Your search keyword '"Kirichenko, Aida Yu."' showing total 4 results

1. Host Galaxies for Four Nearby CHIME/FRB Sources and the Local Universe FRB Host Galaxy Population

Author

Bhardwaj, Mohit, Michilli, Daniele, Kirichenko, Aida Yu., Modilim, Obinna, Shin, Kaitlyn, Kaspi, Victoria M., Andersen, Bridget C., Cassanelli, Tomas, Brar, Charanjot, Chatterjee, Shami, Cook, Amanda M., Dong, Fengqiu Adam, Fonseca, Emmanuel, Gaensler, B. M., Ibik, Adaeze L., Kaczmarek, J. F., Lanman, Adam E., Leung, Calvin, Masui, K. W., Pandhi, Ayush, Pearlman, Aaron B., Pleunis, Ziggy, Prochaska, J. Xavier, Rafiei-Ravandi, Masoud, Sand, Ketan R., Scholz, Paul, and Smith, Kendrick M.

Subjects

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

Abstract

We present the host galaxies of four apparently non-repeating fast radio bursts (FRBs), FRBs 20181223C, 20190418A, 20191220A, and 20190425A, reported in the first Canadian Hydrogen Intensity Mapping Experiment (CHIME/FRB) catalog. Our selection of these FRBs is based on a planned hypothesis testing framework where we search all CHIME/FRB Catalog-1 events that have low extragalactic dispersion measure (< 100 pc cm$^{-3}$), with high Galactic latitude (|b| > 10$\deg$) and saved baseband data. We associate the selected FRBs to galaxies with moderate to high star-formation rates located at redshifts between 0.027 and 0.071. We also search for possible multi-messenger counterparts, including persistent compact radio and gravitational wave (GW) sources, and find none. Utilizing the four FRB hosts from this study along with the hosts of 14 published local Universe FRBs (z < 0.1) with robust host association, we conduct an FRB host demographics analysis. We find all 18 local Universe FRB hosts in our sample to be spirals (or late-type galaxies), including the host of FRB 20220509G, which was previously reported to be elliptical. Using this observation, we scrutinize proposed FRB source formation channels and argue that core-collapse supernovae are likely the dominant channel to form FRB progenitors. Moreover, we infer no significant difference in the host properties of repeating and apparently non-repeating FRBs in our local Universe FRB host sample. Finally, we find the burst rates of these four apparently non-repeating FRBs to be consistent with those of the sample of localized repeating FRBs observed by CHIME/FRB. Therefore, we encourage further monitoring of these FRBs with more sensitive radio telescopes., Comment: 46 pages, 13 figures, 10 tables, submitted

Published

2023

2. Refined Mass and Geometric Measurements of the High-Mass PSR J0740+6620

Author

Fonseca, Emmanuel, Cromartie, H. Thankful, Pennucci, Timothy T., Ray, Paul S., Kirichenko, Aida Yu., Ransom, Scott M., Demorest, Paul B., Stairs, Ingrid H., Arzoumanian, Zaven, Guillemot, Lucas, Parthasarathy, Aditya, Kerr, Matthew, Cognard, Ismael, Baker, Paul T., Blumer, Harsha, Brook, Paul R., DeCesar, Megan, Dolch, Timothy, Dong, F. Adam, Ferrara, Elizabeth C., Fiore, William, Garver-Daniels, Nathaniel, Good, Deborah C., Jennings, Ross, Jones, Megan L., Kaspi, Victoria M., Lam, Michael T., Lorimer, Duncan R., Luo, Jing, McEwen, Alexander, McKee, James W., McLaughlin, Maura A., McMann, Natasha, Meyers, Bradley W., Naidu, Arun, Ng, Cherry, Nice, David J., Pol, Nihan, Radovan, Henri A., Shapiro-Albert, Brent, Tan, Chia Min, Tendulkar, Shriharsh P., Swiggum, Joseph K., Wahl, Haley M., and Zhu, Weiwei

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We report results from continued timing observations of PSR J0740+6620, a high-mass, 2.8-ms radio pulsar in orbit with a likely ultra-cool white dwarf companion. Our data set consists of combined pulse arrival-time measurements made with the 100-m Green Bank Telescope and the Canadian Hydrogen Intensity Mapping Experiment telescope. We explore the significance of timing-based phenomena arising from general-relativistic dynamics and variations in pulse dispersion. When using various statistical methods, we find that combining $\sim 1.5$ years of additional, high-cadence timing data with previous measurements confirms and improves upon previous estimates of relativistic effects within the PSR J0740+6620 system, with the pulsar mass $m_{\rm p} = 2.08^{+0.07}_{-0.07}$ M$_\odot$ (68.3\% credibility) determined by the relativistic Shapiro time delay. For the first time, we measure secular variation in the orbital period and argue that this effect arises from apparent acceleration due to significant transverse motion. After incorporating contributions from Galactic differential rotation and off-plane acceleration in the Galactic potential, we obtain a model-dependent distance of $d = 1.14^{+0.17}_{-0.15}$ kpc (68.3\% credibility). This improved distance confirms the ultra-cool nature of the white dwarf companion determined from recent optical observations. We discuss the prospects for future observations with next-generation facilities, which will likely improve the precision on $m_{\rm p}$ for J0740+6620 by an order of magnitude within the next few years., Comment: Final version after minor corrections during referee process. Published in the Astrophysical Journal Letters on 1 July 2021

Published

2021

3. 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

4. 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