检索结果-内蒙古大学图书馆

arXiv 2019年

作者： Tao, W.U. Li, Y.A.N. Yunnan Observatories Chinese Academy of Sciences 396 Yangfangwang Guandu District Kunming650216 China Key Laboratory for the Structure and Evolution of Celestial Objects Chinese Academy of Sciences 396 Yangfangwang Guandu District Kunming650216 China Center for Astronomical Mega-Science Chinese Academy of Sciences 20A Datun Road Chaoyang District Beijing100012 China University of Chinese Academy of Sciences Beijing100049 China

SPB star HD 50230, in fact a hybrid B-type pulsator, has been observed by CoRoT least 137 days. A nearly equidistant period spacing pattern are found among 8 modes which are extracted from the oscillation spectrum with more than 500 frequencies. However, it is thought to be most likely accidental by Szewczuk et al. (2014). In the present work, we analyze the 8 modes in depth with the χ2-matching method. Based on the best fitting model (model MA), we find that they can be well explained as a sequences of consecutive dipolar (l, m) = (1, 0). The period discrepancies between observations and the best fitting model are within 100 s except for the outlier which is up to 300 s. Based on the calculated CMMs, we find that, for pure g-mode oscillations, the buoyancy radius Λ0 can be precisely measured with the χ2-matching method between observations and calculations. It represents the "Propagation time" of the g-mode from stellar surface to center. It is of Λ0 = 245.78 ± 0.59 µHz with a precision of 0.24%. In addition, we also find that HD 50230 is a metal-rich (Zinit = 0.034 − 0.043) star with a mass of M = 6.15 − 6.27 Mo. It is still located on hydrogen-burning phase with central hydrogen XC = 0.298 − 0.316 (or XC = 0.306+0.010−0.008), therefore has a convective core with a radius of Rcc = 0.525 − 0.536 Ro (or Rcc = 0.531+0.005 −0006 Ro). In order to well interpret the structure of observed period spacing pattern, the convective core overshooting (fov = 0.0175 − 0.0200) and the extra diffusion mixing (log Dmix = 3.7 − 3.9) should be taken into account in theoretical models. Copyright © 2019, The Authors. All rights reserved.

关键词： Stars

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A Superluminous Supernova Lightened by Collisions with Pulsational Pair-instability Shells

arXiv

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arXiv 2023年

作者： Lin, Weili Wang, Xiaofeng Yan, Lin Gal-Yam, Avishay Mo, Jun Brink, Thomas G. Filippenko, Alexei V. Xiang, Danfeng Lunnan, Ragnhild Zheng, Weikang Brown, Peter Kasliwal, Mansi Fremling, Christoffer Blagorodnova, Nadejda Mirzaqulov, Davron Ehgamberdiev, Shuhrat A. Lin, Han Zhang, Kaicheng Zhang, Jicheng Yan, Shengyu Zhang, Jujia Chen, Zhihao Deng, Licai Wang, Kun Xiao, Lin Wang, Lingjun Tsinghua University Beijing100084 China Beijing Planetarium Beijing Academy of Science and Technology Beijing100044 China Purple Mountain Observatory Chinese Academy of Science Nanjing210008 China Caltech Optical Observatories California Institute of Technology PasadenaCA91125 United States Department of Particle Physics and Astrophysics Weizmann Institute of Science 234 Herzl St. Rehovot76100 Israel Department of Astronomy University of California BerkeleyCA94720-3411 United States The Oskar Klein Centre Department of Astronomy Stockholm University AlbaNova StockholmSE-106 91 Sweden Department of Physics and Astronomy Texas A&M University 4242 TAMU College StationTX77843 United States George P. and Cynthia Woods Mitchell Institute for Fundamental Physics & Astronomy United States Division of Physics Mathematics and Astronomy California Institute of Technology PasadenaCA91125 United States c. Martí i Franquès 1 Barcelona08028 Spain c. Martí i Franquès 1 Barcelona08028 Spain c. Gran Capità 2-4 Barcelona08034 Spain Ulugh Beg Astronomical Institute Uzbekistan Academy of Sciences Tashkent100052 Uzbekistan National University of Uzbekistan Tashkent100174 Uzbekistan Yunnan Observatories Chinese Academy of Sciences Kunming650216 China Key Laboratory for the Structure and Evolution of Celestial Objects Chinese Academy of Sciences Kunming650216 China Department of Astronomy Beijing Normal University Beijing China Center for Astronomical Mega-Science Chinese Academy of Sciences 20A Datun Road Chaoyang District Beijing100012 China Department of Astronomy China West Normal University Nanchong China CAS Key Laboratory of Optical Astronomy National Astronomical Observatories Chinese Academy of Sciences Beijing China School of Astronomy and Space Science University of Chinese Academy of Sciences Beijing China Department of Physics College of Physical Sciences and Technology Hebei University Wusidong Road 180 Baoding071002 C

Superluminous supernovae are among the most energetic stellar explosions in the Universe, but their energy sources remain an open question. Here we present long-term observations of one of the closest examples of the hydrogen-poor subclass (SLSNe-I), SN 2017egm, revealing the most complicated known luminosity evolution of SLSNe-I. Three distinct post-peak bumps were recorded in its light curve collected at about 100–350 days after maximum brightness, challenging current popular power models such as magnetar, fallback accretion, and interaction between ejecta and a circumstellar shell. However, the complex light curve can be well modelled by successive interactions with multiple circumstellar shells with a total mass of about 6.8–7.7 M☉. In this scenario, large energy deposition from interaction-induced reverse shocks results in ionization of neutral oxygen in the supernova ejecta and hence a much lower nebular-phase line ratio of [O I] λ6300/([Ca II] + [O II]) λ7300 (∼ 0.2) compared with that derived for other superluminous and normal stripped-envelope SNe. The pre-existing multiple shells indicate that the progenitor of SN 2017egm experienced pulsational mass ejections triggered by pair instability within 2 years before explosion, in robust agreement with theoretical predictions for a pre-pulsation helium-core mass of 48–51 M☉ © 2023, CC BY.

关键词： Supernovae

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Asteroseismology of the pre-main-sequence d scuti pulsator ip persei

arXiv

引用

arXiv 2019年

作者： Chen, Xinghao Li, Yan Yunnan Observatories Chinese Academy of Sciences P.O. Box 110 Kunming650216 China Key Laboratory for Structure and Evolution of Celestial Objects Chinese Academy of Sciences P.O. Box 110 Kunming650216 China University of Chinese Academy of Sciences Beijing100049 China Center for Astronomical Mega-Science Chinese Academy of Sciences 20A Datun Road Chaoyang District Beijing100012 China

A grid of theoretical models are computed to fit the 9 oscillation modes of IP Per detected earlier from a multi-site ground-based campaign. Fitting results show that there are two sets of theoretical models that could reproduce the observed frequencies more or less euqally well. In view of other available spectroscopic and photometric measurements, our best fitting stellar parameters for IP Per are [formula presented] Myr. Meanwhile, IP Per is found to be a pre-main sequence star where CN cycle has not yet reached the equilibrium state. At present fourteen percent of C12have been turned into N14. Based on the best-fitting model, f6 is identified as a radial mode, f1and f2as two dipole modes, and f3, f4, f5, f7, f8, and f9as six quadrupole modes. Copyright © 2019, The Authors. All rights reserved.

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GABE: Galaxy assembly with binary evolution

arXiv

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arXiv 2019年

作者： Jiang, Zhen Wang, Jie Gao, Liang Zhang, Fenghui Guo, Qi Wang, Lan Pan, Jun Key Laboratory for Computational Astrophysics National Astronomical Observatories Chinese Academy of Sciences Beijing100012 China School of Astronomy and Space Science University of Chinese Academy of Sciences Beijing100039 China Institute of Computational Cosmology Department of Physics University of Durham South Road DurhamDH1 3LE United Kingdom Yunnan Observatories Chinese Academy of Sciences Kunming650011 China Key Laboratory for the Structure and Evolution of Celestial Objects Chinese Academy of Sciences Kunming650011 China

We developed a new semi-analytic galaxy formation model: Galaxy Assembly with Binary evolution (GABE). For the first time we introduce binary evolution into semi-analytic models of galaxy formation by using Yunnan-II stellar population synthesis model, which includes various binary interactions. When implementing our galaxy formation model onto the merger trees extracted from the Millennium simulation, it can reproduce a large body of observational *** find that in the local universe the model including binary evolution reduces the luminosity at optical and infrared wavelengths slightly, while increases the luminosity at ultraviolet wavelength significantly, especially in FUVband. The resulting luminosity function does not change very much over SDSS optical bands and infrared band, but the predicted colors are bluer, especially when FUVband is under consideration. The new model allows us to explore the physics of various high energy events related to the remnants of binary stars, e.g. type Ia supernovae, short gamma-ray bursts and gravitational wave events, and their relation with host galaxies in a cosmological context. Copyright © 2019, The Authors. All rights reserved.

关键词： Galaxies

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SN 2015bf: A fast declining type II supernova with flash-ionised signatures

arXiv

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arXiv 2021年

作者： Lin, Han Wang, Xiaofeng Zhang, Jujia Lin, Weili Mo, Jun Filippenko, Alexei V. Zheng, WeiKang Brown, Peter J. Xiang, Danfeng Huang, Fang Cai, Yongzhi Zhang, Tianmeng Li, Xue Rui, Liming Zhang, Xinghan Sai, Hanna Zhao, Xulin Graham, Melissa L. Shivvers, I. Halevi, G. Yuk, H. Brink, Thomas G. Tsinghua University Beijing100084 China Beijing Planetarium Beijing Academy of Sciences and Technology Beijing100044 China Yunnan Observatories Chinese Academy of Sciences Kunming650011 China Key Laboratory for the Structure and Evolution of Celestial Objects Chinese Academy of Sciences Kunming650011 China 20A Datun Road Chaoyang District Beijing100012 China Department of Astronomy University of California BerkeleyCA94720-3411 United States Miller Institute for Basic Research in Science University of California BerkeleyCA94720-3411 United States George P. and Cynthia Woods Mitchell Institute for Fundamental Physics and Astronomy Texas A&M University Department of Physics and Astronomy 4242 TAMU College StationTX77843 United States Department of Astronomy Shanghai Jiao Tong University Shanghai200240 China Key Laboratory of Optical Astronomy National Astronomical Observatories Chinese Academy of Sciences Beijing100012 China School of Science Tianjin University of Technology Tianjin300384 China DiRAC Institute Department of Astronomy University of Washington Box 351580 SeattleWA98195 United States Homer L. Dodge Department of Physics and Astronomy University of Oklahoma 440 W. Brooks St. NormanOK73019 United States

We present optical and ultraviolet photometry, as well as optical spectra, for the type II supernova (SN) 2015bf. Our observations cover the phases from ∼ 2 to ∼ 200 d after explosion. The first spectrum is characterised by a blue continuum with a blackbody temperature of ∼ 24, 000 K and flash-ionised emission lines. After about one week, the spectra of SN 2015bf evolve like those of a regular SN II. From the luminosity of the narrow emission component of Hα, we deduce that the mass-loss rate is larger than ∼ 3.7 × 10−3 M☉ yr−1. The disappearance of the flash features in the first week after explosion indicates that the circumstellar material is confined within ∼ 6 × 1014 cm. Thus, we suggest that the progenitor of SN 2015bf experienced violent mass loss shortly before the supernova explosion. The multiband light curves show that SN 2015bf has a high peak luminosity with an absolute visual magnitude MV = −18.11 ±0.08 mag and a fast post-peak decline with a V-band decay of 1.22 ±0.09 mag within ∼ 50 d after maximum light. Moreover, the R-band tail luminosity of SN 2015bf is fainter than that of SNe II with similar peak by 1–2 mag, suggesting a small amount of 56Ni (∼ 0.009 M☉) synthesised during the explosion. Such a low nickel mass indicates that the progenitor of SN 2015bf could be a super-asymptotic-giant-branch star that collapsed owing to electron capture. Copyright © 2021, The Authors. All rights reserved.

关键词： Supernovae

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Bayesian discrimination of the panchromatic spectral energy distribution modelings of galaxies

arXiv

引用

arXiv 2019年

作者： Han, Yunkun Han, Zhanwen Fan, Lulu Yunnan Observatories Chinese Academy of Sciences 396 Yangfangwang Guandu District Kunming650216 China Center for Astronomical Mega-Science Chinese Academy of Sciences 20A Datun Road Chaoyang District Beijing100012 China Key Laboratory for the Structure and Evolution of Celestial Objects Chinese Academy of Sciences 396 Yangfangwang Guandu District Kunming650216 China Institute of Space Science Shandong University Weihai264209 China

Fitting the multi-wavelength spectral energy distributions (SEDs) of galaxies is a widely used technique to extract information about the physical properties of galaxies. However, a major difficulty lies in the numerous uncertainties regarding almost all ingredients of the SED modeling of galaxies. The Bayesian methods provide a consistent conceptual basis for dealing with the problem of inference with many *** the Bayesian parameter estimation method have become quite popular in the field of SED fitting of galaxies, the Bayesian model comparison method, which is based on the same Bayes' rule, is still not widely used in this field. With the application of Bayesian model comparison method in a series of papers, we show that the results obtained with Bayesian model comparison are understandable in the context of stellar/galaxy physics. These results indicate that Bayesian model comparison is a reliable and very powerful method for the SED fitting of galaxies. Copyright © 2019, The Authors. All rights reserved.

关键词： Galaxies

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Unprecedented Continuum Time Delay Variation Phenomenon in an Active Supermassive Black Hole

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The Astrophysical Journal 2025年第2期986卷 137-137页

作者： Shuying Zhou Mouyuan Sun Hai-Cheng Feng Sha-Sha Li Yongquan Xue Jun-Xian Wang Zhen-Yi Cai Jin-Ming Bai Danyang Li Hengxiao Guo H. T. Liu Kai-Xing Lu Jirong Mao Marcin Marculewicz Jian-Guo Wang Department of Astronomy Xiamen University Xiamen Fujian 361005 People’s Republic of China msun88@*** SHAO-XMU Joint Center for Astrophysics Xiamen Fujian 361005 People’s Republic of China Yunnan Observatories Chinese Academy of Sciences Kunming Yunnan 650216 People’s Republic of China hcfeng@*** lishasha@*** Key Laboratory for the Structure and Evolution of Celestial Objects Chinese Academy of Sciences Kunming Yunnan 650216 People’s Republic of China Center for Astronomical Mega-Science Chinese Academy of Sciences Beijing 100012 People’s Republic of China Department of Astronomy University of Science and Technology of China Hefei Anhui 230026 People’s Republic of China School of Astronomy and Space Science University of Science and Technology of China Hefei Anhui 230026 People’s Republic of China High School Affiliated to Yunnan Normal College Kunming Yunnan 650506 People’s Republic of China Shanghai Astronomical Observatory Chinese Academy of Sciences 80 Nandan Road Shanghai 200030 People’s Republic of China Wayne State University Department of Physics & Astronomy 666 W. Hancock Street Detroit MI 48201 USA

Resolving the accretion disks and broad-line regions of active galactic nuclei (AGNs) can probe the physics behind supermassive black hole (SMBH) fueling and weigh SMBHs. With time-domain observations, the reverberation mapping (RM) technique measures time delays between different light curves, probing the AGN inner structures that are otherwise often too compact to resolve spatially with current facilities. Theoretically, the SMBH accretion disk structure does not evolve over decades. Here we report the significant variations in the continuum time delays of NGC 4151. In the high-flux state, our high-cadence (∼2 days) spectroscopy reveals that continuum time delays are $3.{8}_{-1.0}^{+1.8}$ times larger than those in the low-flux state and 14.9 ± 2.0 times longer than the classical standard thin-disk prediction. Notably, the continuum time delays can be comparable to the time delay between Hβ and the 5100 Å continuum, and the latter is commonly used to calculate the BLR sizes. Hence, the BLR sizes are underestimated if the continuum time delays are not considered, which introduces ∼0.3 dex systematic uncertainties on RM SMBH masses. Our findings underscore that simultaneous continuum and BLR RMs are vital for better deciphering the SMBH accretion and mass function.

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Optical and radio transients after the collapse of super-chandrasekhar white dwarf merger remnants

arXiv

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arXiv 2018年

作者： Yu, Yun-Wei Chen, Aming Wang, Bo Institute of Astrophysics Central China Normal University Wuhan430079 China Ministry of Education Wuhan430079 China Key Laboratory for the Structure and Evolution of Celestial Objects Yunnan Observatories CAS Kunming650216 China

Super-Chandrasekhar remnants of double white dwarf mergers could sometimes collapse into a rapidly rotating neutron star (NS), accompanying with a mass ejection of a few times 0.01M☉. Bright optical transient emission can be produced by the ejecta due to heating by radioactivities and particularly by energy injection from the NS. Since the merger remnants before collapse resemble a star evolving from the asymptotic giant branch phase to the planetary nebula phase, an intense dusty wind is considered to be driven about several thousand years ago before the collapse and surround the remnant at large radii. Therefore, the optical transient emission can be somewhat absorbed and scattered by the dusty wind, which can suppress the peak emission and cause a scattering plateau in optical light curves. Several years later, as the ejecta finally catches up with the wind material, the shock interaction between them can further give rise to a detectable radio transient emission on a timescale of tens of days. Discovery of and observations to such dust-affected optical transients and shock-driven radio transients can help to explore the nature of super-Chandrasekhar merger remnants and as well as the density and type ratios of double white dwarf systems, which is beneficial in assessing their gravitational wave contributions. Copyright © 2018, The Authors. All rights reserved.

关键词： Gravity waves

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CCD astrometric observations of 2017 VR12, Camillo and Midas

arXiv

引用

arXiv 2018年

作者： Zhang, Zhen-Jun Zhang, Yi-Gong Chen, Xiang-Ming Wang, Jian-Cheng Jie-Su Yunnan Observatories Chinese Academy of Sciences Kunming650216 China Key Laboratory of the Structure and Evolution of Celestial Objects Chinese Academy of Sciences Kunming650216 China University of Chinese Academy of Sciences Beijing100049 China

We have observed three near-Earth objects(NEOs), 2017VR12, Camillo, and Midas during the year 2018. The observations were made by the 1-m telescope of Yunnan Observatory over 2 nights. Their precise astrometric positions are derived from 989 CCD observations. The theoretical positions of asteroids are retrieved from the Jet Propulsion laboratory (JPL) Horizons System and Institut de Mécanique Céleste et de Calcul des Éphémérides (IMCCE). The positions of three asteroids are measured with respect to the stars in Gaia DR2 star catalogue. For 2017 VR12, the mean (O-C) of right ascension and declination are -0.090′′ and -0.623′′ based on the ephemeris of published JPL, but the mean (O-C) are 3.122′′ and -0.636′′ based on the ephemeris of published IMCCE. The great difference in declination could be explained by several factors. (1)The degenerated CCD images caused by the high apparent motion speed of the object leads to the reduction of positioning accuracy. (2)The poor timing system may bring the system error, especially in the high speed direction. (3)The asteroid may be perturbed by the earth when it approaches the earth too closely. The astrometric results show that the centroid centring method can reduce the dispersion of the non-Gaussian images compared with the PSF model method. For Camillo and Midas, the astrometric results are consistent based on two ephemerides. High-precision timing system, some astronomical effects and geometric distortion of CCD images should be carefully considered in the future works. Copyright © 2018, The Authors. All rights reserved.

关键词： Asteroids

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The formation of subdwarf A-type stars

arXiv

引用

arXiv 2019年

作者： Yu, Jinlong Li, Zhenwei Zhu, Chunhua Wang, Zhaojun Liu, Helei Guo, Sufen Han, Zhanwen Chen, Xuefei Lü, Guoliang School of Physical Science and Technology Xinjiang University Urumqi830046 China Yunnan Observatories Chinese Academy of Sciences Kunming650011 China Key Laboratory for the Structure and Evolution of Celestial Objects Chinese Academy of Science University of the Chinese Academy of Science Yuquan Road 19 Shijingshan Block Beijing100049 China Center for Astronomical Mega-Science Chinese Academy of Science 20A Datun Road Chaoyang District Beijing100012 China

Subdwarf A-type stars (sdAs) are objects that have hydrogen-rich spectra with surface gravity similar to that of hot subdwarf stars but effective temperature below the zero-age horizontal branch (ZAHB). They are considered to be metal-poor main sequence (MS) stars or extremely low-mass white dwarfs (ELM WDs). In this work, using the stellar evolution code, Modules for Experiments in Stellar Astrophysics (MESA), we investigate the sdAs formed both by the evolution of (pre-)ELM WDs in double degenerate systems (DDs) and metal-poor main sequence with the single evolution models. We find that both of the evolutionary tracks of ELM WDs and metal-poor MSs can explain the observation properties of sdAs. However, the proportion between these two populations are uncertain. In this work, we adopt the method of binary population synthesis of both ELM WDs in the disk and metal-poor MS in the halo to obtain the populations of ELM WDs and metal-poor MSs at different stellar population ages and calculate their proportions. We find that the proportion of metal-poor MSs to sdA population for a stellar population of 10 Gyr is ∼98.5 percent, which is consistent with the conclusion that most sdAs ( Copyright © 2019, The Authors. All rights reserved.

关键词： White dwarfs

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