Qiaoya Wu scite author profile

Qiaoya Wu

5Publications

74Citation Statements Received

128Citation Statements Given

How they've been cited

147

How they cite others

134

123

Affiliations

University of Illinois Urbana-Champaign, Xiamen University

Publications

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A Catalog of Quasar Properties from Sloan Digital Sky Survey Data Release 16

Shen

2022

ApJS

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We present a catalog of continuum and emission-line properties for 750,414 broad-line quasars included in the Sloan Digital Sky Survey Data Release 16 quasar catalog (DR16Q), measured from optical spectroscopy. These quasars cover broad ranges in redshift (0.1 ≲ z ≲ 6) and luminosity (44 ≲ log(L bol/erg s−1) ≲ 48), and probe lower luminosities than an earlier compilation of SDSS DR7 quasars. Derived physical quantities such as single-epoch virial black hole masses and bolometric luminosities are also included in this catalog. We present improved systemic redshifts and realistic redshift uncertainties for DR16Q quasars using the measured line peaks and correcting for velocity shifts of various lines with respect to the systemic velocity. About 1%, 1.4%, and 11% of the original DR16Q redshifts deviate from the systemic redshifts by ∣ΔV∣ > 1500 km s−1, ∣ΔV∣ ∈ [1000, 1500] km s−1, and ∣ΔV∣ ∈ [500, 1000] km s−1, respectively; about 1900 DR16Q redshifts were catastrophically wrong (∣ΔV∣ > 10,000 km s−1). We demonstrate the utility of this data product in quantifying the spectral diversity and correlations among physical properties of quasars with large statistical samples.

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GRID: a student project to monitor the transient gamma-ray sky in the multi-messenger astronomy era

et al. 2019

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CUBE – Towards an Optimal Scaling of Cosmological N-body Simulations

Cheng

Inman

et al. 2020

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Spin mode reconstruction in Lagrangian space

Liao

et al. 2021

Phys. Rev. D

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Galaxy angular momentum directions (spins) are observable, well described by the Lagrangian tidal torque theory, and proposed to probe the primordial universe. They trace the spins of dark matter halos, and are indicators of protohalos properties in Lagrangian space. We define a Lagrangian spin parameter and tidal twist parameters and quantify their influence on the spin conservation and predictability in the spin mode reconstruction in N-body simulations. We conclude that protohalos in more tidal twisting environments are preferentially more rotation-supported, and more likely to conserve their spin direction through the cosmic evolution. These tidal environments and spin magnitudes are predictable by a density reconstruction in Lagrangian space, and such predictions can improve the correlation between galaxy spins and the initial conditions in the study of constraining the primordial universe by spin mode reconstruction.

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A Catalog of Quasar Properties from Sloan Digital Sky Survey Data Release 16

Wu¹,

Shen²

2022

Preprint

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Qiaoya Wu

A Catalog of Quasar Properties from Sloan Digital Sky Survey Data Release 16

GRID: a student project to monitor the transient gamma-ray sky in the multi-messenger astronomy era

CUBE – Towards an Optimal Scaling of Cosmological N-body Simulations

Spin mode reconstruction in Lagrangian space

A Catalog of Quasar Properties from Sloan Digital Sky Survey Data Release 16

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