Your search keyword '"Chawla, Pragya"' showing total 46 results

1. A Repeating Fast Radio Burst Source in a Low-Luminosity Dwarf Galaxy

Author

Hewitt, Danté M., Bhardwaj, Mohit, Gordon, Alexa C., Kirichenko, Aida, Nimmo, Kenzie, Bhandari, Shivani, Cognard, Ismaël, Fong, Wen-fai, de Paz, Armando Gil, Gopinath, Akshatha, Hessels, Jason W. T., Kirsten, Franz, Marcote, Benito, Bezrukovs, Vladislavs, Blaauw, Richard, Bray, Justin D., Buttaccio, Salvatore, Cassanelli, Tomas, Chawla, Pragya, Corongiu, Alessandro, Deng, William, Didehbani, Hannah N., Dong, Yuxin, Gawroński, Marcin P., Giroletti, Marcello, Guillemot, Lucas, Huang, Jeff, Joseph, Ronniy C., Kaspi, Victoria M., Lazda, Mattias, Lindqvist, Michael, Giuseppe, Maccaferri, Mas-Ribas, Lluis, Masui, Kiyoshi W., Mckinven, Ryan, Michilli, Daniele, Nugent, Anya E., Ould-Boukattine, Omar S., Paragi, Zsolt, Pearlman, Aaron B., Pen, Ue-Li, Pleunis, Ziggy, Sand, Ketan R., Shah, Vishwangi, Shin, Kaitlyn, Snelders, Mark P., Venturi, Tiziana, Wang, Na, Williams-Baldwin, David R. A., Yang, Jun, and Yuan, Jianping P.

Subjects

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

Abstract

We present the localization and host galaxy of FRB 20190208A, a repeating source of fast radio bursts (FRBs) discovered using CHIME/FRB. As part of the PRECISE repeater localization program on the EVN, we monitored FRB 20190208A for 65.6 hours at $\sim1.4$ GHz and detected a single burst, which led to its VLBI localization with 260 mas uncertainty (2$\sigma$). Follow-up optical observations with the MMT Observatory ($i\gtrsim 25.7$ mag (AB)) found no visible host at the FRB position. Subsequent deeper observations with the GTC, however, revealed an extremely faint galaxy ($r=27.32 \pm0.16$ mag), very likely ($99.95 \%$) associated with FRB 20190208A. Given the dispersion measure of the FRB ($\sim580$ pc cm$^{-3}$), even the most conservative redshift estimate ($z_{\mathrm{max}}\sim0.83$) implies that this is the lowest-luminosity FRB host to date ($\lesssim10^8L_{\odot}$), even less luminous than the dwarf host of FRB 20121102A. We investigate how localization precision and the depth of optical imaging affect host association, and discuss the implications of such a low-luminosity dwarf galaxy. Unlike the other repeaters with low-luminosity hosts, FRB 20190208A has a modest Faraday rotation measure of a few tens of rad m$^{-2}$, and EVN plus VLA observations reveal no associated compact persistent radio source. We also monitored FRB 20190208A for 40.4 hours over 2 years as part of the \'ECLAT repeating FRB monitoring campaign on the Nan\c{c}ay Radio Telescope, and detected one burst. Our results demonstrate that, in some cases, the robust association of an FRB with a host galaxy will require both high localization precision, as well as deep optical follow-up., Comment: submitted to ApJL

Published

2024

2. A Nan\c{c}ay Radio Telescope study of the hyperactive repeating FRB 20220912A

Author

Konijn, David C., Hewitt, Danté M., Hessels, Jason W. T., Cognard, Ismaël, Huang, Jeff, Ould-Boukattine, Omar S., Chawla, Pragya, Nimmo, Kenzie, Snelders, Mark P., Gopinath, Akshatha, and Manaswini, Ninisha

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

The repeating fast radio burst source FRB 20220912A was remarkably active in the weeks after its discovery. Here we report 696 bursts detected with the Nan\c{c}ay Radio Telescope (NRT) as part of the Extragalactic Coherent Light from Astrophysical Transients (\'ECLAT) monitoring campaign. We present 68 observations, conducted from October 2022 to April 2023, with a total duration of 61 hours and an event rate peaking at $75^{+10}_{-9}$ bursts per hour above a fluence threshold of 0.59 Jy ms in the $1.2-1.7$-GHz band. Most bursts in the sample occur towards the bottom of the observing band. They follow a bimodal wait-time distribution, with peaks at 33.4 ms and 67.0 s. We find a roughly constant dispersion measure (DM) over time ($\delta$DM $\lesssim$ 2 pc cm$^{-3}$) when taking into account `sad-trombone' drift, with a mean drift rate of $-8.8 $MHz ms$^{-1}$. Nonetheless, we confirm small $\sim0.3$ pc cm$^{-3}$ DM variations using microshot structure, while finding that microstructure is rare in our sample -- despite the 16 $\mu$s time resolution of the data. The cumulative spectral energy distribution shows more high-energy bursts ($E_\nu \gtrsim 10^{31}$ erg/Hz) than would be expected from a simple power-law distribution. The burst rate per observation appears Poissonian, but the full set of observations is better modelled by a Weibull distribution, showing clustering. We discuss the various observational similarities that FRB 20220912A shares with other (hyper)active repeaters, which as a group are beginning to show a common set of phenomenological traits that provide multiple useful dimensions for their quantitative comparison and modelling., Comment: 18 pages, 20 figures

Published

2024

3. 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

4. Comprehensive Bayesian analysis of FRB-like bursts from SGR 1935+2154 observed by CHIME/FRB

Author

Giri, Utkarsh, Andersen, Bridget C., Chawla, Pragya, Curtin, Alice P., Fonseca, Emmanuel, Kaspi, Victoria M., Lin, Hsiu-Hsien, Masui, Kiyoshi W., Sand, Ketan R., Scholz, Paul, Abbott, Thomas C., Dong, Fengqiu Adam, Gaensler, B. M., Leung, Calvin, Michilli, Daniele, Bhardwaj, Mohit, Münchmeyer, Moritz, Pandhi, Ayush, Pearlman, Aaron B., Pleunis, Ziggy, Rafiei-Ravandi, Masoud, Reda, Alex, Shin, Kaitlyn, Smith, Kendrick, Stairs, Ingrid H., Stenning, David C., and Tendulkar, Shriharsh P.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

The bright millisecond-duration radio burst from the Galactic magnetar SGR 1935+2154 in 2020 April was a landmark event, demonstrating that at least some fast radio burst (FRB) sources could be magnetars. The two-component burst was temporally coincident with peaks observed within a contemporaneous short X-ray burst envelope, marking the first instance where FRB-like bursts were observed to coincide with X-ray counterparts. In this study, we detail five new radio burst detections from SGR 1935+2154, observed by the CHIME/FRB instrument between October 2020 and December 2022. We develop a fast and efficient Bayesian inference pipeline that incorporates state-of-the-art Markov chain Monte Carlo techniques and use it to model the intensity data of these bursts under a flexible burst model. We revisit the 2020 April burst and corroborate that both the radio sub-components lead the corresponding peaks in their high-energy counterparts. For a burst observed in 2022 October, we find that our estimated radio pulse arrival time is contemporaneous with a short X-ray burst detected by GECAM and HEBS, and Konus-Wind and is consistent with the arrival time of a radio burst detected by GBT. We present flux and fluence estimates for all five bursts, employing an improved estimator for bursts detected in the side-lobes. We also present upper limits on radio emission for X-ray emission sources which were within CHIME/FRB's field-of-view at trigger time. Finally, we present our exposure and sensitivity analysis and estimate the Poisson rate for FRB-like events from SGR 1935+2154 to be $0.005^{+0.082}_{-0.004}$ events/day above a fluence of $10~\mathrm{kJy~ms}$ during the interval from 28 August 2018 to 1 December 2022, although we note this was measured during a time of great X-ray activity from the source., Comment: 22 pages, 6 figures, 4 tables. To be submitted to ApJ

Published

2023

5. Dense Forests of Microshots in Bursts from FRB 20220912A

Author

Hewitt, Danté M., Hessels, Jason W. T., Ould-Boukattine, Omar S., Chawla, Pragya, Cognard, Ismaël, Gopinath, Akshatha, Guillemot, Lucas, Huppenkothen, Daniela, Nimmo6, Kenzie, and Snelders, Mark P.

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Solar and Stellar Astrophysics

Abstract

We report on exceptionally bright bursts (>400 Jy ms) detected from the repeating fast radio burst source FRB 20220912A using the Nan\c{c}ay Radio Telescope (NRT), as part of the ECLAT (Extragalactic Coherent Light from Astrophysical Transients) monitoring campaign. These bursts exhibit extremely luminous, broadband, short-duration structures (~ 16 microseconds), which we term 'microshots' and which can be especially well studied in the NRT data given the excellent signal-to-noise and dynamic range (32-bit samples). The estimated peak flux density of the brightest microshot is 450 Jy. We show that the microshots are clustered into dense 'forests', by modelling them as Weibull distributions and obtaining Weibull shape parameters of approximately 0.5. Our polarimetric analysis reveals that the bursts are nearly 100% linearly polarised; have < 10% circular polarisation fractions; a near-zero average rotation measure of 0.10(6) rad/m^2; and varying polarisation position angles over the burst duration. For one of the bursts, we analyse raw voltage data from simultaneous observations with the Westerbork RT-1 single 25-m dish. These data allow us to measure the scintillation bandwidth, 0.30(3) MHz, and to probe the bursts on (sub-)microsecond timescales. Some important nuances related to dedispersion are also discussed. We propose that the emission mechanism for the broadband microshots is potentially different from the emission mechanism of the broader burst components which still show a residual drift of a few hundred MHz/ms after correcting for dispersion using the microshots. We discuss how the observed emission is phenomenologically analogous to different types of radio bursts from the Sun., Comment: submitted to MNRAS, 19 pages, 13 figures

Published

2023

6. 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, 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

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

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 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., Comment: 40 pages, 13 figures, accepted for publication in Nature Astronomy

Published

2023

7. Do All Fast Radio Bursts Repeat? Constraints from CHIME/FRB Far Side-Lobe FRBs

Author

Lin, Hsiu-Hsien, Scholz, Paul, Ng, Cherry, Pen, Ue-Li, Bhardwaj, Mohit, Chawla, Pragya, Curtin, Alice P., Li, Dongzi, Newburgh, Laura, Reda, Alex, Sand, Ketan R., Tendulkar, Shriharsh P., Andersen, Bridget, Bandura, Kevin, Brar, Charanjot, Cassanelli, Tomas, Cook, Amanda M., Dobbs, Matt, Dong, Fengqiu Adam, Eadie, Gwendolyn, Fonseca, Emmanuel, Gaensler, Bryan M., Giri, Utkarsh, Herrera-Martin, Antonio, Hill, Alex S., Kaczmarek, Jane, Kania, Joseph, Kaspi, Victoria, Khairy, Kholoud, Lanman, Adam E., Leung, Calvin, Masui, Kiyoshi W., Mena-Parra, Juan, Meyers, Bradley W., Michilli, Daniele, Milutinovic, Nikola, Ordog, Anna, Pearlman, Aaron B., Pleunis, Ziggy, Rafiei-Ravandi, Masoud, Rahman, Mubdi, Ransom, Scott, Sanghavi, Pranav, Shin, Kaitlyn, Smith, Kendrick, Stairs, Ingrid, Stenning, David C., Vanderlinde, Keith, and Wulf, Dallas

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We report ten fast radio bursts (FRBs) detected in the far side-lobe region (i.e., $\geq 5^\circ$ off-meridian) of the Canadian Hydrogen Intensity Mapping Experiment (CHIME) from 2018 August 28 to 2021 August 31. We localize the bursts by fitting their spectra with a model of the CHIME/FRB synthesized beam response. We find that the far side-lobe events have on average ~500 times greater fluxes than events detected in CHIME's main lobe. We show that the side-lobe sample is therefore statistically ~20 times closer than the main-lobe sample. We find promising host galaxy candidates (P$_{\rm cc}$ < 1%) for two of the FRBs, 20190112B and 20210310B, at distances of 38 and 16 Mpc, respectively. CHIME/FRB did not observe repetition of similar brightness from the uniform sample of 10 side-lobe FRBs in a total exposure time of 35580 hours. Under the assumption of Poisson-distributed bursts, we infer that the mean repetition interval above the detection threshold of the far side-lobe events is longer than 11880 hours, which is at least 2380 times larger than the interval from known CHIME/FRB detected repeating sources, with some caveats, notably that very narrow-band events could have been missed. Our results from these far side-lobe events suggest one of two scenarios: either (1) all FRBs repeat and the repetition intervals span a wide range, with high-rate repeaters being a rare subpopulation, or (2) non-repeating FRBs are a distinct population different from known repeaters., Comment: 27 pages, 20 figures. This version is the result of the merger of arxiv:2307.05262 and the previous version of this paper. Accepted for publication in ApJ

Published

2023

8. Constraints on the Intergalactic and Local Dispersion Measure of Fast Radio Bursts with the CHIME/FRB far side-lobe events

Author

Lin, Hsiu-Hsien, Scholz, Paul, Ng, Cherry, Pen, Ue-Li, Li, D. Z., Newburgh, Laura, Reda, Alex, Andersen, Bridget, Bandura, Kevin, Bhardwaj, Mohit, Brar, Charanjot, Cassanelli, Tomas, Chawla, Pragya, Cook, Amanda M., Curtin, Alice P., Dobbs, Matt, Dong, Fengqiu Adam, Fonseca, Emmanuel, Gaensler, Bryan M., Giri, Utkarsh, Hill, Alex S., Kaczmarek, Jane, Kania, Joseph, Kaspi, Victoria, Khairy, Kholoud, Leung, Calvin, Masui, Kiyoshi W., Mena-Parra, Juan, Meyers, Bradley W., Ordog, Anna, Pearlman, Aaron B., Pleunis, Ziggy, Rafiei-Ravandi, Masoud, Rahman, Mubdi, Ransom, Scott, Sand, Ketan R., Sanghavi, Pranav, Shin, Kaitlyn, Smith, Kendrick, Stairs, Ingrid, Tendulkar, Shriharsh P., Vanderlinde, Keith, and Wulf, Dallas

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We study the 10 fast radio bursts (FRBs) detected in the far side-lobe region of the CHIME telescope from 2018 August 28 to 2021 August 31. We find that the far side-lobe events have on average $\sim$500 times greater fluxes than events detected in CHIME's main lobe. We show that the side-lobe sample is therefore statistically $\sim$20 times closer than the main-lobe sample. The median dispersion measure (DM) excess, after removing the Galactic disk component using the NE2001 for the free electron density distribution of the Milky Way, of the 10 far side-lobe and 471 non-repeating main-lobe FRBs in the first CHIME/FRB catalog is 183.0 and 433.9 pc\;cm$^{-3}$, respectively. By comparing the DM excesses of the two populations under reasonable assumptions, we statistically constrain that the local degenerate contributions (from the Milky Way halo and the host galaxy) and the intergalactic contribution to the excess DM of the 471 non-repeating main-lobe FRBs for the NE2001 model are 131.2$-$158.3 and 302.7$-$275.6 pc cm$^{-3}$, respectively, which corresponds to a median redshift for the main-lobe FRB sample of $\sim$0.3. These constraints are useful for population studies of FRBs, and in particular for constraining the location of the missing baryons., Comment: This paper has been merged with arxiv:2307.05261. Refer to that article for the latest version

Published

2023

9. 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

10. The Green Bank North Celestial Cap Survey. VIII. 21 New Pulsar Timing Solutions

Author

Fiore, William, Levin, Lina, McLaughlin, Maura A., Anumarlapudi, Akash, Kaplan, David L., Swiggum, Joseph K., Agazie, Gabriella Y., Bavisotto, Robert, Chawla, Pragya, DeCesar, Megan E., Dolch, Timothy, Fonseca, Emmanuel, Kaspi, Victoria M., Komassa, Zachary, Kondratiev, Vlad I., van Leeuwen, Joeri, Lewis, Evan F., Lynch, Ryan S., McEwen, Alexander E., Mundorf, Rusty, Noori, Hind Al, Parent, Emilie, Pleunis, Ziggy, Ransom, Scott M., Siemens, Xavier, Spiewak, Renée, Stairs, Ingrid H., Surnis, Mayuresh, and Tobin, Thomas J.

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Solar and Stellar Astrophysics

Abstract

We present timing solutions for 21 pulsars discovered in 350 MHz surveys using the Green Bank Telescope (GBT). All were discovered in the Green Bank North Celestial Cap pulsar survey, with the exception of PSR J0957-0619, which was found in the GBT 350 MHz Drift-scan pulsar survey. The majority of our timing observations were made with the GBT at 820 MHz. With a spin period of 37 ms and a 528-day orbit, PSR J0032+6946 joins a small group of five other mildly recycled wide binary pulsars, for which the duration of recycling through accretion is limited by the length of the companion's giant phase. PSRs J0141+6303 and J1327+3423 are new disrupted recycled pulsars. We incorporate Arecibo observations from the NANOGrav pulsar timing array into our analysis of the latter. We also observed PSR J1327+3423 with the Long Wavelength Array, and our data suggest a frequency-dependent dispersion measure. PSR J0957-0619 was discovered as a rotating radio transient, but is a nulling pulsar at 820 MHz. PSR J1239+3239 is a new millisecond pulsar (MSP) in a 4-day orbit with a low-mass companion. Four of our pulsars already have published timing solutions, which we update in this work: the recycled wide binary PSR J0214+5222, the non-eclipsing black widow PSR J0636+5128, the disrupted recycled pulsar J1434+7257, and the eclipsing binary MSP J1816+4510, which is in an 8.7 hr orbit with a redback-mass companion., Comment: 32 pages, 17 figures, 9 tables. Submitted to ApJ

Published

2023

11. 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

12. The Green Bank North Celestial Cap Survey. VII. 12 New Pulsar Timing Solutions

Author

Swiggum, Joseph K., Pleunis, Ziggy, Parent, Emilie, Kaplan, David L., McLaughlin, Maura A., Stairs, Ingrid H., Spiewak, Renée, Agazie, Gabriella Y., Chawla, Pragya, DeCesar, Megan E., Dolch, Timothy, Fiore, William, Fonseca, Emmanuel, Istrate, Alina G., Kaspi, Victoria M., Kondratiev, Vlad I., van Leeuwen, Joeri, Levin, Lina, Lewis, Evan F., Lynch, Ryan S., McEwen, Alex E., Noori, Hind Al, Ransom, Scott M., Siemens, Xavier, and Surnis, Mayuresh

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Solar and Stellar Astrophysics

Abstract

We present timing solutions for 12 pulsars discovered in the Green Bank North Celestial Cap (GBNCC) 350 MHz pulsar survey, including six millisecond pulsars (MSPs), a double neutron star (DNS) system, and a pulsar orbiting a massive white dwarf companion. Timing solutions presented here include 350 and 820 MHz Green Bank Telescope data from initial confirmation and follow-up as well as a dedicated timing campaign spanning one year. PSR J1122$-$3546 is an isolated MSP, PSRs J1221$-$0633 and J1317$-$0157 are MSPs in black widow systems and regularly exhibit eclipses, and PSRs J2022+2534 and J2039$-$3616 are MSPs that can be timed with high precision and have been included in pulsar timing array experiments seeking to detect low-frequency gravitational waves. PSRs J1221$-$0633 and J2039$-$3616 have Fermi Large Area Telescope $\gamma$-ray counterparts and also exhibit significant $\gamma$-ray pulsations. We measure proper motion for three of the MSPs in this sample and estimate their space velocities, which are typical compared to those of other MSPs. We have detected the advance of periastron for PSR J1018$-$1523 and therefore measure the total mass of the double neutron star system, $m_{\rm tot}=2.3\pm0.3$ M$_{\odot}$. Long-term pulsar timing with data spanning more than one year is critical for classifying recycled pulsars, carrying out detailed astrometry studies, and shedding light on the wealth of information in these systems post-discovery., Comment: 21 pages, 5 figures, 7 tables

Published

2022

13. 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

14. Inferring the Energy and Distance Distributions of Fast Radio Bursts using the First CHIME/FRB Catalog

Author

Shin, Kaitlyn, Masui, Kiyoshi W., Bhardwaj, Mohit, Cassanelli, Tomas, Chawla, Pragya, Dobbs, Matt, Dong, Fengqiu Adam, Fonseca, Emmanuel, Gaensler, B. M., Herrera-Martín, Antonio, Kaczmarek, Jane, Kaspi, Victoria, Leung, Calvin, Merryfield, Marcus, Michilli, Daniele, Münchmeyer, Moritz, Pearlman, Aaron B., Rafiei-Ravandi, Masoud, Smith, Kendrick, Stairs, Ingrid, and Tendulkar, Shriharsh P.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

Fast radio bursts (FRBs) are brief, energetic, extragalactic flashes of radio emission whose progenitors are largely unknown. Although studying the FRB population is essential for understanding how these astrophysical phenomena occur, such studies have been difficult to conduct without large numbers of FRBs and characterizable observational biases. Using the recently released catalog of 536 FRBs published by the Canadian Hydrogen Intensity Mapping Experiment/Fast Radio Burst (CHIME/FRB) collaboration, we present a study of the FRB population that also calibrates for selection effects. Assuming a Schechter luminosity function, we infer a characteristic energy cut-off of $E_\mathrm{char} =$ $2.38^{+5.35}_{-1.64} \times 10^{41}$ erg and a differential power-law index of $\gamma =$ $-1.3^{+0.7}_{-0.4}$. Simultaneously, we infer a volumetric rate of [$7.3^{+8.8}_{-3.8}$(stat.)$^{+2.0}_{-1.8}$(sys.)]$\times 10^4$ Gpc$^{-3}$ year$^{-1}$ above a pivot energy of 10$^{39}$ erg and below a scattering timescale of 10 ms at 600 MHz, and find we cannot significantly constrain the cosmic evolution of the FRB population with star formation rate. Modeling the host dispersion measure (DM) contribution as a log-normal distribution and assuming a total Galactic contribution of 80 pc cm$^{-3}$, we find a median value of $\mathrm{DM}_\mathrm{host} =$ $84^{+69}_{-49}$ pc cm$^{-3}$, comparable with values typically used in the literature. Proposed models for FRB progenitors should be consistent with the energetics and abundances of the full FRB population predicted by our results. Finally, we infer the redshift distribution of FRBs detected with CHIME, which will be tested with the localizations and redshifts enabled by the upcoming CHIME/FRB Outriggers project., Comment: Revised to reflect published version

Published

2022

15. Non-detection of CHIME/FRB sources with the Arecibo Observatory

Author

Good, Deborah C., Chawla, Pragya, Fonseca, Emmanuel, Kaspi, Victoria, Meyers, B. W., Pleunis, Ziggy, Sand, Ketan R., Scholz, Paul, Stairs, I. H., and Tendulkar, Shriharsh P.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

In this work, we present follow-up observations of two known repeating fast radio bursts (FRBs) and seven non-repeating FRBs with complex morphology discovered with CHIME/FRB. These observations were conducted with the Arecibo Observatory 327 MHz receiver. We detected no additional bursts from these sources, nor did CHIME/FRB detect any additional bursts from these sources during our follow-up program. Based on these non-detections, we provide constraints on the repetition rate, for all nine sources. We calculate repetition rates above 1 Jy using both a Poisson distribution of repetition and the Weibull distribution of repetition presented by Oppermann et al. (2018). For both distributions, we find repetition upper limits of the order $\lambda = 10^{-2} - 10^{-1} \text{hr}^{-1}$ for all sources. These rates are much lower than those recently published for notable repeating FRBs like FRB 20121102A and FRB 20201124A, suggesting the possibility of a low-repetition sub-population., Comment: 12 pages, 4 figures, 5 tables

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. Scintillation Timescales of Bright FRBs Detected by CHIME/FRB

Author

Schoen, Eve, Leung, Calvin, Masui, Kiyoshi, Michilli, Daniele, Chawla, Pragya, Pearlman, Aaron B., Shin, Kaitlyn, and Stock, Ashley

Subjects

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

Abstract

We describe a pipeline to measure scintillation in fast radio bursts (FRBs) detected by CHIME/FRB in the 400-800 MHz band by analyzing the frequency structure of the FRB's spectrum. We use the pipeline to measure the characteristic frequency bandwidths of scintillation between $4-100$ kHz in 12 FRBs corresponding to timescales of $\sim$2-40 $\mu$s for 10 FRBs detected by CHIME/FRB. For the other two FRBs, we did not detect scintillation in the region our analysis is sensitive. We compared the measured scintillation timescales to the NE2001 predictions for the scintillation timescales from the Milky Way. We find a strong correlation to be an indication that in most instances, the observed scintillation of FRBs can be explained by the Milky Way., Comment: 4 pages, 1 figure, for RNAAS

Published

2021

19. 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

20. 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

21. 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

22. 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

23. Fast Radio Burst Morphology in the First CHIME/FRB Catalog

Author

Pleunis, Ziggy, Good, Deborah C., Kaspi, Victoria M., Mckinven, Ryan, Ransom, Scott M., Scholz, Paul, Bandura, Kevin, Bhardwaj, Mohit, Boyle, P. J., Brar, Charanjot, Cassanelli, Tomas, Chawla, Pragya, Fengqiu, Dong, Fonseca, Emmanuel, Gaensler, B. M., Josephy, Alexander, Kaczmarek, Jane F., Leung, Calvin, Lin, Hsiu-Hsien, Masui, Kiyoshi W., Mena-Parra, Juan, Michilli, Daniele, Ng, Cherry, Patel, Chitrang, Rafiei-Ravandi, Masoud, Rahman, Mubdi, Sanghavi, Pranav, Shin, Kaitlyn, Smith, Kendrick M., Stairs, Ingrid H., and Tendulkar, Shriharsh P.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We present a synthesis of fast radio burst (FRB) morphology (the change in flux as a function of time and frequency) as detected in the 400-800 MHz octave by the FRB project on the Canadian Hydrogen Intensity Mapping Experiment (CHIME/FRB), using events from the first CHIME/FRB catalog. The catalog consists of 61 bursts from 18 repeating sources, plus 474 one-off FRBs, detected between 2018 July 25 and 2019 July 2. We identify four observed archetypes of burst morphology ("simple broadband," "simple narrowband," "temporally complex" and "downward drifting") and describe relevant instrumental biases that are essential for interpreting the observed morphologies. Using the catalog properties of the FRBs, we confirm that bursts from repeating sources, on average, have larger widths and we show, for the first time, that bursts from repeating sources, on average, are narrower in bandwidth. This difference could be due to a beaming or propagation effects, or it could be intrinsic to the populations. We discuss potential implications of these morphological differences for using FRBs as astrophysical tools., Comment: Accepted for publication by ApJ

Published

2021

24. The Green Bank Northern Celestial Cap Pulsar Survey. VI. Timing and Discovery of PSR J1759+5036: A Double Neutron Star Binary Pulsar

Author

Agazie, Gabriella, Mingyar, Michael, McLaughlin, Maura, Swiggum, Joseph, Kaplan, David, Blumer, Harsha, Chawla, Pragya, DeCesar, Megan, Demorest, Paul, Fiore, William, Fonseca, Emmanuel, Gelfand, Joseph, Kaspi, Victoria, Kondratiev, Vladislav, LaRose, Malcolm, van Leeuwen, Joeri, Levin, Lina, Lewis, Evan, Lynch, Ryan, McEwen, Alexander, Noori, Hind Al, Parent, Emilie, Ransom, Scott, Roberts, Mallory, Schmiedekamp, Ann, Schmiedekamp, Carl, Siemens, Xavier, Spiewak, Renée, Stairs, Ingrid, and Surnis, Mayuresh

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Solar and Stellar Astrophysics

Abstract

The Green Bank North Celestial Cap (GBNCC) survey is a 350-MHz all-sky survey for pulsars and fast radio transients using the Robert C. Byrd Green Bank Telescope. To date, the survey has discovered over 190 pulsars, including 33 millisecond pulsars (MSPs) and 24 rotating radio transients(RRATs). Several exotic pulsars have been discovered in the survey, including PSR J1759+5036, a binary pulsar with a 176-ms spin period in an orbit with a period of 2.04 days, an eccentricity of 0.3,and a projected semi-major axis of 6.8 light seconds. Using seven years of timing data, we are able to measure one post-Keplerian parameter, advance of periastron, which has allowed us to constrain the total system mass to 2.62(3) solar masses. This constraint, along with the spin period and orbital parameters, suggests that this is a double neutron star system, although we cannot entirely rule out a pulsar-white dwarf binary. This pulsar is only detectable in roughly 45% of observations, most likely due to scintillation. However, additional observations are required to determine whether there may be other contributing effects., Comment: 11 pages, 13 figures, Accepted to APJ

Published

2021

25. The 60 pc Environment of FRB 20180916B

Author

Tendulkar, Shriharsh P., de Paz, Armando Gil, Kirichenko, Aida Yu., Hessels, Jason W. T., Bhardwaj, Mohit, Ávila, Fernando, Bassa, Cees, Chawla, Pragya, Fonseca, Emmanuel, Kaspi, Victoria M., Keimpema, Aard, Kirsten, Franz, Lazio, T. Joseph W., Marcote, Benito, Masui, Kiyoshi, Nimmo, Kenzie, Paragi, Zsolt, Rahman, Mubdi, Payá, Daniel Reverte, Scholz, Paul, and Stairs, Ingrid

Subjects

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

Abstract

Fast Radio Burst FRB 20180916B in its host galaxy SDSS J015800.28+654253.0 at 149 Mpc is by far the closest-known FRB with a robust host galaxy association. The source also exhibits a 16.35-day period in its bursting. Here we present optical and infrared imaging as well as integral field spectroscopy observations of FRB 20180916B with the WFC3 camera on the Hubble Space Telescope and the MEGARA spectrograph on the 10.4-m Gran Telescopio Canarias. The 60-90 milliarcsecond (mas) resolution of the Hubble imaging, along with the previous 2.3-mas localization of FRB 20180916B, allow us to probe its environment with a 30-60 pc resolution. We constrain any point-like star-formation or HII region at the location of FRB 20180916B to have an H$\alpha$ luminosity $L_\mathrm{H\alpha} \lesssim 10^{37}\,\mathrm{erg\,s^{-1}}$ and, correspondingly, constrain the local star-formation rate to be $\lesssim10^{-4}\,\mathrm{M_\odot\,yr^{-1}}$. The constraint on H$\alpha$ suggests that possible stellar companions to FRB 20180916B should be of a cooler, less massive spectral type than O6V. FRB 20180916B is 250 pc away (in projected distance) from the brightest pixel of the nearest young stellar clump, which is $\sim380$\,pc in size (full-width at half maximum). With the typical projected velocities of pulsars, magnetars, or neutron stars in binaries (60-750 km s$^{-1}$), FRB 20180916B would need 800 kyr to 7 Myr to traverse the observed distance from its presumed birth site. This timescale is inconsistent with the active ages of magnetars ($\lesssim10$ kyr). Rather, the inferred age and observed separation are compatible with the ages of high-mass X-ray binaries and gamma-ray binaries, and their separations from the nearest OB associations., Comment: Updated version: Updated Figure 2. 16 pages, 4 figures, 1 table. Published in ApJ Letters. Comments welcome

Published

2020

26. The Green Bank North Celestial Cap Pulsar Survey. V. Pulsar Census and Survey Sensitivity

Author

McEwen, Alexander, Spiewak, Renee, Swiggum, Joseph, Kaplan, David, Fiore, William, Agazie, Gabriella, Blumer, Harsha, Chawla, Pragya, DeCesar, Megan, Kaspi, Victoria, Kondratiev, Vladislav, LaRose, Malcolm, Levin, Lina, Lynch, Ryan, McLaughlin, Maura, Mingyar, Michael, Noori, Hind, Ransom, Scott, Roberts, Mallory, Schmiedekamp, Ann, Schmiedecamp, Carl, Siemens, Xavier, Stairs, Ingrid, Stovall, Kevin, Surnis, Mayuresh, and van Leeuwen, Joeri

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

The Green Bank North Celestial Cap (GBNCC) pulsar survey will cover the entire northern sky ($\delta > -40^\circ$) at 350 MHz, and is one of the most uniform and sensitive all-sky pulsar surveys to date. We have created a pipeline to re-analyze GBNCC survey data to take a 350MHz census of all pulsars detected by the survey, regardless of their discovery survey. Of the 1413 pulsars in the survey region, we were able to recover 661. For these we present measured signal-to-noise ratios (S/N), flux densities, pulse widths, profiles, and where appropriate, refined dispersion measurements (647 out of 661) and new or improved spectral indices (276 out of 661 total, 15 new, 261 improved). Detection scans for several hundred sources were reanalyzed in order to inspect pulsars' single pulse behavior and 223 were confirmed to exhibit evidence of nulling. With a detailed analysis of measured and expected S/N values and the evolving radio frequency interference environment at 350MHz, we assess the GBNCC survey's sensitivity as a function of spin period, dispersion measure, and sky position. We find the sky-averaged limiting flux density of the survey to be 0.74mJy. Combining this analysis with PsrPopPy pulsar population simulations, we predict 60/5 non-recycled/millisecond pulsar discoveries in the survey's remaining 21,000 pointings, and we begin to place constraints on population model parameters.

Published

2019

27. Observations of Fast Radio Bursts at Frequencies down to 400 Megahertz

Author

Collaboration, CHIME/FRB, Amiri, Mandana, Bandura, Kevin, Bhardwaj, Mohit, Boubel, Paula, Boyce, Michelle M., Boyle, Patrick J., Brar, Charanjot, Burhanpurkar, Maya, Chawla, Pragya, Cliche, Jean F., Cubranic, Davor, Deng, Meiling, Denman, Nolan, Dobbs, Matthew, Fandino, M., Fonseca, Emmanuel, Gaensler, Bryan M., Gilbert, Adam J., Giri, Utkarsh, Good, Deborah C., Halpern, Mark, Hanna, David, Hill, Alexander S., Hinshaw, Gary, Höfer, C., Josephy, Alexander, Kaspi, Victoria M., Landecker, Thomas L., Lang, Dustin A., Masui, Kiyoshi W., Mckinven, Ryan, Mena-Parra, Juan, Merryfield, Marcus, Milutinovic, Nikola, Moatti, Charles, Naidu, Arun, Newburgh, Laura B., Ng, Cherry, Patel, Chitrang, Pen, Ue-Li, Pinsonneault-Marotte, Tristan, Pleunis, Ziggy, Rafiei-Ravandi, Masoud, Ransom, Scott M., Renard, Andre, Scholz, Paul, Shaw, J. R., Siegel, Seth R., Smith, Kendrick M., Stairs, Ingrid H., Tendulkar, Shriharsh P., Tretyakov, Ian, Vanderlinde, Keith, and Yadav, Prateek

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

Fast radio bursts (FRBs) are highly dispersed millisecond-duration radio flashes likely arriving from far outside the Milky Way galaxy. This phenomenon was discovered at radio frequencies near 1.4 GHz and to date has been observed in one case at as high as 8 GHz, but not below 700 MHz in spite of significant searches at low frequencies. Here we report detections of FRBs at radio frequencies as low as 400 MHz, on the Canadian Hydrogen Intensity Mapping Experiment (CHIME) using the CHIME/FRB instrument. We present 13 FRBs detected during a telescope pre-commissioning phase, when our sensitivity and field-of-view were not yet at design specifications. Emission in multiple events is seen down to 400 MHz, the lowest radio frequency to which we are sensitive. The FRBs show a variety of temporal scattering behaviours, with the majority significantly scattered, and some apparently unscattered to within measurement uncertainty even at our lowest frequencies. Of the 13 reported here, one event has the lowest dispersion measure yet reported, implying it is among the closest yet known, and another has shown multiple repeat bursts, as described in a companion paper. Our low-scattering events suggest that efforts to detect FRBs at radio frequencies below 400 MHz will eventually be successful. The overall scattering properties of our sample suggest that FRBs as a class are preferentially located in environments that scatter radio waves more strongly than the diffuse interstellar medium (ISM) in the Milky Way., Comment: Accepted in Nature

Published

2019

28. Sub-second periodicity in a fast radio burst

Author

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

Published

2022

29. The Green Bank North Celestial Cap Pulsar Survey III: 45 New Pulsar Timing Solutions

Author

Lynch, Ryan S., Swiggum, Joseph K., Kondratiev, Vlad I., Kaplan, David L., Stovall, Kevin, Fonseca, Emmanuel, Roberts, Mallory S. E., Levin, Lina, DeCesar, Megan E., Cui, Bingyi, Cenko, S. Bradley, Gatkine, Pradip, Archibald, Anne M., Banaszak, Shawn, Biwer, Christopher M., Boyles, Jason, Chawla, Pragya, Dartez, Louis P., Day, David, Ford, Anthony J., Flanigan, Joseph, Hessels, Jason W. T., Hinojosa, Jesus, Jenet, Fredrick A., Karako-Argaman, Chen, Kaspi, Victoria M., Leake, Sean, Lunsford, Grady, Martinez, Jose G., Mata, Alberto, McLaughlin, Maura A., Noori, Hind Al, Ransom, Scott M., Rohr, Matthew D., Siemens, Xavier, Spiewak, Renee, Stairs, Ingrid H., van Leeuwen, Joeri, Walker, Arielle N., and Wells, Bradley L.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We provide timing solutions for 45 radio pulsars discovered by the Robert C. Byrd Green Bank Telescope. These pulsars were found in the Green Bank North Celestial Cap pulsar survey, an all-GBT-sky survey being carried out at a frequency of 350 MHz. We include pulsar timing data from the Green Bank Telescope and Low Frequency Array. Our sample includes five fully recycled millisecond pulsars (MSPs, three of which are in a binary system), a new relativistic double neutron star system, an intermediate mass binary pulsar, a mode-changing pulsar, a 138-ms pulsar with a very low magnetic field, and several nulling pulsars. We have measured two post-Keplerian parameters and thus the masses of both objects in the double neutron star system. We also report a tentative companion mass measurement via Shapiro delay in a binary MSP. Two of the MSPs can be timed with high precision and have been included in pulsar timing arrays being used to search for low-frequency gravitational waves, while a third MSP is a member of the black widow class of binaries. Proper motion is measurable in five pulsars and we provide an estimate of their space velocity. We report on an optical counterpart to a new black widow system and provide constraints on the optical counterparts to other binary MSPs. We also present a preliminary analysis of nulling pulsars in our sample. These results demonstrate the scientific return of long timing campaigns on pulsars of all types., Comment: Accepted for publication in The Astrophysical Journal; 30 pages, 9 figures, 8 tables

Published

2018

30. 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

31. Dense Forests of Microshots in Bursts from FRB 20220912A

Author

Hewitt, Danté M, primary, Hessels, Jason W T, additional, Ould-Boukattine, Omar S, additional, Chawla, Pragya, additional, Cognard, Ismaël, additional, Gopinath, Akshatha, additional, Guillemot, Lucas, additional, Huppenkothen, Daniela, additional, Nimmo, Kenzie, additional, and Snelders, Mark P, additional

Published

2023

32. 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

33. 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

34. Nondetection of CHIME/Fast Radio Burst Sources with the Arecibo Observatory

Author

Good, Deborah C., primary, Chawla, Pragya, additional, Fonseca, Emmanuel, additional, Kaspi, Victoria, additional, Meyers, B. W., additional, Pleunis, Ziggy, additional, Sand, Ketan R., additional, Scholz, Paul, additional, Stairs, I. H., additional, and Tendulkar, Shriharsh P., additional

Published

2023

35. Inferring the Energy and Distance Distributions of Fast Radio Bursts Using the First CHIME/FRB Catalog

Author

Shin, Kaitlyn, primary, Masui, Kiyoshi W., additional, Bhardwaj, Mohit, additional, Cassanelli, Tomas, additional, Chawla, Pragya, additional, Dobbs, Matt, additional, Dong, Fengqiu Adam, additional, Fonseca, Emmanuel, additional, Gaensler, B. M., additional, Herrera-Martín, Antonio, additional, Kaczmarek, Jane, additional, Kaspi, Victoria, additional, Leung, Calvin, additional, Merryfield, Marcus, additional, Michilli, Daniele, additional, Münchmeyer, Moritz, additional, Pearlman, Aaron B., additional, Rafiei-Ravandi, Masoud, additional, Smith, Kendrick, additional, Stairs, Ingrid, additional, and Tendulkar, Shriharsh P., additional

Published

2023

36. 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

37. 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

38. 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

39. Fast Radio Burst Morphology in the First CHIME/FRB Catalog

Author

Pleunis, Ziggy, primary, Good, Deborah C., additional, Kaspi, Victoria M., additional, Mckinven, Ryan, additional, Ransom, Scott M., additional, Scholz, Paul, additional, Bandura, Kevin, additional, Bhardwaj, Mohit, additional, Boyle, P. J., additional, Brar, Charanjot, additional, Cassanelli, Tomas, additional, Chawla, Pragya, additional, (Adam) Dong, Fengqiu, additional, Fonseca, Emmanuel, additional, Gaensler, B. M., additional, Josephy, Alexander, additional, Kaczmarek, Jane F., additional, Leung, Calvin, additional, Lin, Hsiu-Hsien, additional, Masui, Kiyoshi W., additional, Mena-Parra, Juan, additional, Michilli, Daniele, additional, Ng, Cherry, additional, Patel, Chitrang, additional, Rafiei-Ravandi, Masoud, additional, Rahman, Mubdi, additional, Sanghavi, Pranav, additional, Shin, Kaitlyn, additional, Smith, Kendrick M., additional, Stairs, Ingrid H., additional, and Tendulkar, Shriharsh P., additional

Published

2021

40. The First CHIME/FRB Fast Radio Burst Catalog

Author

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

Published

2021

41. Scintillation Timescales of Bright FRBs Detected by CHIME/FRB

Author

Schoen, Eve, primary, Leung, Calvin, additional, Masui, Kiyoshi, additional, Michilli, Daniele, additional, Chawla, Pragya, additional, Pearlman, Aaron B., additional, Shin, Kaitlyn, additional, and Stock, Ashley, additional

Published

2021

42. CHIME/FRB Catalog 1 Results: Statistical Cross-correlations with Large-scale Structure

Author

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

Published

2021

43. Sub-second periodicity in a fast radio burst

Author

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

Published

2021

44. The 60 pc Environment of FRB 20180916B

Author

Tendulkar, Shriharsh P., primary, Gil de Paz, Armando, additional, Kirichenko, Aida Yu., additional, Hessels, Jason W. T., additional, Bhardwaj, Mohit, additional, Ávila, Fernando, additional, Bassa, Cees, additional, Chawla, Pragya, additional, Fonseca, Emmanuel, additional, Kaspi, Victoria M., additional, Keimpema, Aard, additional, Kirsten, Franz, additional, Lazio, T. Joseph W., additional, Marcote, Benito, additional, Masui, Kiyoshi, additional, Nimmo, Kenzie, additional, Paragi, Zsolt, additional, Rahman, Mubdi, additional, Payá, Daniel Reverte, additional, Scholz, Paul, additional, and Stairs, Ingrid, additional

Published

2021

45. A Distant Fast Radio Burst Associated with Its Host Galaxy by the Very Large Array

Author

Law, Casey J., primary, Butler, Bryan J., additional, Prochaska, J. Xavier, additional, Zackay, Barak, additional, Burke-Spolaor, Sarah, additional, Mannings, Alexandra, additional, Tejos, Nicolas, additional, Josephy, Alexander, additional, Andersen, Bridget, additional, Chawla, Pragya, additional, Heintz, Kasper E., additional, Aggarwal, Kshitij, additional, Bower, Geoffrey C., additional, Demorest, Paul B., additional, Kilpatrick, Charles D., additional, W. Lazio, T. Joseph, additional, Linford, Justin, additional, Mckinven, Ryan, additional, Tendulkar, Shriharsh, additional, and Simha, Sunil, additional

Published

2020

46. The Green Bank North Celestial Cap Pulsar Survey. III. 45 New Pulsar Timing Solutions

Author

Lynch, Ryan S., primary, Swiggum, Joseph K., additional, Kondratiev, Vlad I., additional, Kaplan, David L., additional, Stovall, Kevin, additional, Fonseca, Emmanuel, additional, Roberts, Mallory S. E., additional, Levin, Lina, additional, DeCesar, Megan E., additional, Cui, Bingyi, additional, Cenko, S. Bradley, additional, Gatkine, Pradip, additional, Archibald, Anne M., additional, Banaszak, Shawn, additional, Biwer, Christopher M., additional, Boyles, Jason, additional, Chawla, Pragya, additional, Dartez, Louis P., additional, Day, David, additional, Ford, Anthony J., additional, Flanigan, Joseph, additional, Hessels, Jason W. T., additional, Hinojosa, Jesus, additional, Jenet, Fredrick A., additional, Karako-Argaman, Chen, additional, Kaspi, Victoria M., additional, Leake, Sean, additional, Lunsford, Grady, additional, Martinez, José G., additional, Mata, Alberto, additional, McLaughlin, Maura A., additional, Noori, Hind Al, additional, Ransom, Scott M., additional, Rohr, Matthew D., additional, Siemens, Xavier, additional, Spiewak, Renée, additional, Stairs, Ingrid H., additional, Leeuwen, Joeri van, additional, Walker, Arielle N., additional, and Wells, Bradley L., additional

Published

2018