlinde, Keith, additional

Published

2022

45. Multiband Detection of Repeating FRB 20180916B

Author

Sand, Ketan R., primary, Faber, Jakob T., additional, Gajjar, Vishal, additional, Michilli, Daniele, additional, Andersen, Bridget C, additional, Joshi, Bhal Chandra, additional, Kudale, Sanjay, additional, Pilia, Maura, additional, Brzycki, Bryan, additional, Cassanelli, Tomas, additional, Croft, Steve, additional, Dey, Biprateep, additional, John, Hoang, additional, Leung, Calvin, additional, Mckinven, Ryan, additional, Ng, Cherry, additional, Pearlman, Aaron B., additional, Petroff, Emily, additional, Price, Danny C., additional, Siemion, Andrew, additional, Smith, Kendrick, additional, and Tendulkar, Shriharsh P., additional

Published

2022

46. Chiming again and again

Author

Petroff, Emily

Published

2019

47. A Sudden Period of High Activity from Repeating Fast Radio Burst 20201124A

Author

Lanman, Adam E., primary, Andersen, Bridget C., additional, Chawla, Pragya, additional, Josephy, Alexander, additional, Noble, Gavin, additional, Kaspi, Victoria M., additional, Bandura, Kevin, additional, Bhardwaj, Mohit, additional, Boyle, P. J., additional, Brar, Charanjot, additional, Breitman, Daniela, additional, Cassanelli, Tomas, additional, Dong, Fengqiu (Adam), additional, Fonseca, Emmanuel, additional, Gaensler, B. M., additional, Good, Deborah, additional, Kaczmarek, Jane, additional, Leung, Calvin, additional, Masui, Kiyoshi W., additional, Meyers, B. W., additional, Ng, Cherry, additional, Patel, Chitrang, additional, Pearlman, Aaron B., additional, Petroff, Emily, additional, Pleunis, Ziggy, additional, Rafiei-Ravandi, Masoud, additional, Rahman, Mubdi, additional, Sanghavi, Pranav, additional, Scholz, Paul, additional, Shin, Kaitlyn, additional, Stairs, Ingrid, additional, Tendulkar, Shriharsh, additional, and Zwaniga, Andrew, additional

Published

2022

48. A fast radio burst with sub-millisecond quasi-periodic structure

Author

Pastor-Marazuela, In��s, van Leeuwen, Joeri, Bilous, Anna, Connor, Liam, Maan, Yogesh, Oostrum, Leon, Petroff, Emily, Straal, Samayra, Vohl, Dany, Adams, E. A. K., Adebahr, B., Attema, Jisk, Boersma, Oliver M., Brink, R. van den, van Cappellen, W. A., Coolen, A. H. W. M., Damstra, S., D��nes, H., Hess, K. M., van der Hulst, J. M., Hut, B., Kutkin, A., Loose, G. Marcel, Lucero, D. M., Mika, ��., Moss, V. A., Mulder, H., Norden, M. J., Oosterloo, T. A., Rajwade, Kaustubh, van der Schuur, D., Sclocco, A., Smits, R., and Ziemke, J.

Subjects

High Energy Astrophysical Phenomena (astro-ph.HE), Astrophysics::High Energy Astrophysical Phenomena, FOS: Physical sciences, Astrophysics - High Energy Astrophysical Phenomena

Abstract

Fast radio bursts (FRBs) are extragalactic radio transients of extraordinary luminosity. Studying the diverse temporal and spectral behaviour recently observed in a number of FRBs may help determine the nature of the entire class. For example, a fast spinning or highly magnetised neutron star might generate the rotation-powered acceleration required to explain the bright emission. Periodic, sub-second components, suggesting such rotation, were recently reported in one FRB, and potentially in two more. Here we report the discovery of FRB 20201020A with Apertif, an FRB showing five components regularly spaced by 0.415 ms. This sub-millisecond structure in FRB 20201020A carries important clues about the progenitor of this FRB specifically, and potentially about that of FRBs in general. We thus contrast its features to the predictions of the main FRB source models. We perform a timing analysis of the FRB 20201020A components to determine the significance of the periodicity. We compare these against the timing properties of the previously reported CHIME FRBs with sub-second quasi-periodic components, and against two Apertif bursts from repeating FRB 20180916B that show complex time-frequency structure. We find the periodicity of FRB 20201020A to be marginally significant at 2.5$\sigma$. Its repeating subcomponents cannot be explained as a pulsar rotation since the required spin rate of over 2 kHz exceeds the limits set by typical neutron star equations of state and observations. The fast periodicity is also in conflict with a compact object merger scenario. These quasi-periodic components could, however, be caused by equidistant emitting regions in the magnetosphere of a magnetar. The sub-millisecond spacing of the components in FRB 20201020A, the smallest observed so far in a one-off FRB, may rule out both neutron-star rotation and binary mergers as the direct source of quasi-periodic FRBs., Comment: 13 pages, 6 figures, 3 tables, supplementary material. Submitted to A&A

Published

2022

49. Fast Radio Burst Community Newsletter - Volume 3, Issue 05

Author

Petroff, Emily and Chatterjee, Shami

Published

2022

50. Fast Radio Burst Community Newsletter - Volume 3, Issue 11

Author

Nimmo, Kenzie, Petroff, Emily, and Chatterjee, Shami

Published

2022