Beecroft Institute for Particle Astrophysics and Cosmology

Detecting the anisotropic astrophysical gravitational wave background in the presence of shot noise through cross-correlations

Physical Review D American Physical Society 102:2 (2020) 23002

Authors:

David Alonso, Giulia Cusin, Pedro Ferreira, Cyril Pitrou

Abstract:

The spatial and temporal discreteness of gravitational wave sources leads to shot noise that may, in some regimes, swamp any attempts at measuring the anisotropy of the gravitational wave background. Cross-correlating a gravitational wave background map with a sufficiently dense galaxy survey can alleviate this issue, and potentially recover some of the underlying properties of the gravitational wave background. We quantify the shot noise level and we explicitly show that cross-correlating the gravitational wave background and a galaxy catalog improves the chances of a first detection of the background anisotropy with a gravitational wave observatory operating in the frequency range (10 Hz, 100 Hz), given sufficient sensitivity.

Detecting the anisotropic astrophysical gravitational wave background in the presence of shot noise through cross-correlations

PHYSICAL REVIEW D 102:2 (2020) 23002

Authors:

David Alonso, Giulia Cusin, Pedro G Ferreira, Cyril Pitrou

Noise angular power spectrum of gravitational wave background experiments

PHYSICAL REVIEW D 101:12 (2020) ARTN 124048

Authors:

David Alonso, Carlo R Contaldi, Giulia Cusin, Pedro G Ferreira, Arianna I Renzini

TOI-1338: TESS' First Transiting Circumbinary Planet

ASTRONOMICAL JOURNAL 159:6 (2020) ARTN 253

Authors:

Veselin B Kostov, Jerome A Orosz, Adina D Feinstein, William F Welsh, Wolf Cukier, Nader Haghighipour, Billy Quarles, David V Martin, Benjamin T Montet, Guillermo Torres, Amaury HMJ Triaud, Thomas Barclay, Patricia Boyd, Cesar Briceno, Andrew Collier Cameron, Alexandre CM Correia, Emily A Gilbert, Samuel Gill, Michael Gillon, Jacob Haqq-Misra, Coel Hellier, Courtney Dressing, Daniel C Fabrycky, Gabor Furesz, Jon Jenkins, Stephen R Kane, Ravi Kopparapu, Vedad Kunovac Hodzic, David W Latham, Nicholas Law, Alan M Levine, Gongjie Li, Chris Lintott, Jack J Lissauer, Andrew W Mann, Tsevi Mazeh, Rosemary Mardling, Pierre FL Maxted, Nora Eisner, Francesco Pepe, Joshua Pepper, Don Pollacco, Samuel N Quinn, Elisa V Quintana, Jason F Rowe, George Ricker, Mark E Rose, S Seager, Alexandre Santerne, Damien Segransan

Abstract:

© 2020. The American Astronomical Society. All rights reserved. We report the detection of the first circumbinary planet (CBP) found by Transiting Exoplanet Survey Satellite (TESS). The target, a known eclipsing binary, was observed in sectors 1 through 12 at 30 minute cadence and in sectors 4 through 12 at 2 minute cadence. It consists of two stars with masses of 1.1 M o˙ and 0.3 M o˙ on a slightly eccentric (0.16), 14.6 day orbit, producing prominent primary eclipses and shallow secondary eclipses. The planet has a radius of ∼6.9 R ⊕ and was observed to make three transits across the primary star of roughly equal depths (∼0.2%) but different durations-a common signature of transiting CBPs. Its orbit is nearly circular (e ≈ 0.09) with an orbital period of 95.2 days. The orbital planes of the binary and the planet are aligned to within ∼1°. To obtain a complete solution for the system, we combined the TESS photometry with existing ground-based radial-velocity observations in a numerical photometric-dynamical model. The system demonstrates the discovery potential of TESS for CBPs and provides further understanding of the formation and evolution of planets orbiting close binary stars.

The Horizon Run 5 Cosmological Hydrodynamic Simulation: Probing Galaxy Formation from Kilo- to Giga-parsec Scales

(2020)

Authors:

Jaehyun Lee, Jihye Shin, Owain N Snaith, Yonghwi Kim, C Gareth Few, Julien Devriendt, Yohan Dubois, Leah M Cox, Sungwook E Hong, Oh-Kyoung Kwon, Chan Park, Christophe Pichon, Juhan Kim, Brad K Gibson, Changbom Park