Your search keyword '"Wang, Q Daniel"' showing total 121 results

1. Detailed study of a rare hyperluminous rotating disk in an Einstein ring 10 billion years ago.

Author

Liu, Daizhong, Förster Schreiber, Natascha M., Harrington, Kevin C., Lee, Lilian L., Kamieneski, Patrick S., Davies, Richard I., Lutz, Dieter, Renzini, Alvio, Wuyts, Stijn, Tacconi, Linda J., Genzel, Reinhard, Burkert, Andreas, Herrera-Camus, Rodrigo, Alcalde Pampliega, Belén, Vishwas, Amit, Kaasinen, Melanie, Wang, Q. Daniel, Jiménez-Andrade, Eric F., Lowenthal, James, and Foo, Nicholas

Published

2024

2. eDIG-CHANGES. II. Project Design and Initial Results on NGC 3556.

Author

Li, Jiang-Tao, Lu, Li-Yuan, Qu, Zhijie, Benjamin, Robert A., Bregman, Joel N., Dettmar, Ralf-Jürgen, English, Jayanne, Fang, Taotao, Irwin, Judith A., Jiang, Yan, Li, Hui, Liu, Guilin, Martini, Paul, Rand, Richard J., Stein, Yelena, Strong, Andrew W., Vargas, Carlos J., Wang, Q. Daniel, Wang, Jing, and Wiegert, Theresa

Subjects

IONIZED gases, DISK galaxies, GAS dynamics, ACTIVE galactic nuclei, TRACE gases, GALACTIC magnetic fields, GALACTIC halos

Abstract

The extraplanar diffuse ionized gas (eDIG) represents ionized gases traced by optical/UV lines beyond the stellar extent of galaxies. We herein introduce a novel multislit narrow-band spectroscopy method to conduct spatially resolved spectroscopy of the eDIG around a sample of nearby edge-on disk galaxies (eDIG-CHANGES). In this paper, we introduce the project design and major scientific goals, as well as a pilot study of NGC 3556 (M108). The eDIG is detected to a vertical extent of a few kiloparsecs above the disk, comparable to the X-ray and radio images. We do not see significant vertical variation of the [N ii ]/H α line ratio. A rough examination of the pressure balance between different circumgalactic medium phases indicates the magnetic field is in a rough pressure balance with the X-ray emitting hot gas and may play an important role in the global motion of both the eDIG and the hot gas in the lower halo. At the location of an Hubble Space Telescope/Cosmic Origins Spectrograph observed UV bright background active galactic nucleus ∼29 kpc from the center of NGC 3556, the magnetic pressure is much lower than that of the hot gas and the ionized gas traced by UV absorption lines, although the extrapolation of the pressure profiles may cause some biases in this comparison. By comparing the position–velocity diagrams of the optical and CO lines, we also find the dynamics of the two gas phases are consistent with each other, with no evidence of a global inflow/outflow and a maximum rotation velocity of ∼150 km s−1. [ABSTRACT FROM AUTHOR]

Published

2024

3. CO-CHANGES – I. IRAM 30-m CO observations of molecular gas in the sombrero galaxy.

Author

Jiang, Yan, Li, Jiang-Tao, Gao, Yu, Bregman, Joel N, Ji, Li, Jiang, Xue-Jian, Tan, Qing-Hua, Wang, Jian-Fa, Wang, Q Daniel, and Yang, Yang

Subjects

GALACTIC nuclei, SPIRAL galaxies, COLD gases, GALAXIES, DARK matter, STARBURSTS, STAR formation

Abstract

Molecular gas plays a critical role in explaining the quiescence of star formation (SF) in massive isolated spiral galaxies, which could be a result of either the low molecular gas content and/or the low SF efficiency. We present IRAM 30-m observations of the CO lines in the Sombrero galaxy (NGC 4594), the most massive spiral at |$d\lesssim 30\rm ~Mpc$|⁠. We detect at least one of the three CO lines covered by our observations in all 13 observed positions located at the galactic nucleus and along an |$\sim 25\rm ~kpc$| -diameter dusty ring. The total extrapolated molecular gas mass of the galaxy is |$M_{\rm H_2}\approx 4\times 10^{8}\rm ~M_\odot$|⁠. The measured maximum CO gas rotation velocity of |$\approx 381\rm ~km~s^{-1}$| suggests that NGC 4594 locates in a dark matter halo with a mass |$M_{\rm 200}\gtrsim 10^{13}\rm ~M_\odot$|⁠. Comparing to other galaxy samples, NGC 4594 is extremely gas poor and SF inactive, but the SF efficiency is apparently not inconsistent with that predicted by the Kennicutt–Schmidt law, so there is no evidence of enhanced SF quenching in this extremely massive spiral with a huge bulge. We also calculate the predicted gas supply rate from various sources to replenish the cold gas consumed in SF, and find that the galaxy must experience a starburst stage at high redshift, then the leftover or recycled gas provides SF fuels to maintain the gradual growth of the galactic disc at a gentle rate. [ABSTRACT FROM AUTHOR]

Published

2024

4. X-ray detection of the most extreme star-forming galaxies at the cosmic noon via strong lensing.

Author

Wang, Q Daniel, Diaz, Carlos Garcia, Kamieneski, Patrick S, Harrington, Kevin C, Yun, Min S, Foo, Nicholas, Frye, Brenda L, Jimenez-Andrade, Eric F, Liu, Daizhong, Lowenthal, James D, Pampliega, Belén Alcalde, Pascale, Massimo, Vishwas, Amit, and Gurwell, Mark A

Subjects

X-ray detection, GALAXIES, X-ray binaries, STAR formation, BLACK holes

Abstract

Hyperluminous infrared galaxies (HyLIRGs) are the most extreme star-forming systems observed in the early Universe, and their properties still elude comprehensive understanding. We have undertaken a large XMM – Newton observing programme to probe the total accreting black hole population in three HyLIRGs at z = 2.12, 3.25, and 3.55, gravitationally lensed by foreground galaxies. Selected from the Planck All-Sky Survey to Analyse Gravitationally lensed Extreme Starbursts (PASSAGES), these HyLIRGs have apparent infrared luminosities >1014 L⊙. Our observations revealed X-ray emission in each of them. PJ1336+49 appears to be dominated by high-mass X-ray binaries (HMXBs). Remarkably, the luminosity of this non-AGN X-ray emission exceeds by a factor of about 3 the value obtained by calibration with local galaxies with much lower star formation rates. This enhanced X-ray emission most likely highlights the efficacy of dynamical HMXB production within compact clusters, which is an important mode of star formation in HyLIRGs. The remaining two (PJ0116−24 and PJ1053+60) morphologically and spectrally exhibit a compact X-ray component in addition to the extended non-AGN X-ray emission, indicating the presence of Active Galactic Nuclei (AGNs). The AGN appears to be centrally located in the reconstructed source plane images of PJ0116−24, which manifests its star-forming activity predominantly within an extended galactic disc. In contrast, the AGN in the field of PJ1053+60 is projected 60 kpc away from the extreme star-forming galaxy and could be ejected from it. These results underline the synergistic potential of deep X-ray observations with strong lensing for the study of high-energy astrophysical phenomena in HyLIRGs. [ABSTRACT FROM AUTHOR]

Published

2024

5. PASSAGES: The Wide-ranging, Extreme Intrinsic Properties of Planck-selected, Lensed Dusty Star-forming Galaxies.

Author

Kamieneski, Patrick S., Yun, Min S., Harrington, Kevin C., Lowenthal, James D., Wang, Q. Daniel, Frye, Brenda L., Jiménez-Andrade, Eric F., Vishwas, Amit, Cooper, Olivia, Pascale, Massimo, Foo, Nicholas, Berman, Derek, Englert, Anthony, and Garcia Diaz, Carlos

Subjects

GALAXIES, RADIATION pressure, GALAXY formation, STARBURSTS, OPTICAL images

Abstract

The PASSAGES (Planck All-Sky Survey to Analyze Gravitationally-lensed Extreme Starbursts) collaboration has recently defined a sample of 30 gravitationally lensed dusty star-forming galaxies (DSFGs). These rare, submillimeter-selected objects enable high-resolution views of the most extreme sites of star formation in galaxies at cosmic noon. Here, we present the first major compilation of strong lensing analyses using lenstool for PASSAGES, including 15 objects spanning z = 1.1–3.3, using complementary information from 0.″6-resolution 1.1 mm Atacama Large Millimeter/submillimeter Array and 0.″4 5 cm Jansky Very Large Array continuum imaging, in tandem with 1.6 μ m Hubble and optical imaging with Gemini-S. Magnifications range from μ = 2 to 28 (median μ = 7), yielding intrinsic infrared luminosities of L IR = 0.2–5.9 × 1013 L ⊙ (median 1.4 × 1013 L ⊙) and inferred star formation rates of 170–6300 M ⊙ yr−1 (median 1500 M ⊙ yr−1). These results suggest that the PASSAGES objects comprise some of the most extreme known starbursts, rivaling the luminosities of even the brightest unlensed objects, further amplified by lensing. The intrinsic sizes of far-infrared continuum regions are large (R e = 1.7–4.3 kpc; median 3.0 kpc) but consistent with L IR– R e scaling relations for z > 1 DSFGs, suggesting a widespread spatial distribution of star formation. With modestly high angular resolution, we explore if these objects might be maximal starbursts. Instead of approaching Eddington-limited surface densities, above which radiation pressure will disrupt further star formation, they are safely sub-Eddington—at least on global, galaxy-integrated scales. [ABSTRACT FROM AUTHOR]

Published

2024

6. Tracing the energetic outflows from galactic nuclei: observational evidence for a large-scale bipolar radio and X-ray-emitting bubble-like structure in M106.

Author

Zeng, Yuxuan, Wang, Q Daniel, and Fraternali, Filippo

Subjects

GALACTIC nuclei, DISK galaxies, GALACTIC evolution, RADIO jets (Astrophysics), GALAXY formation, HIGH temperature plasmas, ACCRETION (Astrophysics), BIPOLAR outflows (Astrophysics)

Abstract

The role of energetic outflows from galactic nuclei in shaping galaxy formation and evolution is still shrouded in uncertainty. In this study, we shed light on this complex phenomenon by presenting evidence for a large-scale bipolar radio/X-ray-emitting bubble-like structure emanating from the central region of the nearby disc galaxy M106 (NGC 4258). Our findings, based on Low-Frequency Array survey data and Chandra observations, provide a glimpse into the underlying physical processes driving this enigmatic structure. Similar to the eROSITA / Fermi bubbles in our own Galaxy, the M106 bubbles enclose diffuse hot plasma and are partially bounded by prominent radio/X-ray-emitting edges. We constrain the magnetic field and cosmic-ray properties of the structure. The analysis of the X-ray data gives an estimate of the thermal energy of the bubbles as ∼8 × 1056 erg. This energy can be supplied by the jets and perhaps by the wind from the accretion flow of the galaxy's low-luminosity AGN, which most likely has been much more powerful in the recent past, with an average mechanical energy release rate of ∼4 × 1042 erg s−1 over the last ∼8 × 106 yr – the estimated age of the structure. We also show evidence for diffuse X-ray emission on larger scales, indicating the presence of a hot galactic corona. Our results provide a clear manifestation of galactic nuclear feedback regulating the gas content and energetics of the circumgalactic medium of disc galaxies similar to our own. [ABSTRACT FROM AUTHOR]

Published

2023

7. X-ray metal line emission from the hot circumgalactic medium: probing the effects of supermassive black hole feedback.

Author

Truong, Nhut, Pillepich, Annalisa, Nelson, Dylan, Bogdán, Ákos, Schellenberger, Gerrit, Chakraborty, Priyanka, Forman, William R, Kraft, Ralph, Markevitch, Maxim, Ogorzalek, Anna, Oppenheimer, Benjamin D, Sarkar, Arnab, Veilleux, Sylvain, Vogelsberger, Mark, Wang, Q Daniel, Werner, Norbert, Zhuravleva, Irina, and Zuhone, John

Subjects

STELLAR black holes, MILKY Way, SUPERMASSIVE black holes, X-rays, STELLAR mass, SOFT X rays

Abstract

We derive predictions from state-of-the-art cosmological galaxy simulations for the spatial distribution of the hot circumgalactic medium (CGM, [0.1–1] R 200c) through its emission lines in the X-ray soft band ([0.3–1.3] keV). In particular, we compare IllustrisTNG, EAGLE, and SIMBA and focus on galaxies with stellar mass |$10^{10-11.6}\, \rm {M}_{\odot }$| at z  = 0. The three simulation models return significantly different surface brightness radial profiles of prominent emission lines from ionized metals such as O  vii (f), O  viii , and Fe  xvii as a function of galaxy mass. Likewise, the three simulations predict varying azimuthal distributions of line emission with respect to the galactic stellar planes, with IllustrisTNG predicting the strongest angular modulation of CGM physical properties at radial range |${{\gtrsim}0.3{-}0.5\, R_{200c}}$|⁠. This anisotropic signal is more prominent for higher energy lines, where it can manifest as X-ray eROSITA-like bubbles. Despite different models of stellar and supermassive black hole (SMBH) feedback, the three simulations consistently predict a dichotomy between star-forming and quiescent galaxies at the Milky Way and Andromeda mass range, where the former are X-ray brighter than the latter. This is a signature of SMBH-driven outflows, which are responsible for quenching star formation. Finally, we explore the prospect of testing these predictions with a microcalorimeter-based X-ray mission concept with a large field of view. Such a mission would probe the extended hot CGM via soft X-ray line emission, determine the physical properties of the CGM, including temperature, from the measurement of line ratios, and provide critical constraints on the efficiency and impact of SMBH feedback on the CGM. [ABSTRACT FROM AUTHOR]

Published

2023

8. The X-ray variation of M81* resolved by Chandra and NuSTAR.

Author

Niu, Shu, Xie, Fu-Guo, Wang, Q Daniel, Ji, Li, Yuan, Feng, and Long, Min

Subjects

ACCRETION (Astrophysics), INVERSE Compton scattering, ACTIVE galactic nuclei, X-rays, GAMMA ray bursts, X-ray scattering, SOFT X rays, LIGHT curves

Abstract

Despite advances in our understanding of low-luminosity active galactic nuclei (LLAGNs), the fundamental details about the mechanisms of radiation and flare/outburst in hot accretion flow are still largely missing. We have systematically analysed the archival Chandra and NuSTAR X-ray data of the nearby LLAGN M81*, whose L bol ∼ 10−5 L Edd. Through a detailed study of X-ray light curve and spectral properties, we find that the X-ray continuum emission of the power-law shape more likely originates from inverse Compton scattering within the hot accretion flow. In contrast to Sgr A*, flares are rare in M81*. Low-amplitude variation can only be observed in soft X-ray band (amplitude usually ≲2). Several simple models are tested, including sinusoidal-like and quasi-periodical. Based on a comparison of the dramatic differences of flare properties among Sgr A*, M31*, and M81*, we find that, when the differences in both the accretion rate and the black hole mass are considered, the flares in LLAGNs can be understood universally in a magnetohydrodynamical model. [ABSTRACT FROM AUTHOR]

Published

2023

9. eDIG-CHANGES I: extended Hα emission from the extraplanar diffuse ionized gas (eDIG) around CHANG-ES galaxies.

Author

(芦李源), Li-Yuan Lu, (李江涛), Jiang-Tao Li, Vargas, Carlos J, Beck, Rainer, Bregman, Joel N, Dettmar, Ralf-Jürgen, English, Jayanne, (方陶陶), Taotao Fang, Heald, George H, Li, Hui, Qu, Zhijie, Rand, Richard J, Stein, Michael, Wang, Q Daniel, (王菁), Jing Wang, Wiegert, Theresa, and Zheng, Yun

Subjects

IONIZED gases, COSMIC rays, GALAXIES, THERMAL electrons, GAS reservoirs, SPIRAL galaxies

Abstract

The extraplanar diffuse ionized gas (eDIG) represents the cool/warm ionized gas reservoir around galaxies. We present spatial analysis of the Hα images of 22 nearby edge-on spiral galaxies taken with the Apache Point Observatory 3.5-m telescope (eDIG-CHANGES). We conduct an exponential fit to the vertical Hα intensity profiles of the galaxies, of which 16 can be decomposed into thin + thick disk components. The median value of the Hα scale height of the thick disk is |$\langle h_{\rm H\alpha }\rangle =1.13\pm 0.14\rm ~kpc$|⁠. We further examine the dependence of h Hα on the stellar mass, SFR, and SFR surface density (SFRSD) of the galaxies. We find a tight sublinear correlation between h Hα and SFR, expressed in h Hα ∝ SFRα, where α ≈ 0.29. Moreover, the offset of individual galaxies from the best-fit SFR- h Hα relation, expressed in h Hα/SFRα, shows significant anti-correlation with SFRSD. We further compare the vertical extension of the eDIG to multi-wavelength measurements of other CGM phases. We find the eDIG slightly more extended than the neutral gas. This indicates the existence of some extended ionizing sources, in addition to the leaking photons from the disk star formation regions. Most galaxies have an X-ray scale height smaller than Hα, suggesting the majority of the X-ray photons are actually from the thick disk instead of the extended CGM. h Hα is comparable to the L-band radio continuum scale height. This indicates that the thermal and non-thermal electrons have similar spatial distributions, a natural result if both are transported outwards by a galactic wind. This further indicates the thermal gas, cosmic rays, and magnetic field may be close to energy equipartition. [ABSTRACT FROM AUTHOR]

Published

2023

10. Statistical properties of cataclysmic variables in the local galactic disc: a joint analysis of Gaia and XMM–Newton data.

Author

Xu, Xiao-jie, Wang, Q Daniel, and Li, Xiangdong

Subjects

X-ray spectra, THERMAL plasmas, CATACLYSMIC variable stars, OPTICAL properties, X-rays

Abstract

Cataclysmic variables (CVs) represent a key evolutionary phase of many low-mass stellar binaries and appear to collectively dominate the galactic X-ray background above ∼1 keV. Statistical properties of CVs, however, remain poorly understood, even in the solar neighbourhood. We aim to obtain an X-ray luminosity-complete sample of local CVs whose distances put them within three volumes. Here we present a pilot investigation on the X-ray and optical properties of local CVs or their candidates, mainly by cross-correlating the 3XMM DR8 and Gaia DR2 source catalogues. We first examine a nearly complete sample of CVs within 150 pc by characterizing their X-ray luminosity, X-ray to Gaia G -band flux ratio, and X-ray hardness ratio distributions, as well as their locations in the Gaia colour–magnitude diagram. We show that these distributions of this very local sample are consistent with those of a CV sample obtained at distances between 150 and 300 pc. We also present a catalogue of 15 new CV candidates within 500 pc based primarily on their X-ray to Gaia G-band flux ratios. The X-ray luminosities of these candidates are between 1029 to several 1031 erg s−1, and their stacked X-ray spectrum can be well described by a multitemperature optically thin thermal plasma model with a maximum temperature |$T_{\rm max}=7.5^{+6.3}_{-2.4}$| keV. These properties are consistent with those of the very local CVs. In particular, one of the CV candidates is within 150 pc, indicating that a considerable number of local CVs are yet detected. These results provide a base for a more complete statistical understanding of CVs and their quantitative contribution to the galactic X-ray background. [ABSTRACT FROM AUTHOR]

Published

2022

11. X-ray Insight into High-Energy Processes in Extreme Galactic Nuclear Environment.

Author

Wang, Q. Daniel

Subjects

ACTIVE galactic nuclei, SUPERMASSIVE black holes, X-rays, GALACTIC center, SEYFERT galaxies

Abstract

Nuclear regions of galaxies apparently play a disproportionately large role in regulating their formation and evolution. How this regulation works, however, remains very uncertain. Here we review a few recent X-ray studies of our Galactic center and the inner bulge region of our major neighboring galaxy, M31, and focusing on addressing such questions as: Why are the majority of supermassive black holes (e.g., Sgr A*) so faint? What regulates the Galactic nuclear environment? Furthermore, what impact does a recent active galactic nucleus have on the ionization state of surrounding gas? These studies have provided new insight into how various relevant high-energy phenomena and processes interplay with extreme galactic nuclear environments and affect global galactic ecosystems. [ABSTRACT FROM AUTHOR]

Published

2022

12. CHANG-ES XXIX: the sub-kpc nuclear bubble of NGC 4438.

Author

Li, Jiang-Tao, Wang, Q Daniel, Wiegert, Theresa, Bregman, Joel N, Beck, Rainer, Damas-Segovia, Ancor, Irwin, Judith A, Ji, Li, Stein, Yelena, Sun, Wei, and Yang, Yang

Subjects

SYNCHROTRON radiation, STARBURSTS, VIRGO Cluster, INTERSTELLAR medium, X-ray spectra, ACTIVE galactic nuclei, COSMIC rays

Abstract

Active galactic nucleus (AGN) bubbles could play an important role in accelerating high-energy cosmic rays (CRs) and galactic feedback. Only in nearby galaxies could we have high enough angular resolution in multiwavelengths to study the sub-kpc environment of the AGN, where the bubbles are produced and strongly interact with the surrounding interstellar medium. In this paper, we present the latest Chandra observations of the Virgo cluster galaxy NGC 4438, which hosts multiscale bubbles detected in various bands. The galaxy also has low current star formation activity, so these bubbles are evidently produced by the AGN rather than a starburst. We present spatially resolved spectral analysis of the Chandra data of the ∼3 arcsec × 5 arcsec (⁠|${\sim} 200{\rm ~pc}\times 350\rm ~pc$|⁠) nuclear bubble of NGC 4438. The power-law tail in the X-ray spectra can be most naturally explained as synchrotron emission from high-energy CR leptons. The hot gas temperature increases, while the overall contribution of the non-thermal X-ray emission decreases with the vertical distance from the galactic plane. We calculate the synchrotron cooling time-scale of the CR leptons responsible for the non-thermal hard X-ray emission to be only a few tens to a few hundreds of years. The thermal pressure of the hot gas is about three times the magnetic pressure, but the current data cannot rule out the possibility that they are still in pressure balance. The spatially resolved spectroscopy presented in this paper may have important constraints on how the AGN accelerates CRs and drives outflows. We also discover a transient X-ray source only ∼5 arcsec from the nucleus of NGC 4438. The source was not detected in 2002 and 2008, but became quite X-ray bright in 2020 March, with an average 0.5–7 keV luminosity of |${\sim} 10^{39}\rm ~erg~s^{-1}$|⁠. [ABSTRACT FROM AUTHOR]

Published

2022

13. Decomposing magnetic fields in three dimensions over the central molecular zone.

Author

Hu, Yue, Lazarian, A, and Wang, Q Daniel

Subjects

MAGNETIC fields, MAGNETIC structure, INTERSTELLAR medium, MAGNETOHYDRODYNAMICS, SWIRLING flow

Abstract

Measuring magnetic fields in the interstellar medium and obtaining their distribution along line-of-sight (LOS) is very challenging with the traditional techniques. The Velocity Gradient Technique (VGT), which utilizes anisotropy of magnetohydrodynamic turbulence, provides an attractive solution. Targeting the central molecular zone (CMZ), we test this approach by applying the VGT to |$\rm ^{12}CO$| and |$\rm ^{13}CO$| (J = 1–0) data cubes. We first used the scousepy algorithm to decompose the CO line emissions into separate velocity components, and then we constructed pseudo-Stokes parameters via the VGT to map the plane-of-the-sky magnetic fields in three-dimension. We present the decomposed magnetic field maps and investigate their significance. While the LOS integrated magnetic field orientation is shown to be consistent with the polarized dust emission from the Planck survey at 353 GHz, individual velocity components may exhibit different magnetic fields. We present a scheme of magnetic field configuration in the CMZ based on the decomposed magnetic fields. In particular, we observe a nearly vertical magnetic field orientation in the dense clump near the Sgr B2 and a change in the outflow regions around the Sgr A*. Two high-velocity structures associated with an expanding ring in the CMZ show distinct swirling magnetic field structures. These results demonstrate the potential power of the VGT to decompose velocity or density-dependent magnetic structures. [ABSTRACT FROM AUTHOR]

Published

2022

14. CHANG-ES XXV: H i imaging of nearby edge-on galaxies – Data Release 4.

Author

Zheng, Yun, Wang, Jing, Irwin, Judith, English, Jayanne, Ma, Qingchuan, Wang, Ran, Wang, Ke, Wang, Q Daniel, Krause, Marita, Randriamampandry, Toky H, Li, Jiangtao, and Beck, Rainer

Subjects

DATA release, GALAXIES, STAR formation, INTERSTELLAR medium, SPATIAL resolution

Abstract

We present the |${\rm H}\, {\small I}$| distribution of galaxies from the Continuum Haloes in Nearby Galaxies – an EVLA Survey (CHANG-ES). Though the observational mode was not optimized for detecting |${\rm H}\, {\small I}$|⁠ , we successfully produce |${\rm H}\, {\small I}$| cubes for 19 galaxies. The moment-0 maps from this work are available on CHANG-ES data release website (i.e. https://www.queensu.ca/changes). Our sample is dominated by star-forming, |${\rm H}\, {\small I}$| -rich galaxies at distances from 6.27 to 34.1 Mpc. |${\rm H}\, {\small I}$| interferometric images on two of these galaxies (NGC 5792 and UGC 10288) are presented here for the first time, while 12 of our remaining sample galaxies now have better |${\rm H}\, {\small I}$| spatial resolutions and/or sensitivities of intensity maps than those in existing publications. We characterize the average scale heights of the |${\rm H}\, {\small I}$| distributions for a subset of most inclined galaxies (inclination > 80 deg), and compare them to the radio continuum intensity scale heights, which have been derived in a similar way. The two types of scale heights are well correlated, with similar dependence on disc radial extension and star formation rate surface density but different dependence on mass surface density. This result indicates that the vertical distribution of the two components may be governed by similar fundamental physics but with subtle differences. [ABSTRACT FROM AUTHOR]

Published

2022

15. CHANG-ES – XXVII. A radio/X-ray catalogue of compact sources in and around edge-on galaxies.

Author

Irwin, Judith, Dyer, Jacqueline, Drake, Leonardo, Wang, Q Daniel, Stil, Jeroen, Stein, Yelena, English, Jayanne, and Wiegert, Theresa

Subjects

ACTIVE galactic nuclei, GALAXIES, BINARY stars, RADIO frequency, CATALOGS

Abstract

We present catalogues of discrete, compact radio sources in and around the discs of 35 edge-on galaxies in the Continuum Halos in Nearby Galaxies – an EVLA Survey. The sources were extracted using the pybdsf program at both 1.6 GHz (L band) and 6.0 GHz (C band) from matching resolution (≈3 arcsec) data. We also present catalogues of X-ray sources from Chandra data sets for 27 of the galaxies. The sources at the two radio frequency bands were positionally cross-correlated with each other, and the result cross-correlated with the X-ray sources. All catalogues are included for download with this paper. We detect a total of 2507 sources at L band and 1413 sources at C band. 75 sources have been successfully cross-correlated in both radio bands plus X-ray. Three new nuclear sources are candidates for low luminosity active galactic nuclei in NGC 3877, NGC 4192, and NGC 5792; the one in NGC 3877 also appears to be variable. We also find new nuclear sources in two companion galaxies: NGC 4435 (companion to NGC 4438) and NGC 4298 (companion to NGC 4302). We have also discovered what appears to be a foreground double star; each star has X-ray emission and there is radio emission at both L band and C band in between them. This could be a colliding wind binary system. Suggestions for follow-up studies are offered. [ABSTRACT FROM AUTHOR]

Published

2022

16. Multiscale magnetic fields in the central molecular zone: inference from the gradient technique.

Author

Hu, Yue, Lazarian, A, and Wang, Q Daniel

Subjects

MAGNETIC fields, GALACTIC magnetic fields, GALACTIC center, IONIZED gases

Abstract

The central molecular zone (CMZ) plays an essential role in regulating the nuclear ecosystem of our Galaxy. To get an insight into magnetic fields of the CMZ, we employ the gradient technique (GT), which is rooted in the anisotropy of magnetohydrodynamic turbulence. Our analysis is based on the data of multiple wavelengths, including molecular emission lines, radio 1.4 GHz continuum image, and Herschel |$70\, {\mu }{\rm m}$| image, as well as ionized [Ne  ii ] and Paschen-alpha emissions. The results are compared with the observations of Planck 353 GHz and High-resolution Airborne Wideband Camera Plus (HWAC+) |$53\, {\mu }{\rm m}$| polarized dust emissions. We map the magnetic fields orientation at multiple wavelength across the central molecular zone, including close-ups of the Radio Arc and Sagittarius A West regions, on multiscales from ∼0.1 pc to 10 pc. The magnetic fields towards the central molecular zone traced by the GT are globally compatible with the polarization measurements, accounting for the contribution from the galactic foreground and background. This correspondence suggests that the magnetic field and turbulence are dynamically crucial in the galactic center. We find that the magnetic fields associated with the Arched filaments and the thermal components of the Radio Arc are in good agree with the HAWC+ polarization. Our measurement towards the non-thermal Radio Arc reveals the poloidal magnetic field components in the galactic center. For Sagittarius A West region, we find a great agreement between the GT measurement using [Ne  ii ] emission and HWAC+ |$53\, {\mu }{\rm m}$| observation. We use the GT to predict the magnetic fields associated with ionized Paschen-alpha gas down to scales of 0.1 pc. [ABSTRACT FROM AUTHOR]

Published

2022

17. CHANG-ES. XXIV. First Detection of a Radio Nuclear Ring and Potential LLAGN in NGC 5792.

Author

Yang, Yang, Irwin, Judith, Li, Jiangtao, Wiegert, Theresa, Wang, Q. Daniel, Sun, Wei, Damas-Segovia, A., Li, Zhiyuan, Shen, Zhiqiang, Walterbos, René A. M., and Vargas, Carlos J.

Subjects

MAGNETIC flux density, SYNCHROTRON radiation, ACTIVE galactic nuclei, STAR formation, SOLAR radio emission, SPIRAL galaxies, RADIO galaxies, RADIO technology

Abstract

We report the discoveries of a nuclear ring of diameter 10″ (∼1.5 kpc) and a potential low-luminosity active galactic nucleus (LLAGN) in the radio continuum emission map of the edge-on barred spiral galaxy NGC 5792. These discoveries are based on the Continuum Halos in Nearby Galaxiesâ€"an Expanded Very Large Array (VLA) Survey, as well as subsequent VLA observations of subarcsecond resolution. Using a mixture of H α and 24 ÎĽ m calibrations, we disentangle the thermal and nonthermal radio emission of the nuclear region and derive a star formation rate (SFR) of ∼0.4 M ☉ yrâˆ'1. We find that the nuclear ring is dominated by nonthermal synchrotron emission. The synchrotron-based SFR is about three times the mixture-based SFR. This result indicates that the nuclear ring underwent more intense star-forming activity in the past, and now its star formation is in the low state. The subarcsecond VLA images resolve six individual knots on the nuclear ring. The equipartition magnetic field strength B eq of the knots varies from 77 to 88 ÎĽ G. The radio ring surrounds a point-like faint radio core of S 6 GHz = (16 ± 4) ÎĽ Jy with polarized lobes at the center of NGC 5792, which suggests an LLAGN with an Eddington ratio of ∼10âˆ'5. This radio nuclear ring is reminiscent of the Central Molecular Zone of the Galaxy. Both of them consist of a nuclear ring and LLAGN. [ABSTRACT FROM AUTHOR]

Published

2022

18. AzTEC survey of the central molecular zone: data reduction, analysis, and preliminary results.

Author

Tang, Yuping, Wang, Q Daniel, Wilson, Grant W, Heyer, Mark H, Gutermuth, Robert A, Schloerb, Peter, Yun, Min S, Bally, John, Loinard, Laurent, Silich, Sergiy, Chávez, Miguel, Haggard, Daryl, Montaña, Alfredo, Sánchez-Argüelles, David, Zeballos, Milagros, Zavala, Jorge A, and León-Tavares, Jonathan

Subjects

DUST explosions, DATA reduction, SPECTRAL energy distribution, SEWERAGE, TELESCOPES, LIGHT curves

Abstract

We present a large-scale survey of the central molecular zone (CMZ) of our Galaxy, as well as a monitoring program of Sgr A*, with the AzTEC/ Large Millimeter Telescope in the 1.1 mm continuum. Our 1.1 mm map covers the main body of the CMZ over a field of 1.6 × 1.1 deg2 with an angular resolution of 10.5 arcsec and a depth of 15 mJy beam−1. To account for the intensity loss due to the background removal process, we combine this map with lower resolution CSO/Bolocam and Planck /HFI data to produce an effective full intensity 1.1 mm continuum map. With this map and existing Herschel surveys, we have carried out a comprehensive analysis of the spectral energy distribution of dust in the CMZ. A key component of this analysis is the implementation of a model-based deconvolution approach, incorporating the Point Spread Functions (PSFs) of the different instruments, and hence recovering a significant amount of spatial information on angular scales larger than 10.5 arcsec. The monitoring of Sgr A* was carried out as part of a worldwide, multiwavelength campaign when the so-called G2 object was undergoing the pericentre passage around the massive black hole. Our preliminary results include (1) high-resolution maps of column density, temperature and dust spectral index across the CMZ; (2) a 1.1 mm light curve of Sgr A* showing an outburst of |$140{{\ \rm per\ cent}}$| maximum amplitude on 2014 May 9th May, 2014 but otherwise only stochastic variations of |$10{{\ \rm per\ cent}}$| and no systematic long-term change, consistent with other observations. [ABSTRACT FROM AUTHOR]

Published

2021

19. AzTEC survey of the central molecular zone: increasing spectral index of dust with density.

Author

Tang, Yuping, Wang, Q Daniel, and Wilson, Grant W

Subjects

DUST explosions, DUST, SPECTRAL energy distribution, TELESCOPES, GAS distribution, EXTREME environments, STARBURSTS

Abstract

The central molecular zone (CMZ) of our Galaxy hosts an extreme environment analogous to that found in typical starburst galaxies in the distant Universe. In order to understand dust properties in environments like our CMZ, we present results from a joint spectral energy distribution analysis of our AzTEC/Large Millimeter Telescope survey, together with existing Herschel far-IR data on the CMZ, from a wavelength range of 160 |$\mu {\rm m}$| to 1.1 mm. We include global foreground and background contributions in a novel Bayesian modelling that incorporates the point spread functions of the different maps, which enables the full utilization of our high-resolution (10.5 arcsec) map at 1.1 mm and reveals unprecedentedly detailed information on the spatial distribution of dusty gas across the CMZ. There is a remarkable trend of increasing dust spectral index β, from 2.0 to 2.4, towards dense peaks in the CMZ, indicating a deficiency of large grains or a fundamental change in dust optical properties. This environmental dependence of β could have a significant impact on the determination of dust temperature in other studies. Depending on how the optical properties of dust deviate from the conventional model, dust temperatures could be underestimated by |$10\!-\!50{{\ \rm per\ cent}}$| in particularly dense regions. [ABSTRACT FROM AUTHOR]

Published

2021

20. Chandra large-scale mapping of the Galactic Centre: probing high-energy structures around the central molecular zone.

Author

Wang, Q Daniel

Subjects

MAGNETIC flux density, COSMIC rays, PLASMA heating, MAGNETIC fields, PLASMA temperature, PLUMES (Fluid dynamics), SOLAR flares, STELLAR structure

Abstract

Recent observations have revealed interstellar features that apparently connect energetic activity in the central region of our Galaxy to its halo. The nature of these features, however, remains largely uncertain. We present a Chandra mapping of the central 2° × 4° field of the Galaxy, revealing a complex of X-ray-emitting threads plus plume-like structures emerging from the Galactic Centre (GC). This mapping shows that the northern plume or fountain is offset from a well-known radio lobe (or the GCL), which however may represent a foreground H  ii region, and that the southern plume is well wrapped by a corresponding radio lobe recently discovered by MeerKAT. In particular, we find that a distinct X-ray thread, G0.17−0.41, is embedded well within a non-thermal radio filament, which is locally inflated. This thread with a width of ∼1.6 arcsec (FWHM) is ∼2.6 arcmin or 6 pc long at the distance of the GC and has a spectrum that can be characterized by a power law or an optically-thin thermal plasma with temperature ≳ 3 keV. The X-ray-emitting material is likely confined within a strand of magnetic field with its strength ≳ 1 mG, not unusual in such radio filaments. These morphological and spectral properties of the radio/X-ray association suggest that magnetic field re-connection is the energy source. Such re-connection events are probably common when flux tubes of antiparallel magnetic fields collide and/or become twisted in and around the diffuse X-ray plumes, representing blowout superbubbles driven by young massive stellar clusters in the GC. The understanding of the process, theoretically predicted in analog to solar flares, can have strong implications for the study of interstellar hot plasma heating, cosmic ray acceleration and turbulence. [ABSTRACT FROM AUTHOR]

Published

2021

21. X-ray spectroscopy of the starburst feedback in 30 Doradus.

Author

Cheng, Yingjie, Wang, Q Daniel, and Lim, Seunghwan

Subjects

X-ray spectroscopy, LARGE magellanic cloud, HIGH temperature plasmas, ENERGY dissipation, THERMAL plasmas, LASER plasmas

Abstract

X-ray observations provide a potentially powerful tool to study starburst feedback. The analysis and interpretation of such observations remain challenging, however, due to various complications, including the non-isothermality of the diffuse hot plasma and the inhomogeneity of the foreground absorption. We here illustrate such complications and a way to mitigate their effects by presenting an X-ray spectroscopy of the 30 Doradus nebula in the Large Magellanic Clouds, based on a 100 ks Suzaku observation. We measure the thermal and chemical properties of the hot plasma and quantitatively confront them with the feedback expected from embedded massive stars. We find that our spatially resolved measurements can be well reproduced by a global modelling of the nebula with a lognormal temperature distribution of the plasma emission measure and a lognormal foreground absorption distribution. The metal abundances and total mass of the plasma are consistent with the chemically enriched mass ejection expected from the central OB association and a |$\sim 55{{\ \rm per\ cent}}$| mass-loading from the ambient medium. The total thermal energy of the plasma is smaller than what is expected from a simple superbubble model, demonstrating that important channels of energy loss are not accounted for. Our analysis indeed shows tentative evidence for a diffuse non-thermal X-ray component, indicating that cosmic ray acceleration needs to be considered in such a young starburst region. Finally, we suggest that the lognormal modelling may be suitable for the X-ray spectral analysis of other giant H  ii regions, especially when spatially resolved spectroscopy is not practical. [ABSTRACT FROM AUTHOR]

Published

2021

22. Erratum: Chandra survey of nearby highly inclined disc galaxies – I. X-ray measurements of galactic coronae.

Author

Li, Jiang-Tao and Wang, Q Daniel

Subjects

DISK galaxies, X-rays, HEAT, THERMAL plasmas, ELECTRON density

Published

2020

23. Colliding winds in and around the stellar group IRS 13E at the galactic centre.

Author

Wang, Q Daniel, Li, Jun, Russell, Christopher M P, and Cuadra, Jorge

Subjects

SUPERGIANT stars, STELLAR winds, WOLF-Rayet stars, BLACK holes, X-ray spectra, THERMAL plasmas

Abstract

IRS 13E is an enigmatic compact group of massive stars located in projection only 3.6 arcsec away from Sgr A*. This group has been suggested to be bounded by an intermediate-mass black hole (IMBH). We present a multiwavelength study of the group and its interplay with the environment. Based on Chandra observations, we find the X-ray spectrum of IRS 13E can be well characterized by an optically thin thermal plasma. The emission peaks between two strongly mass-losing Wolf–Rayet stars of the group. These properties can be reasonably well reproduced by simulated colliding winds of these two stars. However, this scenario underpredicts the X-ray intensity in outer regions. The residual emission likely results from the ram-pressure confinement of the IRS 13E group wind by the ambient medium and is apparently associated with a shell-like warm gas structure seen in Pa α and in ALMA observations. These latter observations also show strongly peaked thermal emission with unusually large velocity spread between the two stars. These results indicate that the group is colliding with the bar of the dense cool gas mini-spiral around Sgr A*. The extended X-ray morphology of IRS 13E and its association with the bar further suggest that the group is physically much farther away than the projected distance from Sgr A*. The presence of an IMBH, while favourable to keep the stars bound together, is not necessary to explain the observed stellar and gas properties of IRS 13E. [ABSTRACT FROM AUTHOR]

Published

2020

24. Spectral energy distribution of the inner accretion flow around Sgr A* – clue for a weak outflow in the innermost region.

Author

Ma, Ren-Yi, Roberts, Shawn R, Li, Ya-Ping, and Wang, Q Daniel

Subjects

SUPERMASSIVE black holes, X-ray diffraction, ACTIVE galactic nuclei, STAR formation, GALACTIC nuclei

Abstract

Sgr A* represents a unique laboratory for the detailed study of accretion processes around a low-luminosity supermassive black hole (SMBH). Recent X-ray observations have allowed for spatially resolved modelling of the emission from the accretion flow around the SMBH, placing tight constraints on the flux and spectral shape of the accretion from the inner region with r < 103 R g, where R g ≡ GM BH/ c 2 is the gravitational radius of the black hole of mass M BH. We present here the first modelling of the multiband spectral energy distribution (SED) of this inner region to better constrain the physical condition of the innermost accretion flow. Our modelling uses the Markov chain Monte Carlo method to fit the SED, accounting for the limitations on the accretion rate at the outer radius of 103 R g from the earlier works and the domination of the accretion flow within 30 R g to the sub-mm bump. It is found that the fitting results of the outflow index could be very different. If only the most luminous part of the SED, the sub-mm bump, is considered, the outflow index is about 0, while if low-frequency radio data and X-ray data are also included, the outflow index could be 0.37 or even higher. The great difference of the fitting results indicates that the outflow index should be variable along radius, with a strong outflow in the outer region and a weak outflow in the innermost region. Such a weak outflow agrees with numerical simulations and makes it possible to explain the multiband SED even better. [ABSTRACT FROM AUTHOR]

Published

2019

25. Probing the dynamical state, baryon content, and multiphase nature of galaxy clusters with bright background QSOs.

Author

Ge, Chong, Wang, Q Daniel, Burchett, Joseph N, Tripp, Todd M, Sun, Ming, Li, Zhiyuan, Gu, Qiusheng, and Ji, Li

Subjects

GALAXY clusters, X-ray imaging, METAPHYSICAL cosmology, STAR formation, GALAXIES

Abstract

We have initiated a programme to study the physical/dynamical state of gas in galaxy clusters and the impact of the cluster environment on gaseous haloes of individual galaxies using X-ray imaging and UV absorption line spectroscopy of background QSOs. Here, we report results from the analysis Chandra and XMM–Newton archival data of five galaxy clusters with such QSOs, one of which has an archival UV spectrum. We characterize the gravitational masses and dynamical states, as well as the hot intracluster medium (ICM) properties of these clusters. Most clusters are dynamically disturbed clusters based on the X-ray morphology parameters, the X-ray temperature profiles, the large offset between X-ray peak, and brightest cluster galaxy (BCG). The baryon contents in the hot ICM and stars of these clusters within r 500are lower than the values expected from the gravitational masses, according to the standard cosmology. We also estimate column densities of the hot ICM along the sightlines towards the background QSOs as well as place upper limits on the warm-hot phase for the one sightline with existing UV observations. These column densities, compared with those of the warm and warm-hot ICM to be measured with UV absorption line spectroscopy, will enable us to probe the relationship among various gaseous phases and their connection to the heating/cooling and dynamical processes of the clusters. Furthermore, our analysis of the archival QSO spectrum probing one cluster underscores the need for high-quality, targeted UV observations to robustly constrain the 105–6K gas phase. [ABSTRACT FROM AUTHOR]

Published

2018

26. CHANG-ES -- XI. Circular polarization in the cores of nearby galaxies.

Author

Irwin, Judith A., Henriksen, Richard N., Weżgowiec, Marek, Damas-Segovia, Ancor, Wang, Q. Daniel, Krause, Marita, Heald, George, Dettmar, Ralf-Jürgen, Jiang-Tao Li, Wiegert, Theresa, Stein, Yelena, Braun, Timothy T., Jisung Im, Schmidt, Philip, Macdonald, Scott, Miskolczi, Arpad, Merritt, Alison, Mora-Partiarroyo, S. C., Saikia, D. J., and Sotomayor, Carlos

Subjects

GALAXIES, COSMIC rays, MAGNETIC fields, ELECTRONS, ACTIVE galactic nuclei

Abstract

We detect five galaxies in the Continuum Halos in Nearby Galaxies -- an EVLA Survey (CHANG-ES) sample that show circular polarization (CP) at L band in our high-resolution data sets. Two of the galaxies (NGC 4388 and NGC4845) show strong Stokes V/I ≡ mC *** 2 per cent, two (NGC 660 and NGC3628) have values of mC *** 0.3 per cent, and NGC3079 is a marginal detection at mC *** 0.2 per cent. The two strongest mC galaxies also have the most luminous X-ray cores and the strongest internal absorption in X-rays. We have expanded on our previous Faraday conversion interpretation and analysis and provide analytical expressions for the expected V signal for a general case in which the cosmic ray (CR) electron energy spectral index can take on any value. We provide examples as to how such expressions could be used to estimate magnetic field strengths and the lower energy cut-off for CR electrons. Four of our detections are resolved, showing unique structures, including a jet in NGC4388 and a CP 'conversion disc' in NGC4845. The conversion disc is inclined to the galactic disc but is perpendicular to a possible outflow direction. Such CP structures have never before been seen in any galaxy to our knowledge. None of the galaxy cores show linear polarization at L band. Thus radio CP may provide a unique probe of the physical conditions in the cores of active galactic nuclei. [ABSTRACT FROM AUTHOR]

Published

2018

27. Warm-hot gas in X-ray bright galaxy clusters and the H I-deficient circumgalactic medium in dense environments.

Author

Burchett, Joseph N., Tripp, Todd M., Wang, Q. Daniel, Willmer, Christopher N. A., Bowen, David V., and Jenkins, Edward B.

Subjects

GALAXY clusters, CIRCUMSTELLAR matter, X-ray detection, QUASARS, SIGNAL-to-noise ratio

Abstract

We analyse the intracluster medium (ICM) and circumgalactic medium (CGM) in seven X-ray-detected galaxy clusters using spectra of background quasi-stellar objects (QSOs) (HSTCOS/ STIS), optical spectroscopy of the cluster galaxies (MMT/Hectospec and SDSS), and X-ray imaging/spectroscopy (XMM-Newton and Chandra). First, we report a very low covering fraction of HI absorption in the CGM of these cluster galaxies, fc = 25+25 -15 per cent, to stringent detection limits (N(H I) <1013 cm-2). As field galaxies have an HI covering fraction of ~100 per cent at similar radii, the dearth of CGM HI in our data indicates that the cluster environment has effectively stripped or overionized the gaseous haloes of these cluster galaxies. Secondly, we assess the contribution of warm-hot (105-106 K) gas to the ICM as traced by OVI and broad Ly α (BLA) absorption. Despite the high signal-to-noise ratio of our data, we do not detect OVI in any cluster, and we only detect BLA features in the QSO spectrum probing one cluster. We estimate that the total column density of warm-hot gas along this line of sight totals to ~3 per cent of that contained in the hot T > 107 K X-ray emitting phase. Residing at high relative velocities, these features may trace pre-shocked material outside the cluster. Comparing gaseous galaxy haloes from the low-density 'field' to galaxy groups and high-density clusters, we find that the CGM is progressively depleted of HI with increasing environmental density, and the CGM is most severely transformed in galaxy clusters. This CGM transformation may play a key role in environmental galaxy quenching. [ABSTRACT FROM AUTHOR]

Published

2018

28. A systematic Chandra study of Sgr A⋆: II. X-ray flare statistics.

Author

Qiang Yuan, Wang, Q. Daniel, Siming Liu, and Kinwah Wu

Subjects

FLARES, SUPERMASSIVE black holes, LIGHT curves of variable stars, BLACK holes, DISPERSION (Chemistry)

Abstract

The routinely flaring events from Sgr A⋆ trace dynamic, high-energy processes in the immediate vicinity of the supermassive black hole. We statistically study temporal and spectral properties, as well as fluence and duration distributions, of the flares detected by the Chandra X-ray Observatory from 1999 to 2012. The detection incompleteness and bias are carefully accounted for in determining these distributions. We find that the fluence distribution can be well characterized by a power law with a slope of 1.73+0.20 -0.19, while the durations (τ in seconds) by a lognormal function with a mean log(τ ) = 3.39+0.27 -0.24 and an intrinsic dispersion σ = 0.28+0.08 -0.06. No significant correlation between the fluence and duration is detected. The apparent positive correlation, as reported previously, is mainly due to the detection bias (i.e. weak flares can be detected only when their durations are short). These results indicate that the simple self-organized criticality model has difficulties in explaining these flares. We further find that bright flares usually have asymmetric light curves with no statistically evident difference/preference between the rising and decaying phases in terms of their spectral/timing properties. Our spectral analysis shows that although a power-law model with a photon index of 2.0 ± 0.4 gives a satisfactory fit to the joint spectra of strong and weak flares, there is weak evidence for a softer spectrum of weaker flares. This work demonstrates the potential to use statistical properties of X-ray flares to probe their trigger and emission mechanisms, as well as the radiation propagation around the black hole. [ABSTRACT FROM AUTHOR]

Published

2018

29. Near-infrared variability study of the central 2.3 × 2.3 arcmin² of the Galactic Centre – II. Identification of RR Lyrae stars in the Milky Way nuclear star cluster.

Author

Hui Dong, Schödel, Rainer, Williams, Benjamin F., Nogueras-Lara, Francisco, Gallego-Cano, Eulalia, Gallego-Calvente, Teresa, Wang, Q. Daniel, Rich, R. Michael, Morris, Mark R., Tuan Do, and Ghez, Andrea

Subjects

STAR clusters, STELLAR populations, INTERSTELLAR reddening, MILKY Way, STELLAR luminosity function, GALACTIC center

Abstract

Because of strong and spatially highly variable interstellar extinction and extreme source crowding, the faint (K ≥ 15) stellar population in the Milky Way's nuclear star cluster is still poorly studied. RR Lyrae stars provide us with a tool to estimate the mass of the oldest, relative dim stellar population. Recently, we analysed HST/WFC3/IR observations of the central 2.3 × 2.3 arcmin2 of the Milky Way and found 21 variable stars with periods between 0.2 and 1 d. Here, we present a further comprehensive analysis of these stars. The period–luminosity relationship of RR Lyrae is used to derive their extinctions and distances. Using multiple approaches, we classify our sample as 4 RRc stars, 4 RRab stars, 3 RRab candidates and 10 binaries. Especially, the four RRab stars show sawtooth light curves and fall exactly on to the Oosterhoff I division in the Bailey diagram. Compared to the RRab stars reported by Minniti et al., our new RRab stars have higher extinction (AK > 1.8) and should be closer to the Galactic Centre. The extinction and distance of one RRab stars match those for the Milky Way's nuclear star cluster given in previous works. We perform simulations and find that after correcting for incompleteness, there could be not more than 40 RRab stars within the Milky Way's nuclear star cluster and in our field of view. Through comparing with the known globular clusters of the Milky Way, we estimate that if there exists an old, metal-poor (-1.5 < [Fe/H] < -1) stellar population in the Milky Way nuclear star cluster on a scale of 5 × 5 pc, then it contributes at most 4.7 × 105 M⊚, i.e. ∼18 per cent of the stellar mass. [ABSTRACT FROM AUTHOR]

Published

2017

30. Near-infrared variability study of the central 2.3 arcmin x 2.3 arcmin of the Galactic Centre - I. Catalogue of variable sources.

Author

Hui Dong, Schödel, Rainer, Williams, Benjamin F., Nogueras-Lara, Francisco, Gallego-Cano, Eulalia, Gallego-Calvente, Teresa, Wang, Q. Daniel, Morris, Mark R., Tuan Do, and Ghez, Andrea

Subjects

GALACTIC center, GALACTIC nuclei, VARIABLE stars, BINARY stars

Abstract

We used 4-yr baseline Hubble Space Telescope/Wide Field Camera 3 IR observations of the Galactic Centre in the F153M band (1.53 μm) to identify variable stars in the central ∼2.3 arcmin x 2.3 arcmin field.We classified 3845 long-term (periods from months to years) and 76 short-term (periods of a few days or less) variables among a total sample of 33 070 stars. For 36 of the latter ones, we also derived their periods (<3 d). Our catalogue not only confirms bright long period variables and massive eclipsing binaries identified in previous works but also contains many newly recognized dim variable stars. For example, we found δ Scuti and RR Lyrae stars towards the Galactic Centre for the first time, as well as one BL Her star (period < 1.3 d). We cross-correlated our catalogue with previous spectroscopic studies and found that 319 variables have well-defined stellar types, such as Wolf-Rayet, OB main sequence, supergiants and asymptotic giant branch stars. We used colours and magnitudes to infer the probable variable types for those stars without accurately measured periods or spectroscopic information. We conclude that the majority of unclassified variables could potentially be eclipsing/ellipsoidal binaries and Type II Cepheids. Our source catalogue will be valuable for future studies aimed at constraining the distance, star formation history and massive binary fraction of the Milky Way nuclear star cluster. [ABSTRACT FROM AUTHOR]

Published

2017

31. A magnetohydrodynamic model for multiwavelength flares from Sagittarius A* (I): model and the near-infrared and X-ray flares.

Author

Ya-Ping Li, Feng Yuan, and Wang, Q. Daniel

Subjects

SOLAR flares, MAGNETOHYDRODYNAMICS, SAGITTARIUS A* (Astronomy), SUPERMASSIVE black holes, ACCRETION (Astrophysics), MAGNETIC reconnection

Abstract

Flares from the supermassive black hole in our Galaxy, Sagittarius A* (Sgr A*), are routinely observed over the last decade or so. Despite numerous observational and theoretical efforts, the nature of such flares still remains poorly understood, although a few phenomenological scenarios have been proposed. In this work, we develop the Yuan et al. scenario into a magnetohydrodynamic model for Sgr A* flares. This model is analogous with the theory of solar flares and coronal mass ejection in solar physics. In the model, magnetic field loops emerge from the accretion flow on to Sgr A* and are twisted to form flux ropes because of shear and turbulence. The magnetic energy is also accumulated in this process until a threshold is reached. This then results in a catastrophic evolution of a flux rope with the help of magnetic reconnection in the current sheet. In this catastrophic process, the magnetic energy is partially converted into the energy of non-thermal electrons. We have quantitatively calculated the dynamical evolution of the height, size and velocity of the flux rope, as well as the magnetic field in the flare regions, and the energy distribution of relativistic electrons in this process. We further calculate the synchrotron radiation from these electrons and compare the obtained light curves with the observed ones. We find that the model can reasonably explain the main observations of near-infrared and X-ray flares including their light curves and spectra. It can also potentially explain the frequency-dependent time delay seen in radio flare light curves. [ABSTRACT FROM AUTHOR]

Published

2017

32. Modelling the thermal X-ray emission around the Galactic Centre from colliding Wolf-Rayet winds.

Author

Russell, Christopher M. P., Wang, Q. Daniel, and Cuadra, Jorge

Subjects

X-ray astronomy, X-ray emission spectroscopy, BLACK holes, HYDRODYNAMICS, SIMULATION methods & models

Abstract

The Galactic Centre is a hotbed of astrophysical activity, with the injection of wind material from ~30 massive Wolf-Rayet (WR) stars orbiting within 12 arcsec of the supermassive black hole (SMBH) playing an important role. Hydrodynamic simulations of such colliding and accreting winds produce a complex density and temperature structure of cold wind material shocking with the ambient medium, creating a large reservoir of hot, X-ray-emitting gas. This work aims to confront the 3 Ms of Chandra X-ray Visionary Program observations of this diffuse emission by computing the X-ray emission from these hydrodynamic simulations of the collidingWR winds, amid exploring a variety of SMBH feedback mechanisms. The major success of the model is that it reproduces the spectral shape from the 2-5 arcsec ring around the SMBH, where most of the stellar wind material that is ultimately captured by Sgr A* is shock-heated and thermalized. This naturally explains that the hot gas comes from colliding WR winds, and that the wind speeds of these stars are, in general, well constrained. The flux level of these spectra, as well as 12 × 12-arcsec2 images of 4-9 keV, shows that the X-ray flux is tied to the SMBH feedback strength; stronger feedback clears out more hot gas, thereby decreasing the thermal X-ray emission. The model in which Sgr A* produced an intermediatestrength outflow during the last few centuries best matches the observations to within about 10 per cent, showing that SMBH feedback is required to interpret the X-ray emission in this region. [ABSTRACT FROM AUTHOR]

Published

2017

33. CHANG-ES - VIII. Uncovering hidden AGN activity in radio polarization.

Author

Irwin, Judith A., Schmidt, Philip, Damas-Segovia, A., Beck, Rainer, English, Jayanne, Heald, George, Henriksen, Richard N., Krause, Marita, Jiang-Tao Li, Rand, Richard J., Wang, Q. Daniel, Wiegert, Theresa, Kamieneski, Patrick, Paré, Dylan, and Sullivan, Kendall

Subjects

GALACTIC nuclei, POLARIZATION (Nuclear physics), GALACTIC halos, SEYFERT galaxies, MAGNETIC fields, INTERSTELLAR medium

Abstract

We report on C-band (5-7 GHz) observations of the galaxy, NGC 2992, from the Continuum Halos in Nearby Galaxies - an EVLA Survey (CHANG-ES) sample. This galaxy displays an embedded nuclear double-lobed radio morphology within its spiral disc, as revealed in linearly polarized emission but not in total intensity emission. The radio lobes are kpc-sized, similar to what has been observed in the past for other Seyfert galaxies, and show ordered magnetic fields. NGC 2992 has shown previous evidence for AGN-related activity, but not the linearly polarized radio features that we present here. We draw attention to this galaxy as the first clear example (and prototype) of bipolar radio outflow that is revealed in linearly polarized emission only. Such polarization observations, which are unobscured by dust, provide a new tool for uncovering hidden weak active galactic nucleus (AGN) activity which may otherwise be masked by brighter unpolarized emission within which it is embedded. The radio lobes observed in NGC 2992 are interacting with the surrounding interstellar medium (ISM) and offer new opportunities to investigate the interactions between nuclear outflows and the ISM in nearby galaxies. We also compare the radio emission with a new CHANDRA X-ray image of this galaxy. A new CHANG-ES image of NGC 3079 is also briefly shown as another example as to how much more obvious radio lobes appear in linear polarization as opposed to total intensity. [ABSTRACT FROM AUTHOR]

Published

2017

34. CHANG-ES - VIII. Uncovering hidden AGN activity in radio polarization.

Author

Irwin, Judith A., Schmidt, Philip, Damas-Segovia, A., Beck, Rainer, English, Jayanne, Heald, George, Henriksen, Richard N., Krause, Marita, Jiang-Tao Li, Rand, Richard J., Wang, Q. Daniel, Wiegert, Theresa, Kamieneski, Patrick, Paré, Dylan, and Sullivan, Kendall

Subjects

INTERSTELLAR medium, ASTROPHYSICS, SPACE environment, SEYFERT galaxies, ACTIVE galaxies

Abstract

We report on C-band (5-7 GHz) observations of the galaxy, NGC 2992, from the Continuum Halos in Nearby Galaxies - an EVLA Survey (CHANG-ES) sample. This galaxy displays an embedded nuclear double-lobed radio morphology within its spiral disc, as revealed in linearly polarized emission but not in total intensity emission. The radio lobes are kpc-sized, similar to what has been observed in the past for other Seyfert galaxies, and show ordered magnetic fields. NGC 2992 has shown previous evidence for AGN-related activity, but not the linearly polarized radio features that we present here. We draw attention to this galaxy as the first clear example (and prototype) of bipolar radio outflow that is revealed in linearly polarized emission only. Such polarization observations, which are unobscured by dust, provide a new tool for uncovering hidden weak active galactic nucleus (AGN) activity which may otherwise be masked by brighter unpolarized emission within which it is embedded. The radio lobes observed in NGC 2992 are interacting with the surrounding interstellar medium (ISM) and offer new opportunities to investigate the interactions between nuclear outflows and the ISM in nearby galaxies. We also compare the radio emission with a new CHANDRA X-ray image of this galaxy. A new CHANG-ES image of NGC 3079 is also briefly shown as another example as to how much more obvious radio lobes appear in linear polarization as opposed to total intensity. [ABSTRACT FROM AUTHOR]

Published

2017

35. Catching jetted tidal disruption events early in millimetre.

Author

Qiang Yuan, Wang, Q. Daniel, Wei-Hua Lei, He Gao, and Bing Zhang

Subjects

TIDAL friction, BLACK holes, GRAVITATIONAL collapse, COMPACT objects (Astronomy)

Abstract

Relativistic jets can form from at least some tidal disruption events (TDEs) of (sub-)stellar objects around supermassive black holes. We detect the millimetre (MM) emission of IGR J12580+0134 - the nearest TDE known in the galaxy NGC 4845 at the distance of only 17 Mpc, based on Planck all-sky survey data. The data show significant flux jumps after the event, followed by substantial declines, in all six high-frequency Planck bands from 100 to 857 GHz. We further show that the evolution of the MM flux densities is well consistent with our model prediction from an off-axis jet, as was initially suggested from radio and X-ray observations. This detection represents the second TDE with MM detections; the other is Sw J1644+57, an on-axis jetted TDE at redshift of 0.35. Using the on- and off-axis jet models developed for these two TDEs as templates, we estimate the detection potential of similar events with the Large Millimeter Telescope (LMT) and the Atacama Large Millimeter/ submillimeter Array (ALMA). Assuming an exposure of 1 h, we find that the LMT (ALMA) can detect jetted TDEs up to redshifts z ~ 1 (2), for a typical disrupted star mass of ~1 M☉. The detection rates of on- and off-axis TDEs can be as high as ~0.6 (13) and 10 (220) yr-1, respectively, for the LMT (ALMA). We briefly discuss how such observations, together with follow-up radio monitoring, may lead to major advances in understanding the jetted TDEs themselves and the ambient environment of the circumnuclear medium. [ABSTRACT FROM AUTHOR]

Published

2016

36. Statistical and theoretical studies of flares from Sagittarius A⋆.

Author

Li, Ya-Ping, Yuan, Qiang, Wang, Q. Daniel, Chen, P. F., Neilsen, Joseph, Fang, Taotao, Zhang, Shuo, Dexter, Jason, Crocker, Roland M., Longmore, Steven N., and Bicknell, Geoffrey V.

Abstract

Multi-wavelength flares have routinely been observed from the supermassive black hole, Sagittarius A⋆ (Sgr A⋆), at our Galactic center. The nature of these flares remains largely unclear, despite many theoretical models. We study the statistical properties of the Sgr A⋆ X-ray flares and find that they are consistent with the theoretical prediction of the self-organized criticality system with the spatial dimension S = 3. We suggest that the X-ray flares represent plasmoid ejections driven by magnetic reconnection (similar to solar flares) in the accretion flow onto the black hole. Motivated by the statistical results, we further develop a time-dependent magnetohydrodynamic (MHD) model for the multi-band flares from Sgr A⋆ by analogy with models of solar flares/coronal mass ejections (CMEs). We calculate the X-ray, infrared flare light curves, and the spectra, and find that our model can explain the main features of the flares. [ABSTRACT FROM PUBLISHER]

Published

2016

37. Modelling the thermal X-ray emission around the Galactic centre from colliding Wolf-Rayet winds.

Author

Russell, Christopher M. P., Wang, Q. Daniel, Cuadra, Jorge, Crocker, Roland M., Longmore, Steven N., and Bicknell, Geoffrey V.

Abstract

The Galactic centre is a hotbed of astrophysical activity, with the injection of wind material from ~30 massive Wolf-Rayet (WR) stars orbiting within 12″ of the super-massive black hole (SMBH) playing an important role. Hydrodynamic simulations of such colliding and accreting winds produce a complex density and temperature structure of cold wind material shocking with the ambient medium, creating a large reservoir of hot, X-ray-emitting gas. This work aims to confront the 3Ms of Chandra X-ray Visionary Program (XVP) observations of this diffuse emission by computing the X-ray emission from these hydrodynamic simulations of the colliding WR winds, amid exploring a variety of SMBH feedback mechanisms. The major success of the model is that it reproduces the spectral shape from the 2″–5″ ring around the SMBH, where most of the stellar wind material that is ultimately captured by Sgr A* is shock-heated and thermalised. This naturally explains that the hot gas comes from colliding WR winds, and that the wind speeds of these stars are in general well constrained. The flux level of these spectra, as well as 12″×12″ images of 4–9 keV, show the X-ray flux is tied to the SMBH feedback strength; stronger feedback clears out more hot gas, thereby decreasing the thermal X-ray emission. The model in which Sgr A* produced an intermediate-strength outflow during the last few centuries best matches the observations to within about 10%, showing SMBH feedback is required to interpret the X-ray emission in this region. [ABSTRACT FROM PUBLISHER]

Published

2016

38. Baryon content and dynamic state of galaxy clusters: XMM-Newton observations of A1095 and A1926.

Author

Chong Ge, Wang, Q. Daniel, Tripp, Todd M., Zhiyuan Li, Qiusheng Gu, and Li Ji

Subjects

GALACTIC redshift, BARYONS, GALAXY clusters, GRAVITATIONAL mass, GALAXY mergers, STELLAR structure, ASTRONOMICAL observations

Abstract

We have initiated a program to study the baryon content and dynamic state of galaxy clusters. Here we present results primarily from XMM-Newton observations of two optically selected galaxy clusters, A1095 (z ≃ 0.210) and A1926 (z ≃ 0.136). We find that both of them are actually cluster pairs at similar redshifts. We characterize the temperatures of these individual clusters through X-ray spectral fits and then estimate their gravitational masses. We show a rich set of substructures, including large position offsets between the diffuse X-ray centroids and the brightest galaxies of the clusters, which suggests that they are dynamically young. For both A1095 and A1926, we find that the mass required for the cluster pairs to be bound is smaller than the total gravitational mass. Thus both cluster pairs appear to be ongoing major mergers. Incorporating Sloan Digital Sky Survey and NRAO VLA Sky Survey/Faint Images of the Radio Sky at Twenty-cm data, we further examine the large-scale structure environment and radio emission of the clusters to probe their origins, which also leads to the discovery of two additional X-ray-emitting clusters (z ≃ 0.097 and ≃0.147) in the field of A1926. We estimate the hot gas and stellar masses of each cluster, which compared with the expected cosmological baryonic mass fraction, leave ample room for warm gas. [ABSTRACT FROM AUTHOR]

Published

2016

39. Chandra survey of nearby highly inclined disk galaxies - IV. New insights into the working of stellar feedback.

Author

Wang, Q. Daniel, Jiangtao Li, Xiaochuan Jiang, and Taotao Fang

Subjects

DISK galaxies, STELLAR mass, GALACTIC evolution, STELLAR luminosity function, X-ray emission spectroscopy

Abstract

Galaxy evolution is regulated by the interplay between galactic discs and their surrounding medium. We study this interplay by examining how the galactic coronal emission efficiency of stellar feedback depends on the (surface and specific) star formation rates (SFRs) and other parameters for a sample of 52 Chandra-observed nearby highly inclined disc galaxies. We first measure the star-forming galactic disc sizes, as well as the SFRs of these galaxies, using data from the Wide-Field Infrared Survey Explorer, and then show that (1) the specific 0.5-2 keV luminosity of the coronal emission correlates with the specific SFR in a sub-linear fashion: on average, LX/LK∝(SFR/M*)Γ with Γ = 0.29 ±. 0.12; (2) the efficiency of the emission LX/SFR decreases with increasing surface SFR (ISFR; Γ = -0.44 ±. 0.12); and (3) the characteristic temperature of the X-ray-emitting plasma weakly correlates with ISFR (Γ = 0.08 ±. 0.04). These results, somewhat surprising and anti-intuitive, suggest that (i) the linear correlation between LX and SFR, as commonly presented, is largely due to the correlation of these two parameters with galaxy mass; (ii) much of the mechanical energy from stellar feedback likely drives global outflows with little X-ray cooling and with a mass-loading efficiency decreasing fast with increasing ISFR (Γ ≲ -0.5); (iii) these outflows heat and inflate the medium around the galactic disks of massive galaxies, reducing its radiative cooling rate, whereas for relatively low-mass galaxies, the energy in the outflows is probably dissipated in regions far away from the galactic discs. [ABSTRACT FROM AUTHOR]

Published

2016

40. A systematic Chandra study of Sgr A* - I. X-ray flare detection.

Author

Qiang Yuan and Wang, Q. Daniel

Subjects

X-ray detection, SOLAR flares, ASTRONOMICAL observations, SUPERMASSIVE black holes, MARKOV chain Monte Carlo, SAGITTARIUS A* (Astronomy)

Abstract

Daily X-ray flaring represents an enigmatic phenomenon of Sagittarius A* (Sgr A*) - the supermassive black hole at the centre of our Galaxy. We report initial results from a systematic X-ray study of this phenomenon, based on extensive Chandra observations obtained from 1999 to 2012, totalling about 4.5 Ms. We detect flares, using a combination of the maximum likelihood and Markov Chain Monte Carlo methods, which allow for a direct accounting for the pileup effect in the modelling of the flare light curves and an optimal use of the data, as well as the measurements of flare parameters, including their uncertainties. A total of 82 flares are detected. About one third of them are relatively faint, which were not detected previously. The observation-to-observation variation of the quiescent emission has an average root-mean-square of 6-14 per cent, including the Poisson statistical fluctuation of faint flares below our detection limits. We find no significant long-term variation in the quiescent emission and the flare rate over the 14 years. In particular, we see no evidence of changing quiescent emission and flare rate around the pericentre passage of the S2 star around 2002. We show clear evidence of a short-term clustering for the Advanced CCD Imaging Spectrometer - Spectroscopy array/high energy transmission gratings 0th-order flares on time-scale of 20-70 ks. We further conduct detailed simulations to characterize the detection incompleteness and bias, which is critical to a comprehensive follow-up statistical analysis of flare properties. These studies together will help to establish Sgr A* as a unique laboratory to understand the astrophysics of prevailing low-luminosity black holes in the Universe. [ABSTRACT FROM AUTHOR]

Published

2016

41. The role of feedback in accretion on low-luminosity AGN: Sgr A* case study.

Author

Cuadra, Jorge, Nayakshin, Sergei, and Wang, Q. Daniel

Subjects

SAGITTARIUS A* (Astronomy), STELLAR luminosity function, LUMINESCENCE, OPTICAL properties, NUMERICAL analysis

Abstract

We present numerical models of the gas dynamics in the inner parsec of the Galactic Centre. We follow the gas from its origin as stellar winds of several observed young massive stars, until it is either captured by the central black hole, or leaves the system. Unlike our previous models, we include an outflow from the inner accretion flow. Two different kinds of outflows are modelled: (i) an instantaneous-response feedback mode, in which the outflow rate is directly proportional to the current black hole gas capture rate; and (ii) an outburst mode, which is stronger but lasts for a limited time. The latter situation may be particularly relevant to Sgr A*, since there is evidence that Sgr A* was much brighter in the recent past. We find that both types of outflow perturb the gas dynamics near the Bondi radius and the black hole capture rate significantly. The effects persist longer than the outflow itself. We also compare the effects of spherically symmetric and collimated outflows, and find that the latter are far less efficient in transferring its energy to the surrounding gas near the capture radius. Our results imply that accretion feedback is important for non-radiative accretion flows not only within but also outside the capture radius. Steady-state Bondi accretion rate estimates that do not account for feedback outflows overpredict not only the accretion rate on to the black hole but also the capture rate at the Bondi radius itself. Finally, the steady-state assumption under which non-radiative flows have been routinely studied in the literature may have to be abandoned if accretion feedback is bursty in nature. [ABSTRACT FROM AUTHOR]

Published

2015

42. The role of feedback in accretion on low-luminosity AGN: Sgr A* case study.

Author

Cuadra, Jorge, Nayakshin, Sergei, and Wang, Q. Daniel

Subjects

ACCRETION (Astrophysics), LUMINOSITY, BLACK holes, FEEDBACK control systems, GALAXIES

Abstract

We present numerical models of the gas dynamics in the inner parsec of the Galactic Centre. We follow the gas from its origin as stellar winds of several observed young massive stars, until it is either captured by the central black hole, or leaves the system. Unlike our previous models, we include an outflow from the inner accretion flow. Two different kinds of outflows are modelled: (i) an instantaneous-response feedback mode, in which the outflow rate is directly proportional to the current black hole gas capture rate; and (ii) an outburst mode, which is stronger but lasts for a limited time. The latter situation may be particularly relevant to Sgr A*, since there is evidence that Sgr A* was much brighter in the recent past. We find that both types of outflow perturb the gas dynamics near the Bondi radius and the black hole capture rate significantly. The effects persist longer than the outflow itself. We also compare the effects of spherically symmetric and collimated outflows, and find that the latter are far less efficient in transferring its energy to the surrounding gas near the capture radius. Our results imply that accretion feedback is important for non-radiative accretion flows not only within but also outside the capture radius. Steady-state Bondi accretion rate estimates that do not account for feedback outflows overpredict not only the accretion rate on to the black hole but also the capture rate at the Bondi radius itself. Finally, the steady-state assumption under which non-radiative flows have been routinely studied in the literature may have to be abandoned if accretion feedback is bursty in nature. [ABSTRACT FROM AUTHOR]

Published

2015

43. Origins of massive field stars in the Galactic Centre: a spectroscopic study.

Author

Dong, Hui, Mauerhan, Jon, Morris, Mark R., Wang, Q. Daniel, and Cotera, Angela

Subjects

SUPERGIANT stars, GALACTIC center, STELLAR evolution, SPECTROMETRY, ASTRONOMICAL observations, SPECTROGRAPHS

Abstract

Outside of the known star clusters in the Galactic Centre, a large number of evolved massive stars have been detected; but their origins remain uncertain. We present a spectroscopic study of eight such stars, based on new Gemini Near-Infrared Spectrograph (GNIRS) and Near-IR Integral Field Spectrograph (NIFS) near-infrared observations. This work has led to the discovery of a new O If+ star. We compare the reddening-corrected J − K versus K diagram for our stars with the massive ones in the Arches cluster and use stellar evolutionary tracks to constrain their ages and masses. The radial velocities of both the stars and their nearby H ii regions are also reported. All of the stars are blueshifted relative to the Arches cluster by > 50 km s−1. We find that our source P35 has a velocity consistent with that of the surrounding molecular gas. The velocity gradient of nearby ionized gas along the Gemini GNIRS long slit, relative to P35 and the adjacent −30 to 0 km s−1 molecular cloud, can best be explained by a pressure-driven flow model. Thus, P35 most likely formed in situ. Three more of our stars have radial velocities different from their adjacent molecular gas, indicating that they are interlopers. The four stars closest to the Arches cluster have similar spectra, ages and masses to known cluster members, suggesting that they were likely ejected from the cluster via three-body interactions. Therefore, we find that the relatively isolated stars are partly form in situ and partly be ejected from the known star clusters in the Galactic Center. [ABSTRACT FROM AUTHOR]

Published

2015

44. Global Hot Gas in and around the Galaxy.

Author

Wang, Q. Daniel

Subjects

GALAXY formation, PLASMA gases, INTERSTELLAR medium, SOLAR radiation, X-ray spectroscopy, GRENZ rays

Abstract

The hot interstellar medium traces the stellar feedback and its role in regulating the eco-system of the Galaxy. I review recent progress in understanding the medium, based largely on X-ray absorption line spectroscopy, complemented by X-ray emission and far-UV O VI absorption measurements. These observations enable us for the first time to characterize the global spatial, thermal, chemical, and kinematic properties of the medium. The results are generally consistent with what have been inferred from X-ray imaging of nearby galaxies similar to the Galaxy. It is clear that diffuse soft X-ray emitting/absorbing gas with a characteristic temperature of ∼106 K resides primarily in and around the Galactic disk and bulge. In the solar neighborhood, for example, this gas has a characteristic vertical scale height of ∼1 kpc. This conclusion does not exclude the presence of a larger-scale, probably much hotter, and lower density circum-Galactic hot medium, which is required to explain observations of various high-velocity clouds. This hot medium may be a natural product of the stellar feedback in the context of the galaxy formation and evolution. [ABSTRACT FROM AUTHOR]

Published

2009

45. Diffuse Hot Gas Under X-ray Absorption Line Spectroscopy.

Author

Wang, Q. Daniel and Yangsen Yao

Subjects

INTERSTELLAR medium, GALAXIES, X-ray binaries, ABSORPTION spectra, SPECTRUM analysis, ASTROPHYSICS

Abstract

We review recent results from X-ray absorption line spectroscopy of diffuse hot gas in and around the Galaxy. Absorption lines of O VII, O VIII, and/or Ne IX have been detected in the spectra of LMC X-3 as well as three AGNs and seven Galactic low-mass X-ray binaries. We have implemented an analysis tool, accounting for line saturation and allowing for joint fits to multiple absorption lines. Our analysis gives no significant detection of the absorption beyond the distance of the LMC. The mean temperature and density of the X-ray-absorbing gas are ∼ 106.4 K and 3.6 × 10-3 cm-3, assuming a filling factor of ∼ 1 and a typical interstellar metallicity as well as a collisional ionization equilibrium. These assumptions seem to be consistent with constraints obtained from diffuse O VII emission and pulsar dispersion measure observations. The spatial distribution of the hot gas can be characterized by a hot gaseous disk with a scale height of only ∼ 1 kpc and an apparent density enhancement in the Galactic central region, consistent with the surface brightness distribution of the Galactic diffuse 3/4-keV background. The X-ray-absorbing species as well as those far-UV tracers such as O VI, N V, and C IV seem to follow a trend from high to low ionization states away from the Galactic plane. These results demonstrate the potential of X-ray absorption spectroscopy as a powerful tool in the study of the hot interstellar medium. © 2005 American Institute of Physics [ABSTRACT FROM AUTHOR]

Published

2005

46. XMM–Newton/Reflection Grating Spectrometer detection of the missing interstellar O vii Kα absorption line in the spectrum of Cyg X-2.

Author

Cabot, Samuel H. C., Wang, Q. Daniel, and Yao, Yangsen

Subjects

OPTICAL reflection, SPECTROMETERS, INTERSTELLAR medium, ASTROPHYSICS, X-ray absorption, X-ray binaries

Abstract

The hot interstellar medium is an important part of the Galactic ecosystem and can be effectively characterized through X-ray absorption line spectroscopy. However, in a study of the hot medium using the accreting neutron star X-ray binary, Cyg X-2, as a background light source, a mystery came about when the putatively strong O vii Kα line was not detected in Chandra grating observations, while other normally weaker lines such as O vii Kβ as well as O vi and O viii Kα are clearly present. We have investigated the grating spectra of Cyg X-2 from 10 XMM–Newton observations, in search of the missing line. We detect it consistently in nine of these observations, but the line is absent in the remaining one observation or is inconsistent with the detection in others at a ∼4σ confidence level. This absence of the line resembles that seen in the Chandra observations. Similarly, the O vi Kα line is found to disappear occasionally, but not in concert with the variation of the O vii Kα line. All these variations are most likely due to the presence of changing O vii and O vi Kα emission lines of Cyg X-2, which are blurred together with the absorption ones in the X-ray spectra. A re-examination of the Chandra grating data indeed shows evidence for a narrow emission line slightly off the O vi Kα absorption line. We further show that narrow N v emission lines with varying centroids and fluxes are present in far-ultraviolet spectra from the Cosmic Origins Spectrograph aboard the Hubble Space Telescope. These results provide new constraints on the accretion around the neutron star and on the X-ray-heating of the stellar companion. The understanding of these physical processes is also important to the fidelity of using such local X-ray binaries for interstellar absorption line spectroscopy. [ABSTRACT FROM AUTHOR]

Published

2013

47. Charge-exchange X-ray emission of nearby star-forming galaxies.

Author

Liu, Jiren, Wang, Q. Daniel, and Mao, Shude

Subjects

X-ray spectroscopy, X-ray astronomy, PLASMA gases, STAR formation, GALAXIES, HELIUM

Abstract

ABSTRACT Properties of hot gas outflows from galaxies are generally measured from associated X-ray line emission assuming that it represents atomic transitions in thermally excited hot gas. X-ray line emission, however, can also arise from the charge exchange between highly ionized ions and neutral species. The Kα triplet of He-like ions can be used as a powerful diagnostic, because the charge-exchange X-ray emission (CXE) favours the intercombination and forbidden lines, while the thermal emission favours the resonance line. We analyse the O vii triplet of a sample of nine nearby star-forming galaxies observed by the XMM-Newton Reflection Grating Spectrometers. For most galaxies, the forbidden lines are comparable to or stronger than the resonance lines, which is in contrast to the thermal prediction. For NGC 253, M51, M83, M61, NGC 4631, and the Antennae (Arp 244), the observed line ratios are consistent with the ratio of CXE; for M94 and NGC 2903, the observed ratios indicate multiple origins; for M82, different regions show different line ratios, also indicating multiple origins. We discuss other possible mechanisms that can produce a relatively strong forbidden line, such as a collisional non-equilibrium-ionization recombining/ionizing plasma, which are not favoured. These results suggest that the CXE may be a common phenomenon and contribute a significant fraction of the soft X-ray line emission for galaxies with massive star formation. [ABSTRACT FROM AUTHOR]

Published

2012

48. DETECTING THE WARM-HOT INTERGALACTIC MEDIUM THROUGH X-RAY ABSORPTION LINES.

Author

Yao, Yangsen, Shull, J. Michael, Wang, Q. Daniel, and Cash, Webster

Subjects

BARYONS, REDSHIFT, X-ray telescopes, BOOTSTRAP theory (Nuclear physics)

Abstract

The warm-hot intergalactic medium (WHIM) at temperatures 105-107 K is believed to contain 30%-50% of the baryons in the local universe. However, all current X-ray detections of the WHIM at redshifts z > 0 are of low statistical significance (≤3σ) and/or controversial. In this work, we aim to establish the detection limits of current X-ray observatories and explore requirements for next-generation X-ray telescopes for studying the WHIM through X-ray absorption lines. We analyze all available grating observations of Mrk 421 and obtain spectra with signal-to-noise ratios (S/Ns) of ~90 and 190 per 50 mÅ spectral bin from Chandra and XMM-Newton observations, respectively. Although these spectra are two of the best ever collected with Chandra and XMM-Newton, we cannot confirm the two WHIM systems reported by Nicastro et al. in 2005. Our bootstrap simulations indicate that spectra with such high S/N cannot constrain the WHIM with O VII column densities N o vu τ≈ 1015 cm-2 (corresponding to an equivalent width of 2.5 mÅ for a Doppler velocity of 50 km s-1) at >3σ significance level. The simulation results also suggest that it would take >60 Ms for Chandra and 140 Ms for XMM-Newton to measure the NOVII, at ≥4σ from a spectrum of a background QSO with flux of ~0.2 mCrab (1 Crab = 2 × 10-8 erg s-1 cm-2 at 0.5-2 keV). Future X-ray spectrographs need to be equipped with spectral resolution R ~ 4000 and effective area A ≥ 100 cm 2 to accomplish the similar constraints with an exposure time of ~2 Ms and would require ~ 11 Ms to survey the 15 QSOs with flux ≥0.2 mCrab along which clear intergalactic O vI absorbers have been detected. [ABSTRACT FROM AUTHOR]

Published

2012

49. Sources of X-rays from galaxies.

Author

Wang, Q. Daniel

Abstract

Galactic X-ray emission is a manifestation of various high-energy phenomena and processes. The brightest X-ray sources are typically accretion-powered objects: active galactic nuclei and low- or high-mass X-ray binaries. Such objects with X-ray luminosities of ≳ 1037 ergs s−1 can now be detected individually in nearby galaxies. The contributions from fainter discrete sources (including cataclysmic variables, active binaries, young stellar objects, and supernova remnants) are well correlated with the star formation rate or stellar mass of galaxies. The study of discrete X-ray sources is essential to our understanding of stellar evolution, dynamics, and end-products as well as accretion physics. With the subtraction of the discrete source contributions, one can further map out truly diffuse X-ray emission, which can be used to trace the feedback from active galactic nuclei, as well as from stars, both young and old, in the form of stellar winds and supernovae. The X-ray emission efficiency, however, is only about 1% of the energy input rate of the stellar feedback alone. The bulk of the feedback energy is most likely gone with outflows into large-scale galactic halos. Much is yet to be investigated to comprehend the role of such outflows in regulating the ecosystem, hence the evolution of galaxies. Even the mechanism of the diffuse X-ray emission remains quite uncertain. A substantial fraction of the emission cannot arise directly from optically-thin thermal plasma, as commonly assumed, and most likely originates in its charge exchange with neutral gas. These uncertainties underscore our poor understanding of the feedback and its interplay with the galaxy evolution. [ABSTRACT FROM PUBLISHER]

Published

2011

50. DYNAMIC S0 GALAXIES. II. THE ROLE OF DIFFUSE HOT GAS.

Author

JIANG-TAO LI, WANG, Q. DANIEL, ZHIYUAN LI, and YANG CHEN

Subjects

GALAXIES, ASTRONOMY, STARS, CONSTELLATIONS, CIRCUMSTELLAR matter

Abstract

Cold gas loss is thought to be important in star formation quenching and morphological transition during the evolution of S0 galaxies. In high-density environments, this gas loss can be achieved via many external mechanisms. However, in relatively isolated environments, where these external mechanisms cannot be efficient, the gas loss must then be dominated by some internal processes. We have performed Chandra analysis of hot gas in five nearby isolated S0 galaxies, based on the quantitative subtraction of various stellar contributions. We find that all the galaxies studied in the present work are X-ray faint, with the luminosity of the hot gas (LX) typically accounting for ≲5% of the expected Type la supernova (SN) energy injection rate. We have further compared our results with those from relevant recent papers, in order to investigate the energy budget, cold-hot gas relation, and gas removal from SO galaxies in isolated environments. We find that elliptical and S0 galaxies are not significantly different in Lx at the low-mass end (typically with K-band luminosity LK ≲ 1011 L⊙,K). However, at the high-mass end, S0 galaxies tend to have significantly lower LX than elliptical galaxies of the same stellar masses, as already shown in previous observational and theoretical works. We further discuss the potential relationship of the diffuse X-ray emission with the cold (atomíc and molecular) gas content in the SO and elliptical galaxies included in our study. We find that Due to image rights restrictions, multiple line equation(s) cannot be graphically displayed. tends to correlate positively with the total cold gas mass Due to image rights restrictions, multiple line equation(s) cannot be graphically displayed. for cold-gas-poor galaxies with Due to image rights restrictions, multiple line equation(s) cannot be graphically displayed., while they anti-correlate with each other for cold-gas-rich galaxies. This cold-hot gas relationship can be explained in a scenario of early-type galaxy evolution, with the leftover cold gas from the precursor star-forming galaxy mainly removed by the long-lasting Type la supernova (SN) feedback. The two different trends for cold-gas-rich and cold-gas-poor galaxies may be the results of the initial fast decreasing SN rate and the later fast decreasing mass loading to hot gas, respectively. [ABSTRACT FROM AUTHOR]

Published

2011