Cheng-Yu Kuo
National Sun Yat-sen University
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Featured researches published by Cheng-Yu Kuo.
Nature | 2015
Kiyoshi Wesley Masui; Hsiu-Hsien Lin; J. L. Sievers; Christopher J. Anderson; Tzu-Ching Chang; Xuelei Chen; Apratim Ganguly; Miranda Jarvis; Cheng-Yu Kuo; Yi-Chao Li; Yu-Wei Liao; M. A. McLaughlin; Ue-Li Pen; J. B. Peterson; Alexander Roman; Peter T. Timbie; Tabitha C. Voytek; Jaswant K. Yadav
Fast radio bursts are bright, unresolved, non-repeating, broadband, millisecond flashes, found primarily at high Galactic latitudes, with dispersion measures much larger than expected for a Galactic source. The inferred all-sky burst rate is comparable to the core-collapse supernova rate out to redshift 0.5. If the observed dispersion measures are assumed to be dominated by the intergalactic medium, the sources are at cosmological distances with redshifts of 0.2 to 1 (refs 10 and 11). These parameters are consistent with a wide range of source models. One fast burst revealed circular polarization of the radio emission, but no linear polarization was detected, and hence no Faraday rotation measure could be determined. Here we report the examination of archival data revealing Faraday rotation in the fast radio burst FRB 110523. Its radio flux and dispersion measure are consistent with values from previously reported bursts and, accounting for a Galactic contribution to the dispersion and using a model of intergalactic electron density, we place the source at a maximum redshift of 0.5. The burst has a much higher rotation measure than expected for this line of sight through the Milky Way and the intergalactic medium, indicating magnetization in the vicinity of the source itself or within a host galaxy. The pulse was scattered by two distinct plasma screens during propagation, which requires either a dense nebula associated with the source or a location within the central region of its host galaxy. The detection in this instance of magnetization and scattering that are both local to the source favours models involving young stellar populations such as magnetars over models involving the mergers of older neutron stars, which are more likely to be located in low-density regions of the host galaxy.
The Astrophysical Journal | 2016
Remco C. E. van den Bosch; Jenny E. Greene; James A. Braatz; Anca Constantin; Cheng-Yu Kuo
Megamaser disks provide the most precise and accurate extragalactic supermassive black hole masses. Here we describe a search for megamasers in nearby galaxies using the Green Bank Telescope (GBT). We focus on galaxies where we believe that we can resolve the gravitational sphere of influence of the black hole and derive a stellar or gas dynamical measurement with optical or NIR observations. Since there are only a handful of super massive black holes (SMBH) that have direct black hole mass measurements from more than one method, even a single galaxy with a megamaser disk and a stellar dynamical black hole mass would provide necessary checks on the stellar dynamical methods. We targeted 87 objects from the Hobby-Eberly Telescope Massive Galaxy Survey, and detected no new maser disks. Most of the targeted objects are elliptical galaxies with typical stellar velocity dispersions of 250 km/s and distances within 130 Mpc. We discuss the implications of our non-detections, whether they imply a threshold X-ray luminosity required for masing, or possibly reflect the difficulty of maintaining a masing disk around much more massive (>10^8 Msun) black holes at low Eddington ratio. Given the power of maser disks at probing black hole accretion and demographics, we suggest that future maser searches should endeavour to remove remaining sample biases, in order to sort out the importance of these covariant effects.
The Astrophysical Journal | 2016
F. Gao; James A. Braatz; M. J. Reid; J. J. Condon; Jenny E. Greene; C. Henkel; C. M. V. Impellizzeri; K. Y. Lo; Cheng-Yu Kuo; D. W. Pesce; Jan Wagner; Wen Zhao
As part of the Megamaser Cosmology Project (MCP), we present VLBI maps of nuclear water masers toward five galaxies. The masers originate in sub-parsec circumnuclear disks. For three of the galaxies, we fit Keplerian rotation curves to estimate their supermassive black hole (SMBH) masses, and determine (2.9
The Astrophysical Journal | 2016
Yu-Wei Liao; Tzu-Ching Chang; Cheng-Yu Kuo; Kiyoshi Masui; Niels Oppermann; Ue-Li Pen; J. B. Peterson
\pm
The Astrophysical Journal | 2018
Wen Zhao; James A. Braatz; J. J. Condon; K. Y. Lo; M. J. Reid; C. Henkel; D. W. Pesce; Jenny E. Greene; F. Gao; Cheng-Yu Kuo; C. M. V. Impellizzeri
0.3)
The Astrophysical Journal | 2018
Cheng-Yu Kuo; Anca Constantin; James A. Braatz; H. H. Chung; C. A. Witherspoon; D. W. Pesce; C. M. V. Impellizzeri; Feng Gao; Lei Hao; Jong Hak Woo; I. Zaw
\times~10^{6}M_\odot
The Astrophysical Journal | 2018
Cheng-Yu Kuo; M. J. Reid; James A. Braatz; F. Gao; C. M. V. Impellizzeri; W. T. Chien
for J0437+2456, (1.7
Proceedings of the International Astronomical Union | 2014
Cheng-Yu Kuo; James A. Braatz; James J. Condon; C. M. V. Impellizzeri; K. Y. Lo; I. Zaw; Christian Henkel; Mark J. Reid; Jenny E. Greene; Feng Gao; Wei Zhao
\pm
arXiv: Cosmology and Nongalactic Astrophysics | 2017
C. J. Anderson; N. J. Luciw; Y.-C. Li; Cheng-Yu Kuo; J. Yadav; Kiyoshi Wesley Masui; Tzu-Ching Chang; X. Chen; Niels Oppermann; Y.-W. Liao; Ue-Li Pen; D. C. Price; Lister Staveley-Smith; Eric R. Switzer; Peter T. Timbie; Laura Wolz
0.1)
arXiv: Cosmology and Nongalactic Astrophysics | 2012
C. Henkel; James A. Braatz; M. J. Reid; J. J. Condon; K. Y. Lo; C. M. Violette Impellizzeri; Cheng-Yu Kuo
\times~10^{7}M_\odot
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