Po-Sheng Ou scite author profile

Po-Sheng Ou

3Publications

19Citation Statements Received

213Citation Statements Given

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215

212

Affiliations

Institute of Astronomy and Astrophysics, Academia Sinica, National Taiwan University

Publications

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X-Ray Luminosity and Size Relationship of Supernova Remnants in the LMC

Chu

Maggi

et al. 2018

ApJ

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The Large Magellanic Cloud (LMC) has ∼60 confirmed supernova remnants (SNRs). Because of the known distance, 50 kpc, the SNRs' angular sizes can be converted to linear sizes, and their X-ray observations can be used to assess X-ray luminosities (L X ). We have critically examined the LMC SNRs' sizes reported in the literature to determine the most plausible sizes. These sizes and the L X determined from XMM-Newton observations are used to investigate their relationship in order to explore the environmental and evolutionary effects on the X-ray properties of SNRs. We find: (1) Small LMC SNRs, a few to 10 pc in size, are all of Type Ia with L X > 10 36 ergs s −1 . The scarcity of small core-collapse (CC) SNRs is a result of CCSNe exploding in the low-density interiors of interstellar bubbles blown by their massive progenitors during their main sequence phase. (2) Medium-sized (10-30 pc) CC SNRs show bifurcation in L X , with the X-ray-bright SNRs either in an environment associated with molecular clouds or containing pulsars and pulsar wind nebulae and the X-ray-faint SNRs being located in low-density interstellar environments. (3) Large (size>30 pc) SNRs show a trend of L X fading with size, although the scatter is large. The observed relationship between L X and sizes can help constrain models of SNR evolution.

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A Multiwavelength Survey of Wolf–Rayet Nebulae in the Large Magellanic Cloud

Hung

Chu

et al. 2021

ApJS

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Surveys of Wolf–Rayet (WR) stars in the Large Magellanic Cloud (LMC) have yielded a fairly complete catalog of 154 known stars. We have conducted a comprehensive, multiwavelength study of the interstellar/circumstellar environments of WR stars, using the Magellanic Cloud Emission Line Survey images in the Hα, [O iii], and [S ii] lines; Spitzer Space Telescope 8 and 24 μm images; Blanco 4 m Telescope Hα CCD images; and Australian Telescope Compact Array + Parkes Telescope H i data cube of the LMC. We have also examined whether the WR stars are in OB associations, classified the H ii environments of WR stars, and used this information to qualitatively assess the WR stars’ evolutionary stages. The 30 Dor giant H ii region has active star formation and hosts young massive clusters, thus we have made statistical analyses for 30 Dor and the rest of the LMC both separately and altogether. Due to the presence of massive young clusters, the WR population in 30 Dor is quite different from that from elsewhere in the LMC. We find small bubbles (<50 pc diameter) around ∼12% of WR stars in the LMC, most of which are WN stars and not in OB associations. The scarcity of small WR bubbles is discussed. Spectroscopic analyses of abundances are needed to determine whether the small WR bubbles contain interstellar medium or circumstellar medium. Implications of the statistics of interstellar environments and OB associations around WR stars are discussed. Multiwavelength images of each LMC WR star are presented.

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Critical Metallicity of Cool Supergiant Formation. I. Effects on Stellar-mass Loss and Feedback

Chen

Chu

et al. 2023

ApJ

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This paper systematically studies the relation between metallicity and mass loss of massive stars. We perform one-dimensional stellar evolution simulations and build a grid of ∼2000 models with initial masses ranging between 11 and 60 M ⊙ and absolute metallicities Z between 0.00001 and 0.02. Steady-state winds, comprising hot main-sequence winds and cool supergiant winds, are the main drivers of the mass loss of massive stars in our models. We calculate the total mass loss over the stellar lifetime for each model. Our results reveal the existence of a critical metallicity Z c at Z ∼ 10−3, where the mass loss exhibits a dramatic jump. If Z > Z c, massive stars tend to evolve into cool supergiants, and a robust cool wind is operational. In contrast, if Z < Z c, massive stars usually remain as blue supergiants, wherein the cool wind is not activated and the mass loss is generally weak. Moreover, we calculate the wind feedback in a 105 M ⊙ star cluster with the Salpeter initial mass function. The kinetic energy released by winds does not exhibit any significant transition at Z c because the wind velocity of a cool supergiant wind is low and contributes little to the kinetic energy. The effects of critical metallicity provide implications for the fates of metal-poor stars in the early universe.

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Po-Sheng Ou

X-Ray Luminosity and Size Relationship of Supernova Remnants in the LMC

A Multiwavelength Survey of Wolf–Rayet Nebulae in the Large Magellanic Cloud

Critical Metallicity of Cool Supergiant Formation. I. Effects on Stellar-mass Loss and Feedback

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