Your search keyword '"Techniques: spectroscopic"' showing total 6,285 results

151. Exploring the radio loudness of SDSS quasars with spectral stacking.

Author

Arnaudova, M I, Smith, D J B, Hardcastle, M J, Das, S, Drake, A, Duncan, K, Gürkan, G, Magliocchetti, M, Morabito, L K, Petley, J W, Shenoy, S, and Tasse, C

Subjects

*ACTIVE galactic nuclei, *LOUDNESS, *QUASARS, *REDSHIFT, *BLACK holes, *ASTRONOMICAL surveys, *STAR formation, *DATA release

Abstract

We use new 144 MHz observations over 5634 deg2 from the LOFAR (Low Frequency Array) Two-metre Sky Survey (LoTSS) to compile the largest sample of uniformly selected, spectroscopically confirmed quasars from the 14th data release of the Sloan Digital Sky Survey (SDSS-DR14). Using the classical definition of radio loudness, R = log (L 1.4GHz/ Li), we identify 3697 radio-loud (RL) and 111 132 radio-quiet (RQ) sources at 0.6 < z < 3.4. To study their properties, we develop a new rest-frame spectral stacking algorithm, designed with forthcoming massively multiplexed spectroscopic surveys in mind, and use it to create high signal-to-noise composite spectra of each class, matched in redshift and absolute i -band magnitude. We show that RL quasars have redder continuum and enhanced [O  ii ] emission than their RQ counterparts. These results persist when additionally matching in black hole mass, suggesting that this parameter is not the defining factor in making a quasi-stellar object (QSO) RL. We find that these features are not gradually varying as a function of radio loudness, but are maintained even when probing deeper into the RQ population, indicating that a clear-cut division in radio loudness is not apparent. Upon examining the star formation rates (SFRs) inferred from the [O  ii ] emission line, with the contribution from active galactic nucleus removed using the [Ne  v ] line, we find that RL quasars have a significant excess of star formation relative to RQ quasars out to z = 1.9 at least. Given our findings, we suggest that RL sources either preferably reside in gas-rich systems with rapidly spinning black holes, or represent an earlier obscured phase of QSO evolution. [ABSTRACT FROM AUTHOR]

Published

2024

152. Can radial temperature profiles be inferred using NH3 (1, 1) and (2, 2) observations?

Author

Estalella, Robert, Palau, Aina, and Busquet, Gemma

Subjects

*SPECTRAL energy distribution, *TEMPERATURE, *DEPTH profiling

Abstract

A number of works infer radial temperature profiles of envelopes surrounding young stellar objects using several rotational transitions in a pixel-by-pixel or azimuthally averaged basis. However, in many cases the assumption that the rotational temperature is constant along the line of sight is made, while this is not the case when a partially resolved envelope, assumed to be spherically symmetric, is used to obtain values of temperature for different projected radii. This kind of analysis (homogeneous analysis) is intrinsically inconsistent. By using a spherical envelope model to interpret NH3 (1,1) and (2,2) observations, we tested how robust it is to infer radial temperature profiles of an envelope. The temperature and density of the model envelope are power laws of radius, but the density can be flat for an inner central part. The homogeneous analysis was applied to obtain radial temperature profiles, and resulted that for small projected radii, where the optical depth of the lines is high, the homogeneous temperature can be much higher than the actual envelope temperature. In general, for larger projected radii, both the temperature and the temperature power-law index can be underestimated by as much as 40 per cent, and 0.15, respectively. We applied this study to the infrared dark cloud G14.225–0.506 for which the radial temperature profile was previously derived from the dust emission at submillimetre wavelengths and the spectral energy distribution. As expected, the homogeneous analysis underestimated both the temperature and the temperature power-law index. [ABSTRACT FROM AUTHOR]

Published

2024

153. Regularized 3D spectroscopy with CubeFit: Method and application to the Galactic Center circumnuclear disk★★★

Author

Paumard, Thibaut, Ciurlo, Anna, Morris, Mark R, Do, Tuan, and Ghez, Andrea M

Subjects

Astronomical Sciences, Physical Sciences, methods: data analysis, methods: numerical, techniques: high angular resolution, techniques: spectroscopic, ISM: individual objects: Sgr A West Circumnuclear Disk, Galaxy: center, Astronomical and Space Sciences, Astronomy & Astrophysics, Astronomical sciences, Particle and high energy physics, Space sciences

Abstract

Context. The Galactic Center black hole and the nuclear star cluster are surrounded by a clumpy ring of gas and dust, the circumnuclear disk (CND), that rotates about them at a standoff distance of ≲ 1.5 pc. The mass and density of individual clumps in the CND are disputed. Aims. We seek to use H2 to characterize the clump size distribution and to investigate the morphology and dynamics of the interface between the ionized interior layer of the CND and the molecular reservoir lying farther out (corresponding to the inner rim of the CND, illuminated in ultraviolet light by the central star cluster). Methods. We have observed two fields of approximately 20 ′′- 20′′ in the CND at near-infrared wavelengths with the OSIRIS spectro-imager at the Keck Observatory. These two fields, located at the approaching and receding nodes of the CND, best display this interface. Our data cover two H2 lines as well as the Brγ line (tracing H II). We have developed the tool CubeFit, an original method for extracting maps of continuous physical parameters (such as the velocity field and velocity dispersion) from integral-field spectroscopy data, using regularization to largely preserve spatial resolution in regions of low signal-to-noise ratio. Results. This original method enables us to isolate compact, bright features in the interstellar medium of the CND. Several clumps in the southwestern field assume the appearance of filaments, many of which are parallel to one another. We conclude that these clumps cannot be self-gravitating.

Published

2022

154. CSST large-scale structure analysis pipeline: II. The CSST Emulator for Slitless Spectroscopy.

Author

Wen, Run, Zheng, Xian Zhong, Han, Yunkun, Yang, Xiaohu, Wang, Xin, Zou, Hu, Liu, Fengshan, Zhang, Xin, Zu, Ying, Shi, Dong Dong, Gu, Yizhou, and Wang, Yirong

Subjects

*GALACTIC redshift, *GALAXY clusters, *MEASUREMENT errors, *DARK energy, *SPECTROMETRY, *SPACE telescopes

Abstract

The Chinese Space Station Telescope (CSST) slitless spectroscopic survey will observe objects to a limiting magnitude of ∼23 mag (5σ, point sources) in U, V , and I over 17 500 deg2. The spectroscopic observations are expected to be highly efficient and complete for mapping galaxies over 0 < z < 1 with secure redshift measurements at spectral resolutions of R ∼ 200, providing unprecedented data sets for cosmological studies. To quantitatively examine the survey potential, we develop a software tool, namely the CSST Emulator for Slitless Spectroscopy (CESS), to quickly generate simulated 1D slitless spectra with limited computing resources. We introduce the architecture of CESS and the detailed process of creating simulated CSST slitless spectra. The extended light distribution of a galaxy induces the self-broadening effect on the 1D slitless spectrum. We quantify the effect using morphological parameters: Sérsic index, effective radius, position angle, and axis ratio. Moreover, we also develop a module for CESS to estimate the overlap contamination rate for CSST grating observations of galaxies in galaxy clusters. Applying CESS to the high-resolution model spectra of a sample of ∼140 million galaxies with mz < 21 mag selected from the Dark Energy Spectroscopic Instrument LS DR9 catalogue, we obtain the simulated CSST slitless spectra. We examine the dependence of measurement errors on different types of galaxies due to instrumental and observational effects and quantitatively investigate the redshift completeness for different environments out to z ∼ 1. Our results show that the CSST spectroscopy is able to provide secure redshifts for about one-quarter of the sample galaxies. [ABSTRACT FROM AUTHOR]

Published

2024

155. A spectral data release for 104 type II supernovae from the Tsinghua Supernova group.

Author

Lin, Han, Wang, Xiaofeng, Zhang, Jujia, Yan, Shengyu, Xiang, Danfeng, Zhang, Tianmeng, Zhao, Xulin, Zhang, Xinghan, Sai, Hanna, Rui, Liming, Mo, Jun, Xi, Gaobo, Huang, Fang, Li, Xue, Cai, Yongzhi, Lin, Weili, Lin, Jie, Wu, Chengyuan, Zhang, Jicheng, and Chen, Zhihao

Subjects

*TYPE II supernovae, *DATA release, *PHASE velocity, *OPTICAL spectra, *SPECTRAL lines, *TYPE I supernovae

Abstract

We present 206 unpublished optical spectra of 104 type II supernovae (SNe II) obtained by the Xinglong 2.16-m telescope and Lijiang 2.4-m telescope during the period from 2011 to 2018, spanning the phases from about 1 to 200 d after the SN explosion. The spectral line identifications, evolution of line velocities and pseudo-equivalent widths, as well as correlations between some important spectral parameters are presented. Our sample displays a large range in expansion velocities. For instance, the Fe  ii 5169 velocities measured from spectra at t ∼ 50 d after the explosion vary from 2000 to 5500 km s−1, with an average value of 3872 ± 949 km s−1. Power-law functions can be used to fit the velocity evolution, with the power-law exponent quantifying the velocity decline rate. We found an anticorrelation existing between H β velocity at mid-plateau phase and its velocity decay exponent, SNe II with higher velocities tending to have smaller velocity decay rate. Moreover, we noticed that the velocity decay rate inferred from the Balmer lines (i.e. H α and H β) have moderate correlations with the ratio of absorption to emission for H α (a/e). In our sample, two objects show possibly flash-ionized features at early phases. Besides, we noticed that multiple high-velocity components may exist on the blue side of hydrogen lines of SN 2013ab, possibly suggesting that these features arise from complex line-forming region. [ABSTRACT FROM AUTHOR]

Published

2024

156. nirdust: probing hot dust emission around type 2 AGN using K-band spectra.

Author

Gaspar, Gaia, Chalela, Martín, Cabral, Juan, Alacoria, José, Mast, Damián, and Díaz, Rubén J

Subjects

*DUST, *SUPERMASSIVE black holes, *ACTIVE galactic nuclei, *MINERAL dusts, *PHYSICAL mobility, *SIGNAL-to-noise ratio

Abstract

Hot dust in the proximity of active galactic nuclei (AGNs) strongly emits in the near-infrared producing a red excess that, in type 2 sources, can be modelled to measure its temperature. In the era of high spatial resolution multiwavelength data, mapping the hot dust around supermassive black holes is important for the efforts to achieve a complete picture of the dust's role and distribution around these compact objects. In this work, we propose a methodology to detect the hot dust emission in the proximity of type 2 AGNs and measure its temperature using K -band spectra (λ c = 2.2 µm). To achieve this, we have developed nirdust , a python package for modelling K -band spectra, estimating the dust temperature, and characterizing the involved uncertainties. We tested synthetic and real spectra in order to check the performance and suitability of the physical model over different types of data. Our tests on synthetic spectra demonstrated that the obtained results are influenced by the signal-to-noise ratio (S/N) of the input spectra. However, we accurately characterized the uncertainties, which remained below ∼150 K for an average S/N per pixel exceeding 20. Applying nirdust to NGC 5128 (Centaurus A), observed with the Gemini South Telescope, we estimated a dust temperature of 662 and 667 K from Flamingos-2 spectra and 697 and 607  K from Gemini Near-Infrared Spectrograph (GNIRS) spectra using two different approaches. [ABSTRACT FROM AUTHOR]

Published

2024

157. Near-infrared transmission spectroscopy of HAT-P-18 b with NIRISS: Disentangling planetary and stellar features in the era of JWST.

Author

Fournier-Tondreau, Marylou, MacDonald, Ryan J, Radica, Michael, Lafrenière, David, Welbanks, Luis, Piaulet, Caroline, Coulombe, Louis-Philippe, Allart, Romain, Morel, Kim, Artigau, Étienne, Albert, Loïc, Lim, Olivia, Doyon, René, Benneke, Björn, Rowe, Jason F, Darveau-Bernier, Antoine, Cowan, Nicolas B, Lewis, Nikole K, Cook, Neil J, and Flagg, Laura

Subjects

*NEAR infrared spectroscopy, *LIGHT sources, *STELLAR atmospheres, *NATURAL satellite atmospheres, *NATURAL satellites, *LIGHT curves

Abstract

The JWST Early Release Observations (ERO) included a NIRISS/SOSS (0.6–2.8  μ m) transit of the ∼ 850 K Saturn-mass exoplanet HAT-P-18 b. Initial analysis of these data reported detections of water, escaping helium and haze. However, active K dwarfs like HAT-P-18 possess surface heterogeneities – star-spots and faculae – that can complicate the interpretation of transmission spectra, and indeed, a spot-crossing event is present in HAT-P-18 b's NIRISS/SOSS light curves. Here, we present an extensive reanalysis and interpretation of the JWST ERO transmission spectrum of HAT-P-18 b, as well as HST /WFC3 and Spitzer /IRAC transit observations. We detect H2O (12.5σ), CO2 (7.3σ), a cloud deck (7.4σ), and unocculted star-spots (5.8σ), alongside hints of Na (2.7σ). We do not detect the previously reported CH4 (log  CH4 < −6 to 2σ). We obtain excellent agreement between three independent retrieval codes, which find a sub-solar H2O abundance (log  H2O ≈ −4.4 ± 0.3). However, the inferred CO2 abundance (log  CO2 ≈ −4.8 ± 0.4) is significantly super-solar and requires further investigation into its origin. We also introduce new stellar heterogeneity considerations by fitting for the active regions' surface gravities – a proxy for the effects of magnetic pressure. Finally, we compare our JWST inferences to those from HST /WFC3 and Spitzer /IRAC. Our results highlight the exceptional promise of simultaneous planetary atmosphere and stellar heterogeneity constraints in the era of JWST and demonstrate that JWST transmission spectra may warrant more complex treatments of the transit light source effect. [ABSTRACT FROM AUTHOR]

Published

2024

158. Spectrophotometric properties of CoPhyLab's dust mixtures.

Author

Feller, C, Pommerol, A, Lethuillier, A, Hänni, N, Schürch, S, Bühr, C, Gundlach, B, Haenni, B, Jäggi, N, Kaminek, M, and the CoPhyLab Team

Subjects

*CHARCOAL, *SMALL solar system bodies, *DUST, *SPECTRAL reflectance, *SCANNING electron microscopes, *ELECTRON microscopes

Abstract

Objective: In the framework of the Cometary Physics Laboratory (CoPhyLab) and its sublimation experiments of cometary surface analogues under simulated space conditions, we characterize the properties of intimate mixtures of juniper charcoal and SiO2 chosen as a dust analogue (Lethuillier et al. 2022). We present the details of these investigations for the spectrophotometric properties of the samples. Methods: We measured these properties using a hyperspectral imager and a radio-goniometer. From the samples' spectra, we evaluated reflectance ratios and spectral slopes. From the measured phase curves, we inverted a photometric model for all samples. Complementary characterizations were obtained using a pycnometer, a scanning electron microscope and an organic elemental analyser. Results: We report the first values for the apparent porosity, elemental composition, and VIS-NIR spectrophotometric properties for juniper charcoal, as well as for intimate mixtures of this charcoal with the SiO2. We find that the juniper charcoal drives the spectrophotometric properties of the intimate mixtures and that its strong absorbance is consistent with its elemental composition. We find that SiO2 particles form large and compact agglomerates in every mixture imaged with the electron microscope, and its spectrophotometric properties are affected by such features and their particle-size distribution. We compare our results to the current literature on comets and other small Solar system bodies and find that most of the characterized properties of the dust analogue are comparable to some extent with the spacecraft-visited cometary nuclei, as well as to Centaurs, Trojans, and the bluest TNOs. [ABSTRACT FROM AUTHOR]

Published

2024

159. Atomic diffusion and mixing in old stars – VIII. Chemical abundance variations in the globular cluster M4 (NGC 6121).

Author

Nordlander, T, Gruyters, P, Richard, O, and Korn, A J

Subjects

*GLOBULAR clusters, *ASYMPTOTIC giant branch stars, *STELLAR structure, *OPEN clusters of stars, *STELLAR evolution, *VERY large telescopes

Abstract

Variations in chemical abundances with evolutionary phase have been identified among stars in globular and open clusters with a wide range of metallicities. In the metal-poor clusters, these variations compare well with predictions from stellar structure and evolution models considering the internal diffusive motions of atoms and ions, collectively known as atomic diffusion, when moderated by an additional mixing process with a fine-tuned efficiency. We present here an investigation of these effects in the Galactic globular cluster NGC 6121 (M4) ([Fe/H] = −1.13) through a detailed chemical abundance analysis of 86 stars using high-resolution ESO Very Large Telescope (VLT) Fibre Large Array Multi Element Spectrograph (FLAMES) spectroscopy. The stars range from the main-sequence turnoff point (TOP) to the red giant branch (RGB) just above the bump. We identify C-N-O and Mg-Al-Si abundance anticorrelations, and confirm the presence of a bimodal population differing by 1 dex in nitrogen abundance. The composition of the second-generation stars imply pollution from both massive (20–40  |$\rm M_{\odot }$|⁠) and asymptotic giant branch stars. We find evolutionary variations in chemical abundances between the TOP and RGB, which are robust to uncertainties in stellar parameters and modelling assumptions. The variations are weak, but match predictions well when employing efficient additional mixing. Without correcting for Galactic production of lithium, we derive an initial lithium abundance 2.63 ± 0.10, which is marginally lower than the predicted primordial big-bang nucleosynthesis value. [ABSTRACT FROM AUTHOR]

Published

2024

160. TOI-4641b: an aligned warm Jupiter orbiting a bright (V=7.5) rapidly rotating F-star.

Author

Bieryla, Allyson, Zhou, George, García-Mejía, Juliana, Fairnington, Tyler R, Latham, David W, Carter, Brad, Dong, Jiayin, Huang, Chelsea X, Murphy, Simon J, Shporer, Avi, Collins, Karen A, Quinn, Samuel N, Everett, Mark E, Buchhave, Lars A, Tronsgaard, René, Charbonneau, David, Johnson, Marshall C, Esquerdo, Gilbert A, Calkins, Michael, and Berlind, Perry

Subjects

*ORBITS (Astronomy), *JUPITER (Planet), *HOT Jupiters, *TEMPERATURE of stars, *EARLY stars

Abstract

We report the discovery of TOI-4641b, a warm Jupiter transiting a rapidly rotating F-type star with a stellar effective temperature of 6560 K. The planet has a radius of 0.73 R Jup, a mass smaller than 3.87 M Jup(3σ), and a period of 22.09 d. It is orbiting a bright star (V =7.5 mag) on a circular orbit with a radius and mass of 1.73 R ⊙ and 1.41 M ⊙. Follow-up ground-based photometry was obtained using the Tierras Observatory. Two transits were also observed with the Tillinghast Reflector Echelle Spectrograph, revealing the star to have a low projected spin-orbit angle (λ= |$1.41^{+0.76}_{-0.76}$| °). Such obliquity measurements for stars with warm Jupiters are relatively few, and may shed light on the formation of warm Jupiters. Among the known planets orbiting hot and rapidly rotating stars, TOI-4641b is one of the longest period planets to be thoroughly characterized. Unlike hot Jupiters around hot stars which are more often misaligned, the warm Jupiter TOI-4641b is found in a well-aligned orbit. Future exploration of this parameter space can add one more dimension to the star–planet orbital obliquity distribution that has been well sampled for hot Jupiters. [ABSTRACT FROM AUTHOR]

Published

2024

161. 200 000 candidate very metal-poor stars in Gaia DR3 XP spectra.

Author

(姚宇鹏), Yupeng Yao, Ji, Alexander P, Koposov, Sergey E, and Limberg, Guilherme

Subjects

*STARS, *GIANT stars, *MILKY Way, *FOSSILS, *CLASSIFICATION algorithms

Abstract

Very metal-poor stars (⁠|$\rm [Fe/H] \lt -2$|⁠) in the Milky Way are fossil records of early chemical evolution and the assembly and structure of the Galaxy. However, they are rare and hard to find. Gaia DR3 has provided over 200 million low-resolution (R ≈ 50) XP spectra, which provides an opportunity to greatly increase the number of candidate metal-poor stars. In this work, we utilize the XGBoost classification algorithm to identify ∼200 000 very metal-poor star candidates. Compared to past work, we increase the candidate metal-poor sample by about an order of magnitude, with comparable or better purity than past studies. First, we develop three classifiers for bright stars (BP < 16). They are Classifier-T (for Turn-off stars), Classifier-GC (for Giant stars with high completeness), and Classifier-GP (for Giant stars with high purity) with expected purity of 52 per cent/45 per cent/76 per cent and completeness of 32 per cent/93 per cent/66 per cent, respectively. These three classifiers obtained a total of 11 000/111 000/44 000 bright metal-poor candidates. We apply model-T and model-GP on faint stars (BP > 16) and obtain 38 000/41 000 additional metal-poor candidates with purity 29 per cent/52 per cent, respectively. We make our metal-poor star catalogues publicly available, for further exploration of the metal-poor Milky Way. [ABSTRACT FROM AUTHOR]

Published

2024

162. Saltire: a model to measure dynamical masses for high-contrast binaries and exoplanets with high-resolution spectroscopy.

Author

Sebastian, D, Triaud, A H M J, and Brogi, M

Subjects

*ATMOSPHERIC carbon monoxide, *HOT Jupiters, *ATMOSPHERIC circulation, *NATURAL satellite atmospheres, *PLANETARY orbits, *EXTRASOLAR planets

Abstract

High-resolution cross-correlation methods are widely used to discover and to characterise atomic and molecular species in exoplanet atmospheres. The characteristic cross-correlation signal is typically represented as a function of the velocity of the system, and the semi-amplitude of the planet's orbit. We present Saltire , a fast and simple model that accurately reproduces the shape of such cross-correlation signals, allowing a direct fit to the data by using a minimum set of parameters. We show how to use this model on the detection of atmospheric carbon monoxide in archival data of the hot Jupiter |$\rm \tau$| Boötis b, and how Saltire can be used to estimate the semi-amplitude and rest velocity of high brightness ratio binaries. By including the shape of the signal, we demonstrate that our model allows to robustly derive the signal position up to 10 times more accurate, compared to conventional methods. Furthermore, we discuss the impact of correlated noise and demonstrate that Saltire is a robust tool for estimating systematic uncertainties on the signal position. Saltire opens a new door to analyse high signal-to-noise data to accurately study atmospheric dynamics and to measure precise dynamical masses for exoplanets and faint stellar companions. We show that the phase-resolved shape of the atmospheric cross-correlation signal can accurately be reproduced, allowing studies of phase-dependent signal changes and to disentangle them from noise and data aliases. [ABSTRACT FROM AUTHOR]

Published

2024

163. Deep learning prediction of galaxy stellar populations in the low-redshift Universe.

Author

Wang, Li-Li, Yang, Guang-Jun, Zhang, Jun-Liang, Rong, Li-Xia, Zheng, Wen-Yan, Liu, Cong, and Chen, Zong-Yi

Subjects

*STELLAR populations, *DEEP learning, *CONVOLUTIONAL neural networks, *GALACTIC evolution, *AGE of stars, UNIVERSE

Abstract

The increasing size and complexity of data provided by both ongoing and planned galaxy surveys greatly contribute to our understanding of galaxy evolution. Deep learning methods are particularly well suited for handling the complex and massive data. We train a convolutional neural network (CNN) to simultaneously predict the stellar populations in galaxies: age, metallicity, colour excess E (B − V), and central velocity dispersion (VD) using spectra with redshift ≤ 0.3 from the Sloan Digital Sky Survey. This is the first time to use spectra based on deep learning to derive the four galaxy properties. The testing results show that our CNN predictions of galaxy properties are in good consistent with values by the traditional stellar population synthesis method with little scatters (0.11 dex for age and metallicity, 0.018 mag for E (B − V), and 31 km s−1 for VD). In terms of the computational time, our method reduces by more than 10 times compared to traditional method. We further evaluate the performance of our CNN prediction model using spectra with different signal-to-noise ratios (S/Ns), redshifts, and spectral classes. We find that our model generally exhibits good performance, although the errors at different S/Ns, redshifts, and spectral classes vary slightly. Our well-trained CNN model and related codes are publicly available on https://github.com/sddzwll/CNNforStellarp. [ABSTRACT FROM AUTHOR]

Published

2024

164. Machine learning applications in Jupiter-host star classification using stellar spectra.

Author

Zammit, Miguel A and Zarb Adami, Kristian

Subjects

*STARS, *MACHINE learning, *GAS giants, *STELLAR atmospheres, *CONVOLUTIONAL neural networks, *STELLAR spectra, *PLANETESIMALS

Abstract

The link between stellar host properties, be it chemical, physical, dynamical, or galactic in nature, with the presence of planetary companions, has been one that has been repeatedly tested in the literature. Several corroborated work has argued that the correlation between a stellar atmosphere's chemistry and the presence of gas giant companions is primordial in nature, implying that the chemical budget in a protoplanetary disc, and by proxy the eventual stellar host, increases the likelihood of gas giant formation. In this work, we aim to use the power of computer vision to build and test a machine learning classifier capable of discriminating between gas giant host stars and a comparison sample, using spectral data of the host stars in the visible regime. High-resolution spectra are used to preserve any inherent information which may contribute to the classification, and are fed into a stacked ensemble design incorporating several convolutional neural networks. The spectral range is binned such that each is assigned to a first-level voter, with the meta-learner aggregating their votes into a final classification. We contextualize and elaborate on the model design and results presented in a prior proceedings publication, and present an amended architecture incorporating semisupervized learning. Both models achieve relatively strong performance metrics and generalize over the holdout sets well, yet still present signs of overfitting. [ABSTRACT FROM AUTHOR]

Published

2024

165. An information theory approach to identifying signs of life on transiting planets.

Author

Vannah, Sara, Gleiser, Marcelo, and Kaltenegger, Lisa

Subjects

*ASTRONOMICAL transits, *INFORMATION theory, *HABITABLE planets, *PLANETARY orbits, *PLANETS

Abstract

Can information theory provide insights into whether exoplanets are habitable? Here, we apply information theory to a range of simulated exoplanet transmission spectra as a diagnostic tool to search for potential signatures of life on Earth-analogue planets. We test the algorithms on three epochs of evolution for Earth-like planets orbiting a range of host stars. The JWST and upcoming ground- and space-based missions promise to achieve sufficient high-resolution data that information theory can be applied to assess habitability. This approach provides a framework and a tool for observers to assess whether an exoplanet shows signs of habitability. [ABSTRACT FROM AUTHOR]

Published

2024

166. Orbits and dynamical masses for the active Hyades multiple system HD 284163.

Author

Torres, Guillermo, Schaefer, Gail H, Stefanik, Robert P, Latham, David W, Jones, Jeremy, Lanthermann, Cyprien, Monnier, John D, Kraus, Stefan, Anugu, Narsireddy, ten Brummelaar, Theo, Chhabra, Sorabh, Codron, Isabelle, Ennis, Jacob, Gardner, Tyler, Gutierrez, Mayra, Ibrahim, Noura, Labdon, Aaron, Mortimer, Dan, and Setterholm, Benjamin R

Subjects

*ORBITS (Astronomy), *LOW mass stars, *STELLAR mass, *PARALLAX, *MASS measurement

Abstract

We report near-infrared long-baseline interferometric observations of the Hyades multiple system HD 284163, made with the Center for High Angular Resolution Astronomy array, as well as almost 43 yr of high-resolution spectroscopic monitoring at the Center for Astrophysics. Both types of observations resolve the 2.39 d inner binary, and also an outer companion in a 43.1 yr orbit. Our observations, combined with others from the literature, allow us to solve for the 3D inner and outer orbits, which are found to be at nearly right angles to each other. We determine the dynamical masses of the three stars (good to better than 1.4 per cent for the inner pair), as well as the orbital parallax. The secondary component (0.5245 ± 0.0047 M⊙) is now the lowest mass star with a dynamical mass measurement in the cluster. A comparison of these measurements with current stellar evolution models for the age and metallicity of the Hyades shows good agreement. All three stars display significant levels of chromospheric activity, consistent with the classification of HD 284163 as an RS CVn object. We present evidence that a more distant fourth star is physically associated, making this a hierarchical quadruple system. [ABSTRACT FROM AUTHOR]

Published

2024

167. The Magellanic Puzzle: origin of the periphery.

Author

Massana, Pol, Nidever, David L, and Olsen, Knut

Subjects

*LARGE magellanic cloud, *SMALL magellanic cloud, *AGE distribution, *DATA release, *AGE differences, *MAGELLANIC clouds, *SPACE debris

Abstract

In this paper, we analyse the metallicity structure of the Magellanic Clouds using parameters derived from the Gaia Data Release 3 (DR3) low-resolution XP (for Blue/Red Photometer) spectra, astrometry, and photometry. We find that the qualitative behaviour of the radial metallicity gradients in the Large Magellanic Cloud (LMC) and Small Magellanic Cloud (SMC) is quite similar, with both of them having a metallicity plateau at intermediate radii and a second at larger radii. The LMC has a first metallicity plateau at [M/H] ≈ −0.8 for 3–7°, while the SMC has one at [M/H] ≈ −1.1 for 3–5°. The outer LMC periphery has a fairly constant metallicity of [M/H] ≈ −1.0 (10–18°), while the outer SMC periphery has a value of [M/H] ≈ −1.3 (6–10°). The sharp drop in metallicity in the LMC at ∼8° and the marked difference in age distributions in these two regions suggest that there were two important evolutionary phases in the LMC. In addition, we find that the Magellanic periphery substructures, likely Magellanic debris, are mostly dominated by LMC material stripped off in old interactions with the SMC. This presents a new picture in contrast with the popular belief that the debris around the clouds had been mostly stripped off from the SMC due to having a lower mass. We perform a detailed analysis for each known substructure and identify its potential origin based on metallicities and motions with respect to each galaxy. [ABSTRACT FROM AUTHOR]

Published

2024

168. Narrow-line Seyfert 1 galaxies in Sloan Digital Sky Survey: a new optical spectroscopic catalogue.

Author

Paliya, Vaidehi S, Stalin, C S, Domínguez, Alberto, and Saikia, D J

Subjects

*SEYFERT galaxies, *ASTRONOMICAL surveys, *ACTIVE galactic nuclei, *CATALOGS, *ELECTROMAGNETIC spectrum, *CATALOGING

Abstract

Narrow-line Seyfert 1 (NLSy1) galaxies are an enigmatic class of active galactic nuclei (AGN) that exhibit peculiar multiwavelength properties across the electromagnetic spectrum. For example, these sources have allowed us to explore the innermost regions of the central engine of AGN using X-ray observations and have also provided clues about the origin of relativistic jets considering radio and gamma-ray bands. Keeping in mind the ongoing and upcoming wide-field, multifrequency sky surveys, we present a new catalogue of NLSy1 galaxies. This was done by carrying out a detailed decomposition of >2 million optical spectra of quasars and galaxies from the Sloan Digital Sky Survey Data Release 17 (SDSS-DR17) using the publicly available software 'Bayesian AGN Decomposition Analysis for SDSS Spectra'. The catalogue contains 22656 NLSy1 galaxies which is more than twice the size of the previously identified NLSy1s based on SDSS-DR12. As a corollary, we also release a new catalogue of 52273 broad-line Seyfert 1 (BLSy1) galaxies. The estimated optical spectral parameters and derived quantities confirm the previously known finding of NLSy1 galaxies being AGN powered by highly accreting, low-mass black holes. We conclude that this enlarged sample of NLSy1 and BLSy1 galaxies will enable us to explore the low-luminosity end of the AGN population by effectively utilizing the sensitive, high-quality observations delivered by ongoing/upcoming wide-field sky surveys. The catalogue has been made public at https://www.ucm.es/blazars/seyfert. [ABSTRACT FROM AUTHOR]

Published

2024

169. Weak secondary cyclotron line in eclipsing high-mass X-ray binary Cen X-3.

Author

Dangal, Pravat, Misra, Ranjeev, Chakradhari, N K, and Bhulla, Yashpal

Subjects

*X-ray binaries, *CYCLOTRON resonance, *TIME-resolved spectroscopy, *LIGHT curves, *ORBITS (Astronomy), *CYCLOTRONS

Abstract

We report the time-resolved spectroscopy results from two observations of Centaurus X-3, over one binary orbit with AstroSat and two binary orbits with Nuclear Spectroscopic Telescope Array (NuSTAR). NuSTAR covered two intensity states where the light curve showed transition in count rate from first to second binary orbit by a factor of ∼3. A phenomenological model comprising of partially absorbed power law with smoothed high energy cutoff, cyclotron absorption ∼24 and 6.4 keV iron emission gave good fit for AstroSat observation. NuSTAR spectra required two additional emission components, a broad one ∼5.7 keV and a narrow one ∼6.9 keV. A weak secondary absorption feature at ∼11.6 and ∼ 14.5 keV was seen in the residuals of the spectral fit for AstroSat and NuSTAR data, respectively. The secondary absorption energy showed no correlation with the cutoff energy. Its strength varied within 0.1–0.6 keV with its width ∼1.6 keV. Its energy and optical depth showed linear positive correlation with the fundamental cyclotron line energy and depth, respectively. The cyclotron line energy showed anticorrelation to flux described by a power law with negative index and the secondary absorption also showed similar trend to flux. Depth of secondary absorption was ∼45 per cent and centroid energy was ∼54 per cent of fundamental. Depth and energy ratio of secondary to fundamental lied within 2σ deviation from 0.5. We suggest this secondary absorption to be a redshifted dipolar cyclotron resonance feature exhibiting sub-harmonic behaviour. [ABSTRACT FROM AUTHOR]

Published

2024

170. Correlation structure in flux-density calibrator models.

Author

Molteno, Timothy C A

Subjects

*MARKOV chain Monte Carlo, *COVARIANCE matrices, *SPECTRAL imaging

Abstract

Astronomical radio-interferometric imaging typically uses published observations of standard flux-calibrator sources to calibrate the spectral response of the instrument. The spectra of standard flux-calibrator sources are usually provided as polynomial models of flux-density as a function of frequency. In this paper we show that there is significant covariance in these polynomial coefficients, and that failing to take this into account leads to significantly larger variance when sampling from the polynomial models. This paper presents polynomial models of calibrator sources that include the covariance structure of the coefficients which are computed using Markov Chain Monte Carlo sampling. In addition a data-free inference technique is presented that can be used to estimate the covariance structure from a simple polynomial model when access to the original data is not available. This data-free technique is compared with estimates of covariance calculated from original observation data. The data-free technique is shown to provide reasonable agreement with covariances calculated from source data. A python package is described that implements this inference, and a catalogue of common flux-calibrator models including covariance is provided. We suggest that when polynomial models of flux-calibrators are used as priors in a Bayesian context, then taking this correlation structure into account will lead to significantly reduced posterior variance. [ABSTRACT FROM AUTHOR]

Published

2024

171. Detection and preliminary characterization of polluted white dwarfs from Gaia EDR3 and LAMOST.

Author

Badenas-Agusti, Mariona, Vanderburg, Andrew, Blouin, Simon, Dufour, Patrick, Viaña, Javier, Seager, Sara, and Wang, Sharon X

Subjects

*WHITE dwarf stars, *COMPACT objects (Astronomy), *AIR pollution, *ATMOSPHERIC composition, *SPACE telescopes, *INSPECTION & review

Abstract

We present a catalogue of 62 polluted white dwarfs observed by the 9th Low-Resolution Data Release of the Large Sky Area Multi-Object Fiber Spectroscopic Telescope (LAMOST LRS DR9v1; R ≈1800) and the Early Data Release 3 (EDR3) of the Gaia Mission. Among these stellar remnants, 30 are new discoveries with previously unknown traces of calcium pollution. To generate our catalogue, we used a data base of 4324 unique Gaia EDR3 white dwarf candidates with LAMOST LRS DR9v1 observations, many of which have been spectroscopically confirmed by other telescopes. For these stars, we developed a quantitative method to detect calcium absorption in their spectra between 3900–4000 Å, which we then validated through visual inspection and multiple literature cross-checks. Our catalogue provides the astrometric and photometric properties of the white dwarf candidates, incorporates supplementary data (e.g. Montreal White Dwarf Database, MWDD; PanSTARRS; the Hubble Space Telescope), and indicates the possibility of calcium pollution in their atmospheres. For our final sample of polluted white dwarfs, we also determine the main atmospheric properties of 23 sources with effective temperatures T eff ≤ 25 000 K and no existing calcium abundances in the MWDD. Our analysis represents a first step towards measuring the full atmospheric composition of these stars and learning about the bulk properties of their accreted material. As we venture into the era of wide-field spectroscopic surveys, our work highlights the importance of combining large-scale data bases for identifying and characterizing new polluted white dwarfs. [ABSTRACT FROM AUTHOR]

Published

2024

172. Experimental atomic data of spectral lines – I. Cs, Ba, Pr, Nd, Sm, Eu, Gd, Tb, Dy, Ho, Er, Tm, Yb, Lu, Hf, Re, and Os in the 370–1000 nm interval.

Author

Ferrara, C, Giarrusso, M, and Leone, F

Subjects

*SPECTRAL lines, *RARE earth metals, *PLASMA diagnostics, *STELLAR spectra, *CATHODES, *ATOMIC transitions

Abstract

Atomic data are fundamental for plasma diagnostics in laboratory and astrophysics through spectroscopy. These data are extensively present in data bases for light elements, however incomplete for high-mass atoms. This paper presents the results of systematic spectroscopy of 17 elements with high Z , expected to be produced in kilonova events generated by neutron star mergers, whose spectral lines are not yet fully identified in stellar spectra and fusion devices. Experimental data are from échelle high-resolution (λ/Δλ = 60 000) spectroscopy of hollow cathode lamps obtained with the Catania Astrophysical Observatory Spectropolarimeter covering the 3700–10 000 Å range in a single exposure. A total of about 7700 spectral lines with energy level classification not previously listed in the NIST, Kurucz, and VALD data bases are here reported for neutral and singly ionized atomic transitions. For the spectral lines of any species, we report the measured wavelengths and their relative intensities. If possible, we also estimate the transition probabilities under the assumptions of optically thin emission and electric-dipole transitions. These are converted into oscillator strengths ready to be inserted in astrophysical data bases for spectral synthesis. [ABSTRACT FROM AUTHOR]

Published

2024

173. The complex stellar system M 22: constraining the chemical enrichment from AGB stars using magnesium isotope ratios.

Author

McKenzie, M, Yong, D, Karakas, A I, Wang, E, Monty, S, Marino, A F, Milone, A P, Nordlander, T, Mura-Guzmán, A, Martell, S, and Carlos, M

Subjects

*MAGNESIUM isotopes, *ASYMPTOTIC giant branch stars, *NEUTRON capture, *STAR clusters, *HEAVY elements

Abstract

The complex star cluster M 22 (NGC 6656) provides a unique opportunity for studying the slow neutron capture (s -)process nucleosynthesis at low metallicity due to its two stellar groups with distinct iron-peak and neutron capture element abundances. Previous studies attribute these abundance differences to pollution from |$3-6 \ \rm {M}_{\odot }$| asymptotic giant branch (AGB) stars which produce significant quantities of the neutron-rich Mg isotopes 25Mg and 26Mg. We report the first-ever measurements of Mg isotopic abundance ratios at |$\rm {[Fe/H]} \ \sim -2$| in a globular cluster-like system using very high-resolution and signal-to-noise spectra (R = 110 000, S/N  = 300 per pixel at 514 nm) from the VLT/UVES spectrograph for six stars; three in each s -process group. Despite the presence of star-to-star variations in 24Mg, 25Mg, and 26Mg, we find no correlation with heavy element abundances, implying that the nucleosynthetic source of s -process enrichment must not influence Mg isotope ratios. Instead, a key result of this work is that we identify correlations between 26Mg/24Mg and some light elements. Using a custom suite of AGB nucleosynthesis yields tailored to the metallicity of M 22, we find that low mass (⁠|$\sim 1 \rm {-} 3 \ \rm {M}_{\odot }$|⁠) AGB stars are capable of reproducing the observed s -process abundances of M 22 and that the absence of any difference in Mg isotope ratios between the two s -process groups precludes AGBs with masses above |$\sim 3 \ \rm {M}_{\odot }$|⁠. This places tighter constraints on possible formation scenarios and suggests an age difference of at least |$\sim 280 \rm {-} 480 \ \rm {Myr}$| between the two populations which is independent of isochrone fitting. [ABSTRACT FROM AUTHOR]

Published

2024

174. Structures Of Dust and gAs (SODA): Constraining the innermost dust properties of II Zw96 with JWST observations of H2O and CO.

Author

García-Bernete, I., Pereira-Santaella, M., González-Alfonso, E., Rigopoulou, D., Efstathiou, A., Donnan, F. R., and Thatte, N.

Subjects

*ACTIVE galactic nuclei, *DUST, *POLYCYCLIC aromatic hydrocarbons, *MOLECULAR spectra, *TORUS

Abstract

We analyze JWST NIRSpec+MIRI/MRS observations of the infrared (IR) gas-phase molecular bands of the most enshrouded source (D1) within the interacting system and luminous IR galaxy II Zw 096. We report the detection of rovibrational lines of H2O ν2 = 1 − 0 (∼5.3–7.2 μm) and 12CO ν = 1 − 0 (∼4.45–4.95 μm) in D1. The CO band shows the R- and P-branches in emission and the spectrum of the H2O band shows the P-branch in emission and the R-branch in absorption. The H2O R-branch in absorption unveils an IR-bright embedded compact source in D1 and the CO broad component features a highly turbulent environment. From both bands, we also identified extended intense star-forming (SF) activity associated with circumnuclear photodissociation regions (PDRs), consistent with the strong emission of the ionised 7.7 μm polycyclic aromatic hydrocarbon band in this source. By including the 4.5–7.0 μm continuum information derived from the H2O and CO analysis, we modelled the IR emission of D1 with a dusty torus and SF component. The torus is very compact (diameter of ∼3 pc at 5 μm) and characterised by warm dust (∼370 K), giving an IR surface brightness of ∼3.6 × 108 L⊙ pc−2. This result suggests the presence of a dust-obscured active galactic nucleus (AGN) in D1, which has an exceptionally high covering factor that prevents the direct detection of AGN emission. Our results open a new way to investigate the physical conditions of inner dusty tori via modelling the observed IR molecular bands. [ABSTRACT FROM AUTHOR]

Published

2024

175. A dynamic view of V Hydrae: Monitoring of a spectroscopic-binary AGB star with an alkaline jet.

Author

Planquart, L., Jorissen, A., Escorza, A., Verhamme, O., and Van Winckel, H.

Subjects

*ASYMPTOTIC giant branch stars, *PLANETARY nebulae, *LIGHT curves, *VARIABLE stars, *ORBITS (Astronomy)

Abstract

Context. The well studied carbon star V Hydrae is known to exhibit a complex asymmetric environment made of a dense equatorial wind and high-velocity outflows, hinting at its transition from the AGB phase to the asymmetric planetary nebula phase. In addition, V Hydrae also exhibits a long secondary period of 17 yr in its light curve, suggesting the presence of a binary companion that could shape the circumstellar environment. Aims. In this paper, we aim to confirm the binary nature of V Hydrae by deriving its orbital parameters and investigating the effect of the orbital motion on the circumbinary environment. Methods. In a first step, we used a radial-velocity monitoring performed with the HERMES spectrograph to disentangle the pulsation signal of the AGB from its orbital motion and to obtain the spectroscopic orbit. We combined the spectroscopic results with astrometric information to get the complete set of orbital parameters, including the system inclination. Next, we reported the time variations of the sodium and potassium resonance doublets. Finally, following the methods used for post-AGB stars, we carried out spatio-kinematic modelling of a conical jet to reproduce the observed spectral-line modulation. Results. We found the orbital solution of V Hydrae for a period of 17 yr. We correlated the companion passage across the line of sight with the obscuration event and the blue-shifted absorption of alkaline resonant lines. Those variations were modelled by a conical jet emitted from the companion, whose opening angle is wide and whose sky-projected orientation is found to be consistent with the axis of the large-scale bipolar outflow previously detected in the radio-emission lines of CO. Conclusions. We show that the periodic variation seen for V Hydrae is likely to be due to orbital motion. The presence of a conical jet offers a coherent model to explain the various features of V Hydrae environment. [ABSTRACT FROM AUTHOR]

Published

2024

176. First spectroscopic investigation of anomalous Cepheid variables.

Author

Ripepi, V., Catanzaro, G., Trentin, E., Straniero, O., Mucciarelli, A., Marconi, M., Bhardwaj, A., Fiorentino, G., Monelli, M., Storm, J., De Somma, G., Leccia, S., Molinaro, R., Musella, I., and Sicignano, T.

Subjects

*CEPHEIDS, *LOW mass stars, *GALACTIC halos, *STELLAR evolution, *GLOBULAR clusters

Abstract

Context. Anomalous Cepheids (ACEPs) are intermediate-mass metal-poor pulsators that are mostly discovered in dwarf galaxies of the Local Group. However, recent Galactic surveys, including the Gaia Data Release 3, found a few hundred ACEPs in the Milky Way. Their origin is only poorly understood. Aims. We aim to investigate the origin and evolution of Galactic ACEPs by studying the chemical composition of their atmospheres for the first time. Methods. We used UVES at the Very Large Telescope to obtain high-resolution spectra for a sample of nine ACEPs belonging to the Galactic halo. We derived the abundances of 12 elements, C, Na, Mg, Si, Ca, Sc, Ti, Cr, Fe, Ni, Y, and Ba. We complemented these data with literature abundances from high-resolution spectroscopy for an additional three ACEPs that were previously incorrectly classified as type II Cepheids. This increased the sample to a total of 12 stars. Results. All the investigated ACEPs have an iron abundance [Fe/H] < −1.5 dex, as expected from theoretical predictions for these pulsators. The abundance ratios of the different elements to iron show that the chemical composition of ACEPs is generally consistent with that of the Galactic halo field stars, with the exception of sodium, which is found to be overabundant in 9 out of the 11 ACEPs where it was measured. This is very similar to the situation for second-generation stars in Galactic globular clusters. The same comparison with dwarf and ultra-faint satellites of the Milky Way reveals more differences than similarities. It is therefore unlikely that the bulk of Galactic ACEPs originated in a galaxy like this that subsequently dissolved into the Galactic halo. The principal finding of this work is the unexpected overabundance of sodium in ACEPs. We explored several hypotheses to explain this feature, finding that the most promising scenario is the evolution of low-mass stars in a binary system with either mass transfer or merging. Detailed modelling is needed to confirm this hypothesis. [ABSTRACT FROM AUTHOR]

Published

2024

177. Confirmation of TiO absorption and tentative detection of MgH and CrH in the atmosphere of HAT-P-41b.

Author

Jiang, C., Chen, G., Murgas, F., Pallé, E., Parviainen, H., and Ma, Y.

Subjects

*ATMOSPHERE of Jupiter, *HOT Jupiters, *UPPER atmosphere, *NATURAL satellite atmospheres, *LIGHT transmission

Abstract

Understanding the role of optical absorbers is critical for linking the properties of the dayside and terminator atmospheres of hot Jupiters. This study aims to identify the signatures of optical absorbers in the atmosphere of the hot Jupiter HAT-P-41b. We conducted five transit observations of this planet to obtain its optical transmission spectra using the Gran Telescopio Canarias (GTC). We performed atmospheric retrievals assuming free abundances of 12 chemical species. Our Bayesian model comparisons revealed strong evidence for TiO absorption (∆ ln 풵 = 21.02), modest evidence for CrH (∆ ln 풵 = 3.73), and weak evidence for MgH (∆ ln 풵 = 2.32). When we combined the GTC transmission spectrum with previously published Hubble Space Telescope and Spitzer data, the retrieval results and model inferences remained consistent. In conclusion, HAT-P-41b has a metal-rich atmosphere with no high-altitude clouds or hazes. Further observations of its dayside atmosphere should be made to confirm the hints of a thermal inversion in the upper atmosphere suggested by our results. [ABSTRACT FROM AUTHOR]

Published

2024

178. Abundance of strontium in the Galactic globular cluster 47 Tuc.

Author

Kolomiecas, E., Kučinskas, A., Klevas, J., and Dobrovolskas, V.

Subjects

*OPEN clusters of stars, *GLOBULAR clusters, *ASYMPTOTIC giant branch stars, *LOCAL thermodynamic equilibrium, *STRONTIUM, *COOL stars (Astronomy)

Abstract

Aims. We have determined Sr abundance in a sample of 31 red giant branch stars located in the Galactic globular cluster 47 Tuc with the aim to identify potential differences in the Sr abundance between first population (1P, Na-poor) and second population (2P, Na-rich) stars. Methods. We derived the Na and Sr abundances from the archival spectra obtained with the UVES spectrograph. To do this, we used 1D ATLAS9 model atmospheres and a 1D local thermodynamic equilibrium spectral synthesis method. Particular attention was paid to assessing the potential impact of CN line blending on the obtained Sr abundances. Furthermore, we evaluated the potential influence of convection on the Sr line formation by using 3D hydrodynamical model atmospheres computed with the CO5BOLD code. Results. Our results suggest a weak correlation between the abundances of Sr and Na. Together with a similar correlation between the abundances of Zr and Na determined in our previous study, our analysis of Sr suggests that polluters that have enriched 2P stars with light elements may have produced some s-process elements as well. The mean Sr abundance determined in 31 red giant branch stars of 47 Tuc is ⟨[Sr/Fe]⟩ = 0.18 ± 0.08 (the error denotes the standard deviation due to the star-to-star abundance scatter). This value is within the range of the Sr abundance variation that is observed in Galactic field stars of similar metallicity. The mean [Sr/Zr] abundance ratio in our sample stars suggests that the two s-process elements could have been synthesized by either low-mass asymptotic giant branch stars (M = 1 − 4 M⊙) or massive (M = 10 − 20 M⊙) fast-rotating (vrot = 200 − 300 km s−1) stars. [ABSTRACT FROM AUTHOR]

Published

2024

179. A comparative study of two X2.2 and X9.3 solar flares observed with HARPS-N: Reconciling Sun-as-a-star spectroscopy and high-spatial resolution solar observations in the context of the solar-stellar connection.

Author

Pietrow, A. G. M., Cretignier, M., Druett, M. K., Alvarado-Gómez, J. D., Hofmeister, S. J., Verma, M., Kamlah, R., Baratella, M., Amazo-Gómez, E. M., Kontogiannis, I., Dineva, E., Warmuth, A., Denker, C., Poppenhaeger, K., Andriienko, O., Dumusque, X., and Löfdahl, M. G.

Subjects

*SOLAR flares, *SOLAR telescopes, *HELIOSEISMOLOGY, *SPECTRAL lines, *SPECTROMETRY

Abstract

Context. Stellar flares cannot be spatially resolved, which complicates ascertaining the physical processes behind particular spectral signatures. Due to their proximity to Earth, solar flares can serve as a stepping stone for understanding their stellar counterparts, especially when using a Sun-as-a-star instrument and in combination with spatially resolved observations. Aims. We aim to understand the disk-integrated spectral behaviors of a confined X2.2 flare and its eruptive X9.3 successor, which had energies of 2.2 × 1031 erg and 9.3 × 1031 erg, respectively, as measured by Sun-as-a-star observations with the High Accuracy Radial velocity Planet Searcher for the Northern hemisphere (HARPS-N). Methods. The behavior of multiple photospheric (Na D1 & D2, Mg I at 5173 Å, Fe I at 6173 Å, and Mn I at 4031 Å) and chromospheric (Ca II H & K, Hα, Hβ, and He ID3) spectral lines were investigated by means of activity indices and contrast profiles. A number of different photospheric lines were also investigated by means of equivalent widths, and radial velocity measures, which were then related to physical processes directly observed in high-resolution observations made with the Swedish 1-m Solar Telescope (SST) and the Atmospheric Imaging Assembly (AIA) on board of the Solar Dynamics Observatory (SDO). Results. Our findings suggest a relationship between the evolving shapes of contrast profile time and the flare locations, which assists in constraining flare locations in disk-integrated observations. In addition, an upward bias was found in flare statistics based on activity indices derived from the Ca II H & K lines. In this case, much smaller flares cause a similar increase in the activity index as that produced by larger flares. Hα-based activity indices do not show this bias and are therefore less susceptible to activity jitter. Sodium line profiles show a strongly asymmetric response during flare activity, which is best captured with a newly defined asymmetrical sodium activity index. A strong flare response was detected in Mn I line profiles, which is unexpected and calls for further exploration. Intensity increases in Hα, Hβ, and certain spectral windows of AIA before the flare onset suggest their potential use as short-term flare predictors. [ABSTRACT FROM AUTHOR]

Published

2024

180. β Pictoris b through the eyes of the upgraded CRIRES+: Atmospheric composition, spin rotation, and radial velocity.

Author

Landman, R., Stolker, T., Snellen, I. A. G., Costes, J., de Regt, S., Zhang, Y., Gandhi, S., Molliere, P., Kesseli, A., Vigan, A., and Sanchez-López, A.

Subjects

*ATMOSPHERIC composition, *ROTATIONAL motion, *PLANETARY atmospheres, *ADAPTIVE optics, *VELOCITY

Abstract

Context. High-resolution spectrographs fed by adaptive optics (AO) provide a unique opportunity to characterize directly imaged exoplanets. Observations with such instruments allow us to probe the atmospheric composition, spin rotation, and radial velocity of the planet, thereby helping to reveal information on its formation and migration history. The recent upgrade of the Cryogenic High-Resolution Infrared Echelle Spectrograph (CRIRES+) at the VLT makes it a highly suitable instrument for characterizing directly imaged exoplanets. Aims. In this work, we report on observations of β Pictoris b with CRIRES+ and use them to constrain the planets atmospheric properties and update the estimation of its spin rotation. Methods. The data were reduced using the open-source pycrires package. We subsequently forward-modeled the stellar, planetary, and systematic contribution to the data to detect molecules in the planet's atmosphere. We also used atmospheric retrievals to provide new constraints on its atmosphere. Results. We confidently detected water and carbon monoxide in the atmosphere of β Pictoris b and retrieved a slightly sub-solar carbon-to-oxygen ratio, which is in agreement with previous results. The interpretation is hampered by our limited knowledge of the C/O ratio of the host star. We also obtained a much improved constraint on its spin rotation of 19.9 ± 1.0 kms−1, which gives a rotation period of 8.7 ± 0.8 h, assuming no obliquity. We find that there is a degeneracy between the metallicity and clouds, but this has minimal impact on the retrieved C/O, υ sin i, and radial velocity. Our results show that CRIRES+ is performing well and stands as a highly useful instrument for characterizing directly imaged planets. [ABSTRACT FROM AUTHOR]

Published

2024

181. Classification and parameterization of a large Gaia sample of white dwarfs using XP spectra.

Author

Vincent, O., Barstow, M. A., Jordan, S., Mander, C., Bergeron, P., and Dufour, P.

Subjects

*WHITE dwarf stars, *DATA release, *PARAMETERIZATION, *CLASSIFICATION

Abstract

Context. The latest Gaia data release in July 2022, DR3, in addition to the refinement of the astrometric and photometric parameters from DR2, added a number of important data products to those available in earlier releases, including radial velocity data, information on stellar multiplicity, and XP spectra of a selected sample of stars. Gaia has proved to be an important search tool for white dwarf stars, which are readily identifiable from their absolute G magnitudes as low luminosity objects in the Hertzsprung–Russell (H–R) diagram. Each data release has yielded large catalogs of white dwarfs, containing several hundred thousand objects, far in excess of the numbers known from all previous surveys (∼40 000). While the normal Gaia photometry (G, GBP, and GRP bands) and astrometry can be used to identify white dwarfs with high confidence, it is much more difficult to parameterize the stars and determine the white dwarf spectral type from this information alone. Observing all stars in these catalogs with follow-up spectroscopy and photometry is also a huge logistical challenge with current facilities. Aims. The availability of the XP spectra and synthetic photometry presents an opportunity for a more detailed spectral classification and measurement of the effective temperature and surface gravity of Gaia white dwarfs. Methods. A magnitude limit of G < 17.6 was applied to the routine production of XP spectra for Gaia sources, which would have excluded most white dwarfs. Therefore, we created a catalog of 100 000 high-quality white dwarf identifications for which XP spectra were processed, with a magnitude limit of G < 20.5. Synthetic photometry was computed for all these stars, from the XP spectra, in Johnson, SDSS, and J-PAS, published as the Gaia Synthetic Photometry Catalog – White Dwarfs (GSPC-WD). We took this catalog and applied machine learning techniques to provide a classification of all the stars from the XP spectra. We have then applied an automated spectral fitting program, with χ-squared minimization, to measure their physical parameters (effective temperature and log g) from which we could estimate the white dwarf masses and radii. Results. We present the results of this work, demonstrating the power of being able to classify and parameterize such a large sample of ≈100 000 stars. We describe what we can learn about the white dwarf population from this dataset. We also explored the uncertainties in the process and the limitations of the dataset. [ABSTRACT FROM AUTHOR]

Published

2024

182. Comparative clustering analysis of Ca II 854.2 nm spectral profiles from simulations and observations.

Author

Moe, Thore E., Pereira, Tiago M. D., van der Voort, Luc Rouppe, Carlsson, Mats, Hansteen, Viggo, Calvo, Flavio, and Leenaarts, Jorrit

Subjects

*CLUSTER analysis (Statistics), *SOLAR atmosphere, *SOLAR telescopes, *SPECTRAL lines, *COMPARATIVE studies

Abstract

Context. Synthetic spectra from 3D models of the solar atmosphere have become increasingly successful at reproducing observations, but there are still some outstanding discrepancies for chromospheric spectral lines, such as Ca II and Mg II, particularly regarding the width of the line cores. It has been demonstrated that using sufficiently high spatial resolution in the simulations significantly diminishes the differences in width between the mean spectra in observations and simulations, but a detailed investigation into how this impacts subgroups of individual profiles is currently lacking. Aims. We compare and contrast the typical shapes of synthetic Ca II 854.2 nm spectra found in Bifrost simulations having different magnetic activity with the spectral shapes found in a quiet-Sun observation from the Swedish 1-m Solar Telescope (SST). Methods. We used clustering techniques to extract the typical Ca II 854.2 nm profile shapes synthesized from Bifrost simulations with varying amounts of magnetic activity. We degraded the synthetic profiles to observational conditions and repeated the clustering, and we compared our synthetic results with actual observations. Subsequently, we examined the atmospheric structures in our models for some select sets of clusters, with the intention of uncovering why they do or do not resemble actual observations. Results. While the mean spectra for our high resolution simulations compare reasonably well with the observations, we find that there are considerable differences between the clusters of observed and synthetic intensity profiles, even after the synthetic profiles have been degraded to match observational conditions. The typical absorption profiles from the simulations are both narrower and display a steeper transition from the inner wings to the line core. Furthermore, even in our most quiescent simulation, we find a far larger fraction of profiles with local emission around the core, or other exotic profile shapes, than in the quiet-Sun observations. Looking into the atmospheric structure for a selected set of synthetic clusters, we find distinct differences in the temperature stratification for the clusters most and least similar to the observations. The narrow and steep profiles are associated with either weak gradients in temperature or temperatures rising to a local maximum in the line wing forming region before sinking to a minimum in the line core forming region. The profiles that display less steep transitions show extended temperature gradients that are steeper in the range−3 ≲ log τ5000 ≲ −1. [ABSTRACT FROM AUTHOR]

Published

2024

183. Compositional characterization of a primordial S-type asteroid family of the inner main belt.

Author

Bourdelle de Micas, J., Fornasier, S., Delbo, M., Ferrone, S., van Belle, G., Ochner, P., and Avdellidou, C.

Subjects

*FAMILY size, *ASTEROIDS, *OPTICAL spectroscopy, *SOLAR system, *NEAR infrared spectroscopy

Abstract

Context. Recently, a primordial family of moderate-albedo asteroid fragments was discovered in the inner main belt. Its age was estimated to be 4.4 ± 1.7 Gyr. However, there is a lack of compositional characterization, which is important to the study of the earliest collisions in the main belt. Aims. In addition to the previously identified members and the parameters that define the family's borders (V shape), we expanded the list of family members to include asteroids located within the central region of the V shape. These additional potential members were selected based on their diameter (larger than 7 km) and their geometric visible albedo (greater than or equal to 12%). Subsequently, we conducted a spectroscopic survey to determine the dominant taxonomy and composition of this family. This allowed us to further refine the list of family members by removing interlopers. Methods. From an initial list of 263 asteroids that are considered to be potential members of the aforementioned primordial family, we retrieved their spectra in the visible and near-infrared range from the literature and from the Gala DR3 spectral catalog of Solar System objects. For asteroids with no or poor signal-to-noise ratio spectra in the literature, we carried out new ground-based observations. We obtained new spectra for 33 members of the family using the 1.82 m Asiago Telescope for the visible spectroscopy, while for near-infrared spectroscopy, we used the 3.58 m Telescopio Nazionale Galileo (TNG) and the 4.30 m Lowell Discovery Telescope (LDT). Results. In total, we collected spectra for 261 potential members of the primordial S-type family out of 263. We determined their spectral taxonomy and properties, such as spectral slopes and absorption band parameters, when existing. Using the taxonomical characterization and the orbital space parameters, we identified and removed 71 interlopers from the potential members list. The final list of the primordial S-type family members includes 190 asteroids. The family is dominated by S-complex (~71%) asteroids with a mineralogy similar to ordinary chondrites and pyroxene-rich minerals. The family also contains members classified as L-types and V-types. (~15% and ~9%, respectively). Conclusions. The mean albedo of the family is ~23%, and its largest probable remnant is the asteroid (30) Urania. The estimated size of the family parent body ranges between 110 and 210 km. This size range is compatible with the progenitor of H and L chondrites. [ABSTRACT FROM AUTHOR]

Published

2024

184. Homogeneous fine classification of Markarian galaxies based on SDSS medium-resolution spectroscopy.

Author

Mickaelian, A. M., Abrahamyan, H. V., Mikayelyan, G. A., and Paronyan, G. M.

Subjects

*CLASSIFICATION of galaxies, *ACTIVE galactic nuclei, *DWARF galaxies, *GALAXY spectra, *ASTRONOMICAL surveys

Abstract

Context. Markarian (Mrk) galaxies, revealed due to their ultraviolet excess are very famous; they play a significant role in many astro-physical problems and come in a variety of types: Seyferts (Sys), low-ionization narrow emission-line regions (LINERs), starbursts (SBs), blue compact dwarf galaxies (BCDGs), as well as some quasars (QSOs) and blazars. They also appear as sources of non-optical radiation, such as gamma-ray, X-ray, ultraviolet (UV), infrared (IR), and radio, including some extremely high-energy gamma-ray sources (Mrk 421, Mrk 501) and very high-luminosity IR galaxies (Mrk 231). Aims. The classifications of Mrk galaxies for activity types have been carried out based on old mostly poor-quality and inhomoge-neous spectra (relatively low-resolution photographic spectra and low S/N spectra). The Sloan Digital Sky Surveys (SDSS) provides ~90% of the existing medium-resolution spectra, and is a relevant homogeneous database for classification of galaxies. Our aim was to obtain homogeneous classifications of Mrk galaxies by means of the SDSS spectra. Methods. Based on our work on the classification of newly revealed objects from various recent catalogs, we developed a fine classification scheme for activity types based on the homogeneous database of the SDSS spectroscopy. This scheme was applied to Mrk galaxies having spectra in the SDSS (779 out of 1544, 50.45%). Results. As a result, 779 Mrk galaxies now have homogeneous optical spectral classification that can be used for further studies and statistics of their physical and spatial properties. We revealed 2 QSOs, 49 classical Seyferts (broad-line Seyferts 1, BLS1s), 17 narrow-line Seyferts 1 (NLS1s), 4 Sy2s, 12 LINERs, 11 active galactic nuclei (AGN) without a definite type, 31 Composite spectrum objects, and 533 HII/Starbursts. Due to low-quality spectra, some objects were left without definite activity types and were classified as emission or absorption galaxies. [ABSTRACT FROM AUTHOR]

Published

2024

185. Beyond Gaia DR3: Tracing the [α/M] – [M/H] bimodality from the inner to the outer Milky Way disc with Gaia-RVS and convolutional neural networks.

Author

Guiglion, G., Nepal, S., Chiappini, C., Khoperskov, S., Traven, G., Queiroz, A. B. A., Steinmetz, M., Valentini, M., Fournier, Y., Vallenari, A., Youakim, K., Bergemann, M., Mészáros, S., Lucatello, S., Sordo, R., Fabbro, S., Minchev, I., Tautvaišienė, G., Mikolaitis, Š., and Montalbán, J.

Subjects

*CONVOLUTIONAL neural networks, *MILKY Way, *STARS, *STELLAR spectra, *MACHINE learning

Abstract

Context. In June 2022, Gaia DR3 provided the astronomy community with about one million spectra from the Radial Velocity Spectrometer (RVS) covering the CaII triplet region. In the next Gaia data releases, we anticipate the number of RVS spectra to successively increase from several 10 million spectra to eventually more than 200 million spectra. Thus, stellar spectra are projected to be produced on an 'industrial scale', with numbers well above those for current and anticipated ground-based surveys. However, one-third of the published spectra have 15 ≤ S /N ≤ 25 per pixel such that they pose problems for classical spectral analysis pipelines, and therefore, alternative ways to tap into these large datasets need to be devised. Aims. We aim to leverage the versatility and capabilities of machine learning techniques for supercharged stellar parametrisation by combining Gaia-RVS spectra with the full set of Gaia products and high-resolution, high-quality ground-based spectroscopic reference datasets. Methods. We developed a hybrid convolutional neural network (CNN) that combines the Gaia DR3 RVS spectra, photometry (G, G_BP, G_RP), parallaxes, and XP coefficients to derive atmospheric parameters (Teff, log(g) as well as overall [M/H]) and chemical abundances ([Fe/H] and [α/M]). We trained the CNN with a high-quality training sample based on APOGEE DR17 labels. Results. With this CNN, we derived homogeneous atmospheric parameters and abundances for 886 080 RVS stars that show remarkable precision and accuracy compared to external datasets (such as GALAH and asteroseismology). The CNN is robust against noise in the RVS data, and we derive very precise labels down to S/N =15. We managed to characterise the [α/M] - [M/H] bimodality from the inner regions to the outer parts of the Milky Way, which has never been done using RVS spectra or similar datasets. Conclusions. This work is the first to combine machine learning with such diverse datasets and paves the way for large-scale machine learning analysis of Gaia-RVS spectra from future data releases. Large, high-quality datasets can be optimally combined thanks to the CNN, thereby realising the full power of spectroscopy, astrometry, and photometry. [ABSTRACT FROM AUTHOR]

Published

2024

186. An ESPRESSO view of the HD 189733 system: Broadband transmission spectrum, differential rotation, and system architecture.

Author

Cristo, E., Esparza Borges, E., Santos, N. C., Demangeon, O., Palle, E., Psaridi, A., Bourrier, V., Faria, J. P., Allart, R., Azevedo Silva, T., Borsa, F., Alibert, Y., Figueira, P., González Hernández, J. I., Lendl, M., Lillo-Box, J., Lo Curto, G., Di Marcantonio, P., Martins, C. J. A. P., and Nunes, N. J.

Subjects

*ROTATIONAL motion, *ESPRESSO, *PLANETARY atmospheres, *SOLAR system, *NATURAL satellite atmospheres

Abstract

Context. The development of state-of-the-art spectrographs has ushered in a new era in the detection and characterization of exoplanetary systems. The astrophysical community now has the ability to gain detailed insights into the composition of atmospheres of planets outside our Solar System. In light of these advancements, several new methods have been developed to probe exoplanetary atmospheres using both broadband and narrowband techniques. Aims. Our objective is to utilize the high-resolution and precision capabilities of the ESPRESSO instrument to detect and measure the broadband transmission spectrum of HD 189733b's atmosphere. Additionally, we aim to employ an improved Rossiter–McLaughlin (RM) model to derive properties related to the velocity fields of the stellar surface and to constrain the orbital architecture. Methods. The RM effect, which strongly depends on a planet's radius, offers a precise means of measurement. To this end, we divided the observation range of ESPRESSO into wavelength bins, enabling the computation of radial velocities as a function of wavelength. By employing a robust model of the RM effect, we first determined the system's color-independent properties across the entire spectral range of observations. Subsequently, we measured the planet's radius from the radial velocities obtained within each wavelength bin, allowing us to extract the exoplanet's transmission spectrum. Additionally, we employed a retrieval algorithm to fit the transmission spectrum and study the atmospheric properties. Results. Our results demonstrate a high degree of precision in fitting the radial velocities observed during transit using the improved modeling of the RM effect. We tentatively detect the effect of differential rotation, with a confidence level of 93.4% when considering a rotation period within the photometric literature values, and 99.6% for a broader range of rotation periods. For the former, the amplitude of the differential rotation ratio suggests an equatorial rotation period of 11.45 ± 0.09 days and a polar period of 14.9 ± 2. The addition of differential rotation breaks the latitudinal symmetry, enabling us to measure the true spin-orbit angle, ψ ≈ 13.6 ± 6.9°, and the stellar inclination axis angle, i* ≈ 71.87−5.55°+6.91°. Moreover, we determine a sub-solar amplitude of the convective blueshift velocity, VCB ≈ −211−61+69 m s−1, which falls within the expected range for a K-dwarf host star and is compatible with both runs. Finally, we successfully retrieved the transmission spectrum of HD 189733b from the high-resolution ESPRESSO data. We observe a significant decrease in radius with increasing wavelength, consistent with the phenomenon of super-Rayleigh scattering. [ABSTRACT FROM AUTHOR]

Published

2024

187. Accurate and experimentally validated transition data for Si I and Si II.

Author

Pehlivan Rhodin, A., Hartman, H., Nilsson, H., and Jönsson, P.

Subjects

*GLOW discharges, *FOURIER transform spectrometers, *OSCILLATOR strengths, *ELECTRON configuration, *ATOMIC structure

Abstract

Aims. The aim of this study is to provide radiative data for neutral and singly ionised silicon, in particular for the first experimental oscillator strengths for near-infrared Si I lines. In addition, we aim to perform atomic structure calculations both for neutral and singly ionised silicon while including lines from highly excited levels. Methods. We performed large-scale atomic structure calculations with the relativistic multiconfiguration Dirac-Hartree-Fock method using the GRASP2K package to determine log(푔ƒ) values of Si I and Si II lines, taking into account valence-valence and core-valence electron correlation. In addition, we derived oscillator strengths of near-infrared Si I lines by combining the experimental branching fractions with radiative lifetimes from our calculations. The silicon plasma was obtained from a hollow cathode discharge lamp, and the intensity-calibrated high-resolution spectra between 1037 and 2655 nm were recorded by a Fourier transform spectrometer. Results. We provide an extensive set of accurate experimental and theoretical log(푔ƒ) values. For the first time, we derived 17 log(푔ƒ) values of Si I lines in the infrared from experimental measurements. We report data for 1500 Si I lines and 500 Si II lines. The experimental uncertainties of our ƒ-values vary between 5% for the strong lines and 25% for the weak lines. The theoretical log(푔ƒ) values for Si I lines in the range 161 nm to 6340 nm agree very well with the experimental values of this study and complete the missing transitions involving levels up to 3s23p7s (61 970 cm−1). In addition, we provide accurate calculated log(푔ƒ) values of Si II lines from the levels up to 3s27f (122 483 cm−1) in the range 81 nm to 7324 nm. [ABSTRACT FROM AUTHOR]

Published

2024

188. Search for the wide-orbit massive companion of XO-7b in the follow-up radial-velocity and transit-timing data: no significant clues.

Author

Garai, Z, Pribulla, T, and Komžík, R

Subjects

*HOT Jupiters, *NATURAL satellites

Abstract

XO-7b is a hot Jupiter transiting a V  = 10.52 mag G0V-type star. The planetary system is interesting because the linear slope in the discovery radial-velocity (RV) data indicated a wide-orbit massive companion. In 2020 we started an RV campaign for the system with the main scientific goal to follow-up this linear slope, and to put constraints on the orbital period of the companion. Furthermore, we aimed at refining the system parameters and we wanted to probe transit time variations (TTVs) of XO-7b in order to search for long-term dynamical signs of the companion of XO-7b in the observed-minus-calculated (O-C) data of mid-transit times. Apart from the discovery RVs, we obtained and analysed 20 follow-up RV observations and TESS photometric data. The previously observed significant linear RV slope was not confirmed with the follow-up RV data, where we detected only a marginal linear slope with the opposite trend. If the announced companion really exists, the most convincing explanation is that both RV data sets were collected near its quadrature position. Based on the RVs we estimated the minimum orbital period, which is P orb, min, 3 ≳ 7900 ± 1660 d, and the 'minimum' minimum mass of the companion, which is (M 3sin  i)min = 16.7 ± 3.5 MJup. We did not find significant evidence of the companion of XO-7b in the O-C data set of mid-transit times. We can again conclude that if the announced companion really exists, this is in agreement with previous results that distant companions of exoplanets are only known by RV solutions. [ABSTRACT FROM AUTHOR]

Published

2024

189. Spectropolarimetry of the Type IIP supernova 2021yja: an unusually high continuum polarization during the photospheric phase.

Author

Vasylyev, Sergiy S, 轶), Yi Yang (杨, Patra, Kishore C, Filippenko, Alexei V, Baade, Dietrich, Brink, Thomas G, Hoeflich, Peter, Maund, Justyn R, Patat, Ferdinando, Wang, Lifan, Wheeler, J Craig, and Zheng, WeiKang

Subjects

*SUPERNOVAE, *BREWSTER'S angle, *LINEAR polarization, *POLARIMETRY

Abstract

We present six epochs of optical spectropolarimetry of the Type IIP supernova (SN) 2021yja ranging from ∼25 to 95 d after the explosion. An unusually high continuum linear polarization of |$p \approx 0.9~{{\ \rm per\ cent}}$| is measured during the early photospheric phase, followed by a steady decrease well before the onset of the nebular phase. This behaviour has not been observed before in Type IIP supernovae (SNe IIP). The observed continuum polarization angle does not change significantly during the photospheric phase. We find a pronounced axis of symmetry in the global ejecta that is shared in common with the Hα and Ca  ii near-infrared triplet lines. These observations are consistent with an ellipsoidal geometry. The temporal evolution of the continuum polarization is also compatible with the SN ejecta interacting with aspherical circumstellar matter (CSM), although no spectroscopic features that may be associated with strong interaction can be identified. Alternatively, we consider the source of the high polarization to be an extended hydrogen envelope that is indistinguishable from low-density CSM. [ABSTRACT FROM AUTHOR]

Published

2024

190. Stellar surface information from the Ca ii H&K lines – I. Intensity profiles of the solar activity components.

Author

Cretignier, M, Pietrow, A G M, and Aigrain, S

Subjects

*SOLAR activity, *STELLAR activity, *SOLAR cycle, *HABITABLE planets, *STELLAR chromospheres, *MOLECULAR spectra, *BENZENESULFONAMIDES

Abstract

The detection of Earth-like planets with the radial-velocity (RV) method is currently limited by the presence of stellar activity signatures. On rotational time-scales, spots and plages (or faculae) are known to introduce different RV signals, but their corrections require better activity proxies. The best-known chromospheric activity proxies in the visible are the Ca ii H&K lines, but the physical quantities measured by their profiles need to be clarified. We first investigate resolved images of the Sun in order to better understand the spectrum of plages, spots, and the network using the Meudon spectroheliogram. We show that distinct line profiles are produced by plages, spots, and by the network component and we also derived the centre-to-limb variations of the three profiles. Some care is required to disentangle their contributions due to their similarities. By combining disc-integrated spectra from the ISS high-resolution spectrograph with SDO direct images of the Sun, we managed to extract a high-resolution emission spectrum of the different components, which tend to confirm the spectra extracted from the Meudon spectroheliogram datacubes. Similar results were obtained with the HARPS-N Sun-as-a-star spectra. We concluded using a three-component model that the temporal variation of the popular S index contains, on average for the 24th solar cycle: |$70\pm 12{{\ \rm per\ cent}}$| of plage, |$26\pm 12{{\ \rm per\ cent}}$| of network, and |$4\pm 4 {{\ \rm per\ cent}}$| of spots. This preliminary investigation suggests that a detailed study of the Ca ii H&K profiles may provide rich information about the filling factor and distribution of different types of active regions. [ABSTRACT FROM AUTHOR]

Published

2024

191. Using CHIRON spectroscopy to test the hypothesis of a precessing orbit for the WN4 star EZ CMa.

Author

Barclay, Krister D G, Rosu, Sophie, Richardson, Noel D, Chené, André-Nicolas, St-Louis, Nicole, Ignace, Richard, and Moffat, Anthony F J

Subjects

*STELLAR orbits, *SPECTROMETRY, *STELLAR rotation, *POLARIMETRY, *HYPOTHESIS, *PHOTOMETRY, *ASTRONOMICAL photometry

Abstract

The bright WN4 star EZ CMa exhibits a 3.77 d periodicity in photometry, spectroscopy, and polarimetry, but the variations in the measurements are not strictly phase-locked, exhibiting changes in reference times, amplitudes, and the shape of the variability happening over times as short as a few weeks. Recently, 137 d of contiguous, variable photometry from BRITE-constellation was interpreted as caused either by large-scale dense wind structures modulated by rotation, or by a fast-precessing binary having a slightly shorter 3.626 d orbital period and a fast apsidal motion rate of |$1315^\circ \, \text{yr}^{-1}$|⁠. We aim at testing the latter hypothesis through analysis of spectroscopy and focus on the N  v λ 4945 line. We derive an orbital solution for the system and reject the 3.626 d period to represent the variations in the radial velocities of EZ CMa. An orbital solution with an orbital period of 3.77 d was obtained but at the cost of an extremely high and thus improbable apsidal motion rate. Our best orbital solution yields a period of 3.751 ± 0.001 d with no apsidal motion. We place our results in the context of other variability studies and system properties. While we cannot fully reject the precessing binary model, we find that the corotating interaction region (CIR) hypothesis is better supported by these and other data through qualitative models of CIRs. [ABSTRACT FROM AUTHOR]

Published

2024

192. Methanol isotopologues as a probe for spatial and temporal variations of the electron-to-proton mass ratio.

Author

Vorotyntseva, J S, Kozlov, M G, and Levshakov, S A

Subjects

*ISOTOPOLOGUES, *SPATIAL variation, *PARTICLE physics, *PHYSICAL constants, *ASTRONOMICAL observations

Abstract

We present results on numerical calculations of the sensitivity coefficients, Q μ, of microwave molecular transitions in 13CH3OH and |${\rm CH_3\, ^{18}OH}$| to the hypothetical variation in the fundamental physical constant μ – the electron-to-proton mass ratio. The invariability of μ in time and space is one of the basic assumptions of the Standard Model of particle physics which can be tested at cosmological scales by means of astronomical observations in the Galaxy and external galaxies. Our calculations show that these two methanol isotopologues can be utilized for such tests since their microwave transitions from the frequency interval 1–100 GHz exhibit a large spread in Q μ values which span a range of −109 ≲ Q μ ≲ 78. We show that the thermal emission lines of 13CH3OH observed in the star-forming region NGC 6334I constrain the variability of μ at a level of 3 × 10−8 (1σ), which is in line with the most stringent upper limits obtained previously from observations of methanol (CH3OH) and other molecules in the Galaxy. [ABSTRACT FROM AUTHOR]

Published

2024

193. Study of the fastest classical nova, V1674 Her: photoionization and morpho-kinemetic model analysis.

Author

Habtie, Gesesew R, Das, Ramkrishna, Pandey, Ruchi, Ashok, N M, and Dubovsky, Pavol A

Subjects

*PHOTOIONIZATION, *NOVAE (Astronomy), *OPTICAL spectra

Abstract

We present the results of the investigation of the nova V1674 Her (2021), recognized as the swiftest classical nova, with t 2 ∼ 0.90 d. The distance to the nova is estimated to be 4.97 kpc. The mass and radius of the WD are calculated to be ∼1.36 M⊙ and ∼0.15  R ⊕, respectively. Over the course of 1 month following the outburst, V1674 Her traversed distinct phases – pre-maxima, early decline, nebular, and coronal – displaying a remarkably swift transformation. The nebular lines emerged on day 10 making it the classical nova with the earliest observed commencement to date. We modelled the observed optical spectrum using the photoionization code cloudy. From the best-fitting model we deduced different physical and chemical parameters associated with the system. The temperature and luminosity of the central ionizing sources are found in the range of 1.99–2.34 × 105 K and 1.26–3.16 × 1038  erg s−1, respectively. Elements such as He , O , N , and Ne  are found to be overabundant compared to solar abundance in both the nebular and coronal phases. According to the model, Fe  ii abundance diminishes while Ne abundance increases, potentially elucidating the rare hybrid transition between Fe and He/N nova classes. The ejected mass across all epochs spanned from 3.42 to 7.04 × 10−5 M⊙. Morpho-kinematic modelling utilizing shape revealed that the nova V1674 Her possesses a bipolar structure with an equatorial ring at the centre and an inclination angle of i = 67 ± 1.5°. [ABSTRACT FROM AUTHOR]

Published

2024

194. The open cluster NGC 2345: a study of chemical abundances with near-infrared IGRINS high-resolution spectra.

Author

Holanda, N, Roriz, M P, Drake, N A, Junqueira, S, Daflon, S, da Silva, J R P, and Pereira, C B

Subjects

*YTTERBIUM, *OPEN clusters of stars, *ATMOSPHERIC nitrogen, *STARS, *OPTICAL spectroscopy, *MILKY Way, *CHEMICAL species

Abstract

Open clusters are relatively young and numerous. These systems are distributed throughout the Galactic disc and provide insights on the chemistry of the Milky Way. In this study, we provide a near-infrared spectroscopic analysis of four stars of the young open cluster NGC 2345. Our infrared data present a resolving power of R ≈ 45 000, covering the H - and K -bands (1.5–2.5 μm), and high-signal-to-noise ratio, which are gathered with the Immersion Grating Infrared Spectrograph (IGRINS) at the Gemini Observatory. From atmospheric parameters previously derived via optical spectroscopy, we obtain abundances for C (12C16O), N (12C14N), O (16OH), F (H19F), Na, Mg, Al, Si, P, S, K, Ca, Sc, Ti, Cr, Fe, Ni, Ce, Nd, and Yb. Additionally, the 12C/13C (13C16O), 16O/17O (12C17O), and 16O/18O (12C18O) isotopic ratios are obtained. We compare the infrared results with a previous work based on optical spectral analysis, but chemical species such as F, S, P, K, and Yb are determined for the first time in stars of NGC 2345. We also confirm a low metallicity ([Fe/H]  =  −0.32 ± 0.04) and slight enrichment in s -process elements, as already noticed in works available in the literature, but we do not find any enrichment in F. Our results demonstrate excellent agreement between our measured isotopic ratios 12C/13C and 16C/17O and models of stellar nucleosynthesis, while we find that the abundance of 18O is overestimated in comparison to our measurements. Finally, we assess our findings in comparison to the chemical patterns observed in open clusters, classified by both their age and Galactocentric distances, and highlight the need for a more comprehensive sample of young clusters within the 9–11 kpc range for a proper comparison. [ABSTRACT FROM AUTHOR]

Published

2024

195. Detection of 12 426 SB2 candidates in the LAMOST-MRS, using a binary spectral model.

Author

Kovalev, Mikhail, Zhou, Zenghua, Chen, Xuefei, and Han, Zhanwen

Subjects

*ORBITS (Astronomy), *TELESCOPES, *SOLAR spectra

Abstract

We use an updated method for the detection of double-lined spectroscopic binaries (SB2s) using V sin  i values from spectral fits. The method is applied to all spectra from Large sky Area Multi-Object fiber Spectroscopic Telescope Medium Resolution Survey. Using this method, we detect 12 426 SB2 candidates, where 4321 are already known and 8105 are new discoveries. We check their spectra manually to minimize possible false positives. We also detect several cases of contamination of the spectra by solar light. Additionally, for candidates with multiple observations, we compute mass ratios with systemic velocities and determine Keplerian orbits. We present an updated catalogue of all SB2 candidates together with additional information for some of them in separate data tables. [ABSTRACT FROM AUTHOR]

Published

2024

196. rrlfe: software for generating and applying metallicity calibrations for RR Lyrae variable stars across a wide range of phases and temperatures.

Author

Spalding, Eckhart, Wilhelm, Ronald, De Lee, Nathan, Long, Stacy, Beers, Timothy C, Placco, Vinicius M, Kielkopf, John, Lee, Young Sun, Pepper, Joshua, and Carrell, Kenneth

Subjects

*RR Lyrae stars, *VARIABLE stars, *GALACTIC bulges, *CALIBRATION, *MILKY Way, *GALACTIC halos

Abstract

RR Lyrae stars play a central role in tracing phase-space structures within the Milky Way because they are easy to identify, are relatively luminous, and are found in large numbers in the Galactic bulge, disc, and halo. In this work, we present a new set of spectroscopic metallicity calibrations that use the equivalent widths of the Ca  ii  K and Balmer H γ and H δ lines to calculate metallicity values from low-resolution spectra. This builds on an earlier calibration from Layden by extending the range of equivalent widths which map between Ca  ii  K and the Balmer lines. We have developed the software rrlfe to apply this calibration to spectra in a consistent, reproducible, and extensible manner. This software is open-source and available to the community. The calibration can be updated with additional data sets in the future. [ABSTRACT FROM AUTHOR]

Published

2024

197. Spectroscopic observations of selected planetary nebulae from the HASH data base.

Author

Temiz, Utkan, Aksaker, Nazım, and Akyuz, Aysun

Subjects

*PLANETARY observations, *PLANETARY nebulae, *ASTRONOMICAL observatories, *ELECTRON density, *SPECTROGRAPHS, *OBSERVATORIES

Abstract

We conducted research on the classification and physical properties of 10 objects from the HASH [Hong Kong/Australian Astronomical Observatory/Strasbourg Observatory H-alpha Planetary Nebula (PN)] data base with small angular sizes (<8 arcsec) in the Northern hemisphere. The sample consisted of six Likely PNe, two new candidates, one emission-line star, and one object of unknown nature. Among them, we observed four objects for the first time using the medium-resolution TUG Faint Object Spectrograph and Camera spectrograph located on the RTT150 cm of the TÜBİTAK National Observatory. To investigate the classification of the observed objects, we utilized the emission line ratios of [O  iii ]/Hγ, [O  iii ]/Hβ, [N  ii ]/Hα, and [S  ii ]/Hα, and diagnostic diagrams such as the Sabbadin–Minello–Bianchini and Baldwin–Phillips–Terlevich diagrams. When considering a broader range of diagnostic criteria compared to those provided in the literature, our analyses resulted in the reclassification of four objects from Likely PNe to True PNe and the retention of the previous classification for the remaining six objects. In addition, we obtained various physical conditions such as electron temperatures, electron densities, logarithmic extinction coefficients, and excitation classes for the 10 objects under study. Our analysis revealed that the ionic abundances of the majority of these objects were in agreement with Galactic PNe. Our spectral observations have led to the updating of 10 PNe in the HASH data base. [ABSTRACT FROM AUTHOR]

Published

2024

198. Galaxy spectral classification and feature analysis based on convolutional neural network.

Author

Wu, Ying, Tao, Yihan, Fan, Dongwei, Cui, Chenzhou, and Zhang, Yanxia

Subjects

*CONVOLUTIONAL neural networks, *CLASSIFICATION of galaxies, *GALAXY spectra, *EMISSION-line galaxies, *GALACTIC evolution, *ACTIVE galactic nuclei

Abstract

Emission-line galaxy classification plays an important role in comprehending the formation and evolution of galaxies. The widely used optical spectral classification method for galaxies is the BPT diagram, which classifies emission-line galaxies on the basis of precise spectral line measurements. Various classical machine learning methods have been utilized to classify galaxy spectra. Deep learning (DL) is more feasible for a huge amount of data, as it can learn patterns autonomously from the original data. This study aims to explore the possibility of applying DL to classify galaxy spectra and improve classification efficiency. A one-dimensional convolutional neural network model called GalSpecNet was constructed to classify emission-line galaxy spectra, which recognizes star-forming, composite, active galactic nucleus (AGN), and normal galaxies with an accuracy of over 93 per cent. This study employs the Gradient-weighted Class Activation Mapping to elucidate the decision-making process of the model by inspecting spectral features that the model prioritizes for each type of galaxy. The findings suggest that the model considers features highly consistent with the conventional BPT method. Subsequently, we applied the model to the cross-matched galaxies of Sloan Digital Sky Survey Data Release 16 (DR16) and Large Sky Area Multi-Object Fiber Spectroscopic Telescope DR8 and present a catalogue comprising of 41 699 star-forming candidates and 55 103 AGN candidates. The catalogue is publicly available. [ABSTRACT FROM AUTHOR]

Published

2024

199. Two mini-Neptunes transiting the adolescent K-star HIP 113103 confirmed with TESS and CHEOPS.

Author

Lowson, N, Zhou, G, Huang, C X, Wright, D J, Edwards, B, Nabbie, E, Venner, A, Quinn, S N, Collins, K A, Gillen, E, Battley, M, Triaud, A, Hellier, C, Seager, S, Winn, J N, Jenkins, J M, Wohler, B, Shporer, A, Schwarz, R P, and Murgas, F

Subjects

*PALEOCLIMATOLOGY, *CHEMICAL equilibrium, *TEENAGERS, *ASTRONOMICAL transits, *ORBITS (Astronomy), *PLANETARY systems

Abstract

We report the discovery of two mini-Neptunes in near 2:1 resonance orbits (P = 7.610303 d for HIP 113103 b and P  = 14.245651 d for HIP 113103 c) around the adolescent K-star HIP 113103 (TIC 121490076). The planet system was first identified from the TESS mission, and was confirmed via additional photometric and spectroscopic observations, including a ∼17.5 h observation for the transits of both planets using ESA CHEOPS. We place ≤4.5 min and ≤2.5 min limits on the absence of transit timing variations over the 3 yr photometric baseline, allowing further constraints on the orbital eccentricities of the system beyond that available from the photometric transit duration alone. With a planetary radius of R p  =   |$1.829_{-0.067}^{+0.096}$| R⊕, HIP 113103 b resides within the radius gap, and this might provide invaluable information on the formation disparities between super-Earths and mini-Neptunes. Given the larger radius R p  =  |$2.40_{-0.08}^{+0.10}$| R⊕ for HIP 113103 c, and close proximity of both planets to HIP 113103, it is likely that HIP 113103 b might have lost (or is still losing) its primordial atmosphere. We therefore present simulated atmospheric transmission spectra of both planets using JWST, HST , and Twinkle. It demonstrates a potential metallicity difference (due to differences in their evolution) would be a challenge to detect if the atmospheres are in chemical equilibrium. As one of the brightest multi sub-Neptune planet systems suitable for atmosphere follow up, HIP 113103 b and HIP 113103 c could provide insight on planetary evolution for the sub-Neptune K-star population. [ABSTRACT FROM AUTHOR]

Published

2024

200. ATMOSPHERIX: II- Characterizing exoplanet atmospheres through transmission spectroscopy with SPIRou.

Author

Debras, Florian, Klein, Baptiste, Donati, Jean-François, Hood, Thea, Moutou, Claire, Carmona, Andres, Charnay, Benjamin, Bézard, Bruno, Fouqué, Pascal, Masson, Adrien, Vinatier, Sandrine, Baruteau, Clément, Boisse, Isabelle, Bonfils, Xavier, Chiavassa, Andrea, Delfosse, Xavier, Hebrard, Guillaume, Leconte, Jérémy, Martioli, Eder, and Ould-elkhim, Merwan

Subjects

*SPECTROMETRY, *DWARF stars, *ATMOSPHERIC models, *NATURAL satellite atmospheres, *DATA transmission systems, *EXTRASOLAR planets

Abstract

In a companion paper, we introduced a publicly available pipeline to characterize exoplanet atmospheres through high-resolution spectroscopy. In this paper, we use this pipeline to study the biases and degeneracies that arise in atmospheric characterization of exoplanets in near-infrared ground-based transmission spectroscopy. We inject synthetic planetary transits into sequences of SPIRou spectra of the well known M dwarf star Gl 15 A, and study the effects of different assumptions on the retrieval. We focus on (i) mass and radius uncertainties, (ii) non-isothermal vertical profiles, and (iii) identification and retrieval of multiple species. We show that the uncertainties on mass and radius should be accounted for in retrievals and that depth-dependent temperature information can be derived from high-resolution transmission spectroscopy data. Finally, we discuss the impact of selecting wavelength orders in the retrieval and the issues that arise when trying to identify a single species in a multispecies atmospheric model. This analysis allows us to understand better the results obtained through transmission spectroscopy and their limitations in preparation to the analysis of actual SPIRou data. [ABSTRACT FROM AUTHOR]

Published

2024