Han-Seek Kim
University of Melbourne
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Publication
Featured researches published by Han-Seek Kim.
The Astrophysical Journal | 2015
Nithyanandan Thyagarajan; Daniel C. Jacobs; Judd D. Bowman; N. Barry; A. P. Beardsley; G. Bernardi; F. Briggs; R. J. Cappallo; P. Carroll; B. E. Corey; A. de Oliveira-Costa; Joshua S. Dillon; D. Emrich; A. Ewall-Wice; L. Feng; R. Goeke; L. J. Greenhill; B. J. Hazelton; Jacqueline N. Hewitt; Natasha Hurley-Walker; M. Johnston-Hollitt; David L. Kaplan; J. Kasper; Han-Seek Kim; P. Kittiwisit; E. Kratzenberg; E. Lenc; J. Line; Abraham Loeb; Colin J. Lonsdale
Detection of 21 cm emission of H I from the epoch of reionization, at redshifts > z 6, is limited primarily by foreground emission. We investigate the signatures of wide-field measurements and an all-sky foreground model using the delay spectrum technique that maps the measurements to foreground object locations through signal delays between antenna pairs. We demonstrate interferometric measurements are inherently sensitive to all scales, including the largest angular scales, owing to the nature of wide-field measurements. These wide-field effects are generic to all observations but antenna shapes impact their amplitudes substantially. A dish-shaped antenna yields the most desirable features from a foreground contamination viewpoint, relative to a dipole or a phased array. Comparing data from recent Murchison Widefield Array observations, we demonstrate that the foreground signatures that have the largest impact on the H I signal arise from power received far away from the primary field of view. We identify diffuse emission near the horizon as a significant contributing factor, even on wide antenna spacings that usually represent structures on small scales. For signals entering through the primary field of view, compact emission dominates the foreground contamination. These two mechanisms imprint a characteristic pitchfork signature on the “foreground wedge” in Fourier delay space. Based on these results, we propose that selective down-weighting of data based on antenna spacing and time can mitigate foreground contamination substantially by a factor of ∼100 with negligible loss of sensitivity.
Publications of the Astronomical Society of Australia | 2015
A. R. Offringa; R. B. Wayth; Natasha Hurley-Walker; David L. Kaplan; N. Barry; A. P. Beardsley; M. E. Bell; G. Bernardi; Judd D. Bowman; F. Briggs; J. R. Callingham; R. J. Cappallo; P. Carroll; A. A. Deshpande; Joshua S. Dillon; K. S. Dwarakanath; A. Ewall-Wice; L. Feng; Bi-Qing For; B. M. Gaensler; L. J. Greenhill; Paul Hancock; B. J. Hazelton; Jacqueline N. Hewitt; L. Hindson; Daniel C. Jacobs; M. Johnston-Hollitt; A. D. Kapińska; Han-Seek Kim; P. Kittiwisit
This is the Accepted Manuscript version of the following article: A. R. Offringa, et al., “The low-frequency environment of the Murchison Widefield Array: radio-frequency interference analysis and mitigation”, Publications of the Astronomical Society of Australia, Vol. 32, March 2015. The final published version is available at: https://doi.org/10.1017/pasa.2015.7
The Astrophysical Journal | 2016
Cathryn M. Trott; B. Pindor; P. Procopio; R. B. Wayth; D. A. Mitchell; B. McKinley; S. J. Tingay; N. Barry; A. P. Beardsley; G. Bernardi; Judd D. Bowman; F. Briggs; R. J. Cappallo; P. Carroll; Angelica de Oliveira-Costa; Joshua S. Dillon; A. Ewall-Wice; L. Feng; L. J. Greenhill; B. J. Hazelton; Jacqueline N. Hewitt; Natasha Hurley-Walker; M. Johnston-Hollitt; Daniel C. Jacobs; David L. Kaplan; Han-Seek Kim; E. Lenc; J. Line; Abraham Loeb; Colin J. Lonsdale
Detection of the cosmological neutral hydrogen signal from the Epoch of Reionization, and estimation of its basic physical parameters, is the principal scientific aim of many current low-frequency radio telescopes. Here we describe the Cosmological HI Power Spectrum Estimator (CHIPS), an algorithm developed and implemented with data from the Murchison Widefield Array (MWA), to compute the two-dimensional and spherically-averaged power spectrum of brightness temperature fluctuations. The principal motivations for CHIPS are the application of realistic instrumental and foreground models to form the optimal estimator, thereby maximising the likelihood of unbiased signal estimation, and allowing a full covariant understanding of the outputs. CHIPS employs an inverse-covariance weighting of the data through the maximum likelihood estimator, thereby allowing use of the full parameter space for signal estimation (foreground suppression). We describe the motivation for the algorithm, implementation, application to real and simulated data, and early outputs. Upon application to a set of 3 hours of data, we set a 2
Monthly Notices of the Royal Astronomical Society | 2016
A. R. Offringa; Cathryn M. Trott; Natasha Hurley-Walker; M. Johnston-Hollitt; B. McKinley; N. Barry; Adam P. Beardsley; Judd D. Bowman; F. Briggs; P. Carroll; Joshua S. Dillon; A. Ewall-Wice; L. Feng; B. M. Gaensler; L. J. Greenhill; B. J. Hazelton; Jacqueline N. Hewitt; Daniel C. Jacobs; Han-Seek Kim; P. Kittiwisit; E. Lenc; J. Line; Abraham Loeb; D. A. Mitchell; M. F. Morales; A. R. Neben; S. Paul; B. Pindor; Jonathan C. Pober; P. Procopio
sigma
The Astrophysical Journal | 2016
Jonathan C. Pober; B. J. Hazelton; A. P. Beardsley; N. Barry; Z. E. Martinot; I. S. Sullivan; M. F. Morales; M. E. Bell; G. Bernardi; N. D. R. Bhat; Judd D. Bowman; F. Briggs; R. J. Cappallo; P. Carroll; B. E. Corey; A. de Oliveira-Costa; A. A. Deshpande; Joshua S. Dillon; D. Emrich; A. Ewall-Wice; L. Feng; R. Goeke; L. J. Greenhill; Jacqueline N. Hewitt; L. Hindson; Natasha Hurley-Walker; Daniel C. Jacobs; M. Johnston-Hollitt; David L. Kaplan; J. Kasper
upper limit on the EoR dimensionless power at
The Astrophysical Journal | 2016
A. P. Beardsley; B. J. J. Hazelton; I. S. Sullivan; P. Carroll; N. Barry; M. Rahimi; B. Pindor; Cathryn M. Trott; J. Line; Daniel C. Jacobs; M. F. Morales; Jonathan C. Pober; G. Bernardi; Judd D. Bowman; M. P. Busch; F. Briggs; R. J. Cappallo; B. E. Corey; A. de Oliveira-Costa; Joshua S. Dillon; D. Emrich; A. Ewall-Wice; L. Feng; B. M. Gaensler; R. Goeke; L. J. Greenhill; Jacqueline N. Hewitt; Natasha Hurley-Walker; M. Johnston-Hollitt; David L. Kaplan
k=0.05
Monthly Notices of the Royal Astronomical Society | 2011
Han-Seek Kim; Carlton M. Baugh; Andrew J. Benson; Shaun Cole; Carlos S. Frenk; Cedric G. Lacey; Chris Power; Michael Schneider
~h.Mpc
Monthly Notices of the Royal Astronomical Society | 2016
A. Ewall-Wice; Joshua S. Dillon; Jacqueline N. Hewitt; Abraham Loeb; Andrei Mesinger; A. R. Neben; A. R. Offringa; Max Tegmark; N. Barry; Adam P. Beardsley; G. Bernardi; Judd D. Bowman; F. Briggs; R. J. Cappallo; P. Carroll; B. E. Corey; A. de Oliveira-Costa; D. Emrich; L. Feng; B. M. Gaensler; R. Goeke; L. J. Greenhill; B. J. Hazelton; Natasha Hurley-Walker; M. Johnston-Hollitt; Daniel C. Jacobs; David L. Kaplan; J. Kasper; Han-Seek Kim; E. Kratzenberg
^{-1}
The Astrophysical Journal | 2016
E. Lenc; B. M. Gaensler; X. H. Sun; Elaine M. Sadler; A. G. Willis; N. Barry; A. P. Beardsley; M. E. Bell; G. Bernardi; Judd D. Bowman; F. Briggs; J. R. Callingham; R. J. Cappallo; P. Carroll; B. E. Corey; A. de Oliveira-Costa; A. A. Deshpande; Joshua S. Dillon; K. S. Dwarkanath; D. Emrich; A. Ewall-Wice; L. Feng; B. Q. For; R. Goeke; L. J. Greenhill; Paul Hancock; B. J. J. Hazelton; Jacqueline N. Hewitt; L. Hindson; Natasha Hurley-Walker
of
The Astrophysical Journal | 2016
Daniel C. Jacobs; B. J. Hazelton; Cathryn M. Trott; Joshua S. Dillon; B. Pindor; I. S. Sullivan; Jonathan C. Pober; N. Barry; A. P. Beardsley; G. Bernardi; Judd D. Bowman; F. Briggs; R. J. Cappallo; P. Carroll; B. E. Corey; A. de Oliveira-Costa; D. Emrich; A. Ewall-Wice; L. Feng; B. M. Gaensler; R. Goeke; L. J. Greenhill; Jacqueline N. Hewitt; Natasha Hurley-Walker; M. Johnston-Hollitt; David L. Kaplan; J. Kasper; Han-Seek Kim; E. Kratzenberg; E. Lenc
Delta_k^2<7.6times{10^4}
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