Kaustav K. Das scite author profile

We present 42 rapidly evolving (time spent above half-maximum brightness t 1/2 12 d) extragalactic transients from Phase I of the Zwicky Transient Facility (ZTF), of which 22 have spectroscopic classifications. This is one of the largest systematically selected samples of day-timescale transients todate, and the first with spectroscopic classifications. Most can be classified as core-collapse supernovae (SNe), and we identify several predominant subtypes: (1) subluminous Type IIb or Type Ib SNe; (2) luminous Type Ibn or hybrid IIn/Ibn SNe; and (3) radio-loud, short-duration luminous events similar

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A very luminous jet from the disruption of a star by a massive black hole

Andreoni

Coughlin

Perley

et al. 2022

Nature

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Tidal disruption events (TDEs) are bursts of electromagnetic energy released when supermassive black holes (SMBHs) at the centers of galaxies violently disrupt a star that passes too close 1 .TDEs provide a new window to study accretion onto SMBHs; in some rare cases, this accretion leads to launching of a relativistic jet 2-9 , but the necessary conditions are not fully understood.The best studied jetted TDE to date is Swift J1644+57, which was discovered in gamma-rays, but was too obscured by dust to be seen at optical wavelengths. Here we report the optical discovery of AT2022cmc, a rapidly fading source at cosmological distance (redshift z = 1.19325) whose unique lightcurve transitioned into a luminous plateau within days. Observations of a bright counterpart at other wavelengths, including X-rays, sub-millimeter, and radio, supports the interpretation of AT2022cmc as a jetted TDE containing a synchrotron "afterglow", likely launched by a SMBH with spin a 0.3. Using 4 years of Zwicky Transient Facility

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Constraining the distance to the North Polar Spur with Gaia DR2

Das

Zucker

Speagle

et al. 2020

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The North Polar Spur (NPS) is one of the largest structures observed in the Milky Way in both the radio and soft x-rays. While several predictions have been made regarding the origin of the NPS, modelling the structure is difficult without precise distance constraints. In this paper, we determine accurate distances to the southern terminus of the NPS and toward latitudes ranging up to 55○. First, we fit for the distance and extinction to stars toward the NPS using optical and near-infrared photometry and Gaia DR2 astrometry. We model these per-star distance-extinction estimates as being caused by dust screens at unknown distances, which we fit for using a nested sampling algorithm. We then compare the extinction to the Spur derived from our 3D dust modelling with integrated independent measures from XMM-Newton X-ray absorption and HI column density measures. We find that we can account for nearly 100% of the total column density of the NPS as lying within 140 pc for latitudes >26○ and within 700 pc for latitudes <11○. Based on the results, we conclude that the NPS is not associated with the Galactic Centre or the Fermi bubbles. Instead, it is likely associated, especially at higher latitudes, with the Sco-Cen association.

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Science with the Ultraviolet Explorer (UVEX)

Kulkarni¹,

Harrison²,

Grefenstette³

et al. 2021

Preprint

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The Ultraviolet Explorer (UVEX ) will undertake a synoptic survey of the entire sky in near-UV (NUV) and far-UV (FUV) bands, probing the dynamic FUV and NUV universe, as well as perform a modern, all-sky imaging survey that reaches ≥ 50 times deeper than GALEX . Combined with a powerful broadband spectroscopic capability and timely response to target of opportunity discoveries, UVEX will address fundamental questions from the NASA Astrophysics Roadmap and the Astro2020 Decadal Survey, enabling unique and important studies across the breadth of astrophysics. Imaging and spectroscopic surveys with UVEX will probe key aspects of the evolution of galaxies by understanding how star formation and stellar evolution at low metallicities affect the growth and evolution of lowmetallicity, low-mass galaxies in the local universe. Such galaxies contain half the mass in the local universe, and are analogs for the first galaxies, but observed at distances that make them accessible to detailed study. The UVEX time-domain surveys and prompt spectroscopic follow-up capability will probe the environments, energetics, and emission processes in the early aftermaths of gravitational wave-discovered compact object mergers, discover hot, fast UV transients, and diagnose the early stages of explosive phenomena. UVEX will become a key community resource by filling a gap in the new generation of wide-field, sensitive optical and infrared surveys provided by the Rubin, Euclid , and Roman observatories. We discuss the scientific potential of UVEX , including unique studies UVEX will enable for studying exoplanet atmospheres, hot stars, explosive phenomena, black holes, and galaxy evolution.

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Explaining excess dipole in NVSS data using superhorizon perturbation

Das

Kishan

Jain

2021

J. Cosmol. Astropart. Phys.

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Many observations in recent times have shown evidence against the standard assumption of isotropy in the Big Bang model. Introducing a superhorizon scalar metric perturbation has been able to explain some of these anomalies. In this work, we probe the net velocity arising due to the perturbation. We find that this extra component does not contribute to the CMB dipole amplitude while it does contribute to the dipole in large scale structures. Thus, within this model's framework, our velocity with respect to the large scale structure is not the same as that extracted from the CMB dipole, assuming it to be of purely kinematic origin. Taking this extra velocity component into account, we study the superhorizon mode's implications for the excess dipole observed in the NRAO VLA Sky Survey (NVSS). We find that the mode can consistently explain both the CMB and NVSS observations. We also find that the model leads to small contributions to the local bulk flow and the dipole in Hubble parameter, which are consistent with observations. The model leads to several predictions which can be tested in future surveys. In particular, it implies that the observed dipole in large scale structure should be redshift dependent and should show an increase in amplitude with redshift. We also find that the Hubble parameter should show a dipole anisotropy whose amplitude must increase with redshift in the CMB frame. Similar anisotropic behaviour is expected for the observed redshift as a function of the luminosity distance.

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Kaustav K. Das

The Photometric and Spectroscopic Evolution of Rapidly Evolving Extragalactic Transients in ZTF

A very luminous jet from the disruption of a star by a massive black hole

Constraining the distance to the North Polar Spur with Gaia DR2

Science with the Ultraviolet Explorer (UVEX)

Explaining excess dipole in NVSS data using superhorizon perturbation

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