Your search keyword '"STELLAR spectra"' showing total 26 results

1. Oxygen and Air Density Retrieval Method for Single-Band Stellar Occultation Measurement.

Author

Li, Zheng, Wu, Xiaocheng, Tu, Cui, Yang, Junfeng, Hu, Xiong, and Yan, Zhaoai

Subjects

*OCCULTATIONS (Astronomy), *HYDROSTATIC equilibrium, *ATMOSPHERIC density, *STELLAR spectra, *ATMOSPHERIC layers, *IDEAL gases

Abstract

The stellar occultation technique is capable of atmospheric trace gas detection using the molecule absorption characteristics of the stellar spectra. In this paper, the non-iterative and iterative retrieval methods for oxygen and air density detection by stellar occultation are investigated. For the single-band average transmission data in the oxygen 761 nm A-band, an onion-peeling algorithm is used to calculate the effective optical depth of each atmospheric layer, and then the optical depth is used to retrieve the oxygen number density. The iteration method introduces atmospheric hydrostatic equilibrium and the ideal gas equation of state, and it achieves a more accurate retrieval of the air density under the condition of a priori temperature deviation. Finally, this paper analyzes the double solution problem in the iteration process and the ideas to improve the problem. This paper provides a theoretical basis for the development of a new type of atmospheric density detection method. [ABSTRACT FROM AUTHOR]

Published

2024

2. Generating Stellar Spectra Using Neural Networks.

Author

Gebran, Marwan

Subjects

STELLAR spectra, ARTIFICIAL neural networks, DEEP learning, RADIATIVE transfer, MACHINE learning

Abstract

A new generative technique is presented in this paper that uses Deep Learning to reconstruct stellar spectra based on a set of stellar parameters. Two different Neural Networks were trained allowing the generation of new spectra. First, an autoencoder is trained on a set of BAFGK synthetic data calculated using ATLAS9 model atmospheres and SYNSPEC radiative transfer code. These spectra are calculated in the wavelength range of Gaia RVS between 8400 and 8800 Å. Second, we trained a Fully Dense Neural Network to relate the stellar parameters to the Latent Space of the autoencoder. Finally, we linked the Fully Dense Neural Network to the decoder part of the autoencoder and we built a model that uses as input any combination of T eff , log g , v e sin i , [ M / H ] , and ξ t and output a normalized spectrum. The generated spectra are shown to represent all the line profiles and flux values as the ones calculated using the classical radiative transfer code. The accuracy of our technique is tested using a stellar parameter determination procedure and the results show that the generated spectra have the same characteristics as the synthetic ones. [ABSTRACT FROM AUTHOR]

Published

2024

3. The EBLM Project—From False Positives to Benchmark Stars and Circumbinary Exoplanets.

Author

Maxted, Pierre F. L., Triaud, Amaury H. M. J., and Martin, David V.

Subjects

*EXTRASOLAR planets, *ECLIPSING binaries, *INFLATIONARY universe, *STELLAR spectra

Abstract

The EBLM project aims to characterise very-low-mass stars that are companions to solar-type stars in eclipsing binaries. We describe the history and motivation for this project, the methodology we use to obtain the precise mass, radius, and effective temperature estimates for very-low-mass M dwarfs, and review the results of the EBLM study and those from related projects. We show that radius inflation in fully convective stars is a more subtle effect than what was previously thought based on less precise measurements, i.e., the mass–radius–effective temperature relations we observe for fully convective stars in single-line eclipsing binaries show reasonable agreement with the theoretical models, particularly if we account for the M-dwarf metallicity, as inferred from the analysis of the primary star spectrum. [ABSTRACT FROM AUTHOR]

Published

2023

4. ESNet: Estimating Stellar Parameters from LAMOST Low-Resolution Stellar Spectra.

Author

Wang, Kun, Qiu, Bo, Luo, A-li, Ren, Fuji, and Jiang, Xia

Subjects

*STELLAR evolution, *FEATURE selection, *STELLAR spectra, *GALACTIC evolution

Abstract

Stellar parameters are estimated through spectra and are crucial in studying both stellar evolution and the history of the galaxy. To extract features from the spectra efficiently, we present ESNet (encoder selection network for spectra), a novel architecture that incorporates three essential modules: a feature encoder (FE), feature selection (FS), and feature mapping (FM). FE is responsible for extracting advanced spectral features through encoding. The role of FS, on the other hand, is to acquire compressed features by reducing the spectral dimension and eliminating redundant information. FM comes into play by fusing the advanced and compressed features, establishing a nonlinear mapping between spectra and stellar parameters. The stellar spectra used for training and testing are obtained through crossing LAMOST and SDSS. The experimental results demonstrate that for low signal-to-noise spectra (0–10), ESNet achieves excellent performance on the test set, with mean absolute error (MAE) values of 82 K for T e f f (effective temperature), 0.20 dex for l o g g (logarithm of the gravity), and 0.10 dex for [ F e / H ] (metallicity). The results indeed indicate that ESNet has an excellent ability to extract spectral features. Furthermore, this paper validates the consistency between ESNet predictions and the SDSS catalog. The experimental results prove that the model can be employed for the evaluation of stellar parameters. [ABSTRACT FROM AUTHOR]

Published

2023

5. Growth and Photosynthetic Efficiency of Microalgae and Plants with Different Levels of Complexity Exposed to a Simulated M-Dwarf Starlight.

Author

Battistuzzi, Mariano, Cocola, Lorenzo, Liistro, Elisabetta, Claudi, Riccardo, Poletto, Luca, and La Rocca, Nicoletta

Subjects

*VISIBLE spectra, *VASCULAR plants, *STELLAR spectra, *ARABIDOPSIS thaliana, *STELLAR orbits, *MICROALGAE, *CHLORELLA vulgaris

Abstract

Oxygenic photosynthetic organisms (OPOs) are primary producers on Earth and generate surface and atmospheric biosignatures, making them ideal targets to search for life from remote on Earth-like exoplanets orbiting stars different from the Sun, such as M-dwarfs. These stars emit very low light in the visible and most light in the far-red, an issue for OPOs, which mostly utilize visible light to photosynthesize and grow. After successfully testing procaryotic OPOs (cyanobacteria) under a simulated M-dwarf star spectrum (M7, 365–850 nm) generated through a custom-made lamp, we tested several eukaryotic OPOs: microalgae (Dixoniella giordanoi, Microchloropsis gaditana, Chromera velia, Chlorella vulgaris), a non-vascular plant (Physcomitrium patens), and a vascular plant (Arabidopsis thaliana). We assessed their growth and photosynthetic efficiency under three light conditions: M7, solar (SOL) simulated spectra, and far-red light (FR). Microalgae grew similarly in SOL and M7, while the moss P. patens showed slower growth in M7 with respect to SOL. A. thaliana grew similarly in SOL and M7, showing traits typical of shade-avoidance syndrome. Overall, the synergistic effect of visible and far-red light, also known as the Emerson enhancing effect, could explain the growth in M7 for all organisms. These results lead to reconsidering the possibility and capability of the growth of OPOs and are promising for finding biosignatures on exoplanets orbiting the habitable zone of distant stars. [ABSTRACT FROM AUTHOR]

Published

2023

6. Infrared Spectroscopy of Be Stars: Influence of the Envelope Parameters on Brackett-Series Behaviour.

Author

Cochetti, Yanina Roxana, Granada, Anahi, Arias, María Laura, Torres, Andrea Fabiana, and Arcos, Catalina

Subjects

INFRARED spectroscopy, STELLAR spectra, STAR observations, INFORMATION resources

Abstract

The IR spectra of Be stars display numerous hydrogen recombination lines, constituting a great resource for obtaining information on the physical and dynamic structures of different regions within the circumstellar envelope. Nevertheless, this spectral region has not been analysed in depth, and there is a lack of synthetic spectra with which to compare observations. Therefore, we computed synthetic spectra with the HDUST code for different disc parameters. Here, we present our results on the spectral region that includes lines of the Brackett series. We discuss the dependence of the line series strengths on several parameters that describe the structure of the disc. We also compared model line profiles, fluxes, and EWs with observational data for two Be stars (MX Pup and π Aqr). Even though the synthetic spectra adequately fit our observations of both stars and allow us to constrain the parameters of the disc, there is a discrepancy with the observed data in the EW and flux measurements, especially in the case of MX Pup. It is possible that by including Brackett lines of higher terms or adding the analysis of other series, we may be able to better constrain the parameters of the observed disc. [ABSTRACT FROM AUTHOR]

Published

2023

7. Research on Stellar Occultation Detection with Bandpass Filtering for Oxygen Density Retrieval.

Author

Li, Zheng, Wu, Xiaocheng, Tu, Cui, Hu, Xiong, Yan, Zhaoai, Yang, Junfeng, and Zhang, Yanan

Subjects

*BANDPASS filters, *OCCULTATIONS (Astronomy), *STELLAR magnitudes, *STELLAR spectra, *ATMOSPHERIC density, *PLANETARY atmospheres, *OXYGEN

Abstract

Stellar occultation instruments detect the transmission of stellar spectra through the planetary atmosphere to retrieve densities of various atmospheric components. This paper introduces an idea of using instruments with bandpass filters for stellar occultation detection. According to the characteristics of the occultation technique for oxygen density measurement, a full-link forward model is established, and the average transmission under a typical nocturnal atmosphere is calculated with the help of the HITRAN database, occultation simulation and a 3D ray-tracing program. The central wavelength and bandwidth suitable for 760 nm oxygen A-band absorption measurement are discussed. This paper also compares the results of the forward model with GOMOS spectrometer data under this band, calculates the observation signal-to-noise ratio corresponding to different instrument parameters, and target star magnitudes. The results of this paper provide a theoretical basis for the development of a stellar occultation technique with a bandpass filter and guidance on the instrument design. [ABSTRACT FROM AUTHOR]

Published

2023

8. Stark Broadening of Al IV Spectral Lines.

Author

Dimitrijević, Milan S. and Christova, Magdalena D.

Subjects

*SPECTRAL lines, *SPECTRAL line broadening, *STELLAR spectra, *ELECTRON density, *STARK effect, *STELLAR atmospheres

Abstract

Stark widths for 23 transitions in Al IV have been calculated by employing the modified semiempirical method. The results are obtained for an electron density of 10 17 cm − 3 and temperatures from 10,000 K to 160,000 K. The results obtained in this investigation are used for the examination of the influence of Stark broadening in Al IV stellar spectra, as well as to check the Stark width regular behavior and similarites within the Al IV spectrum. [ABSTRACT FROM AUTHOR]

Published

2023

9. The Shapes of Stellar Spectra.

Author

Allende Prieto, Carlos

Subjects

SPECTRAL energy distribution, RADIATION, STELLAR structure, STELLAR atmospheres, PHOTOIONIZATION, DISTRIBUTION of stars, STELLAR spectra, STELLAR mass

Abstract

Stellar atmospheres separate the hot and dense stellar interiors from the emptiness of space. Radiation escapes from the outermost layers of a star, carrying direct physical information. Underneath the atmosphere, the very high opacity keeps radiation thermalized and resembling a black body with the local temperature. In the atmosphere the opacity drops, and radiative energy leaks out, which is redistributed in wavelength according to the physical processes by which matter and radiation interact, in particular photoionization. In this article, I will evaluate the role of photoionization in shaping the stellar energy distribution of stars. To that end, I employ simple, state-of-the-art plane-parallel model atmospheres and a spectral synthesis code, dissecting the effects of photoionization from different chemical elements and species, for stars of different masses in the range of 0.3 to 2 M ⊙ . I examine and interpret the changes in the observed spectral energy distributions of the stars as a function of the atmospheric parameters. The photoionization of atomic hydrogen and H − are the most relevant contributors to the continuum opacity in the optical and near-infrared regions, while heavier elements become important in the ultraviolet region. In the spectra of the coolest stars (spectral types M and later), the continuum shape from photoionization is no longer recognizable due to the accumulation of lines, mainly from molecules. These facts have been known for a long time, but the calculations presented provide an updated quantitative evaluation and insight into the role of photoionization on the structure of stellar atmospheres. [ABSTRACT FROM AUTHOR]

Published

2023

10. Recent Progress in Finding Binary Systems with the B[e] Phenomenon.

Author

Miroshnichenko, Anatoly S., Zharikov, Sergei V., Manset, Nadine, Khokhlov, Serik A., Nodyarov, Atilkhan S., Klochkova, Valentina G., Danford, Stephen, Kuratova, Aizhan K., Mennickent, Ronald, Chojnowski, S. Drew, Raj, Ashish, and Bisht, Devendra

Subjects

STELLAR spectra, STAR clusters, SPECTRAL lines, MASS transfer, B stars, STELLAR evolution

Abstract

This paper describes recent studies of the FS CMa-type objects, a group of stars showing the B[e] phenomenon defined in 2007. The objects exhibit strong emission-line spectra with both permitted and forbidden lines suggesting the presence of a B-type star as well as strong IR excesses due to radiation of circumstellar dust. These properties are hard to explain in the framework of the evolution of single stars with luminosities between ~300 and ~30,000 L⊙ typical of most B-type stars. We explore the hypothesis that the gaseous-and-dusty envelopes of FS CMa objects are due to either earlier or ongoing mass transfer between the binary system components. It is hard to detect the secondary components in these systems because of veiling and distortions by the circumstellar matter because of the relative faintness of the companions. Nevertheless, we detected regular radial velocity variations of the spectral lines in MWC 728, 3 Pup, and AS 386 and we found absorption lines typical of cool stars in the spectra of MWC 645, AS 174, and several other objects. The diversity of the secondary components in FS CMa objects is discussed in the context of non-conservative binary evolution. [ABSTRACT FROM AUTHOR]

Published

2023

11. Collisions of Electrons with Alkali, Alkaline and Complex Atoms Relevant to Solar and Stellar Atmospheres.

Author

Derouich, Moncef, Qutub, Saleh, Mustajab, Fainana, and Ahmad, Badruddin Zaheer

Subjects

*SOLAR atmosphere, *COLLISIONS (Nuclear physics), *SPECTRAL line formation, *ATOMIC excitation, *COLLISIONAL excitation, *COLLISION broadening, *STELLAR spectra, *STELLAR atmospheres, *HYPERFINE structure

Abstract

In solar and stellar atmospheres, atomic excitation by impact with electrons plays an important role in the formation of spectral lines. We make use of available experimental and theoretical cross-sections to calculate the excitation rates in s–p transitions of alkali and alkaline atoms through collisions with electrons. Then, we infer a general formula for calculating the excitation rates by using genetic programming numerical methods. We propose an extension of our approach to deduce collisional excitation rates for complex atoms and atoms with hyperfine structure. Furthermore, the developed method is also applied to determine collisional polarization transfer rates. Our results are not specific to a given atom and can be applied to any s–p atomic transition. The accuracy of our results is discussed. [ABSTRACT FROM AUTHOR]

Published

2022

12. Hidden Spectra Treasures in the Foster Archive: A Pilot Study of the Be Stars α Eri, α Col, ω Car and η Cen.

Author

Arcos, Catalina, Vanzi, Leonardo, Vogt, Nikolaus, Garcia, Stefano, Ortiz, Virginia, and Acuña, Ester

Subjects

PHOTOGRAPHY archives, STAR observations, STELLAR spectra, SPECTRAL lines, BINARY stars

Abstract

We present the archive of spectroscopic photographic plates of the Universidad Católica historic observatory Manuel Foster. The archive includes more than 4800 plates covering the period of time from 1928 to 1991. The spectra present in the archive are mostly those of bright variable or binary stars observed at different epochs. We developed a method of digitalization and data processing for the plates and verified it through the analysis of a selected sample of spectra. As an example of the potential relevance of this Foster archive we studied the variation of helium, H β and H γ spectral lines over time (1980−1991), complementing with high resolution spectroscopic data from the "Be Star Observation Survey" (2012−2015), of four Be stars mainly, α Eri, α Col, ω Car and η Cen. The spectra of these stars show evidence of a circumstellar gas disk present in both periods of time. From the spectroscopic analysis, we found these stars are variable in helium and this variability presents an opposite behavior with the variability observed in the EW of the H β line profile. This archive represents a unique source of data from past that is available for the use of the community. [ABSTRACT FROM AUTHOR]

Published

2022

13. Using Molecular Lines to Determine Carbon and Nitrogen Abundances in the Atmospheres of Cool Stars.

Author

Ryabchikova, Tatiana, Piskunov, Nikolai, and Pakhomov, Yury

Subjects

STELLAR atmospheres, STELLAR spectra, SOLAR atmosphere, ASTRONOMERS, CARBON, DATA analysis, ATMOSPHERIC nitrogen

Abstract

Simultaneous analysis of the C 2 and CN molecular bands in the 5100–5200 and 7930–8100 Å spectral regions is a promising alternative for the accurate determination of the carbon (C) and nitrogen (N) abundance in the atmospheres of the solar-like stars. Practical implementation of this new method became possible after recent improvements of the molecular constants for both molecules. The new molecular data predicted the correct line strength and line positions; therefore, they were included in the Vienna Atomic Line Database (VALD), which is widely used by astronomers and spectroscopists. In this paper, we demonstrate that the molecular data analysis provides C and, in particular, N abundances consistent with those derived from the atomic lines. We illustrate this by performing the analysis for three stars. Our results provide strong arguments for using the combination of C 2 and CN molecular lines for accurate nitrogen abundance determination keeping in mind the difficulties of using the N i lines in the observed spectra of the solar-like stars. [ABSTRACT FROM AUTHOR]

Published

2022

14. VALD : The Meeting Point of Data Producers and Data Users

Author

Ryabchikova, Tatiana, Pakhomov, Yury, Piskunov, Nikolai, Ryabchikova, Tatiana, Pakhomov, Yury, and Piskunov, Nikolai

Abstract

Vienna Atomic Line Database (VALD) contains data on atomic and molecular energy levels and parameters of spectral lines required for stellar spectra analysis. Hundreds of millions of lines for fine spectral synthesis and for opacity calculations are collected in the present version of VALD (VALD3). Critical evaluation of the data and the diversity of extraction tools support the high popularity of VALD among users. The data model of VALD3 incorporates obligatory links to the bibliography making our database more attractive as a publishing platform for data producers. The VALD data quality and completeness are constantly improving allowing better reproduction of stellar spectra. To illustrate continuous evolution of the data content we present a comparative analysis of the recent experimental and theoretical atomic data for Fe-group elements, which will be included in the next VALD release. This release will also include a possibility for extracting the line data with full isotopic and hyperfine structures.

Published

2018

15. On Products of Random Matrices.

Author

Amburg, Natalia, Orlov, Aleksander, and Vasiliev, Dmitry

Subjects

*REPRESENTATIONS of groups (Algebra), *MATRIX multiplications, *CHILDREN'S drawings, *STELLAR spectra, *COUPLING constants, *RANDOM graphs, *RANDOM matrices

Abstract

We introduce a family of models, which we name matrix models associated with children's drawings—the so-called dessin d'enfant. Dessins d'enfant are graphs of a special kind drawn on a closed connected orientable surface (in the sky). The vertices of such a graph are small disks that we call stars. We attach random matrices to the edges of the graph and get multimatrix models. Additionally, to the stars we attach source matrices. They play the role of free parameters or model coupling constants. The answers for our integrals are expressed through quantities that we call the "spectrum of stars". The answers may also include some combinatorial numbers, such as Hurwitz numbers or characters from group representation theory. [ABSTRACT FROM AUTHOR]

Published

2020

16. Cobalt-Hydrogen Atomic and Ionic Collisional Data.

Author

Yakovleva, Svetlana A., Belyaev, Andrey K., and Bergemann, Maria

Subjects

STELLAR spectra, STELLAR atmospheres, THERMODYNAMIC equilibrium, PROTON-proton interactions

Abstract

Rate coefficients for inelastic processes in low-energy Co + H, Co + + H − , Co + + H , and Co 2 + + H − collisions are estimated using the quantum simplified model. Considerations include 44 triplet and 55 quintet molecular states of CoH, as well as 91 molecular states of CoH + . The estimations provide the rate coefficients for the 4862 partial processes (mutual neutralization, ion-pair formation, excitation, and de-excitation) in the neutral CoH system, and for the 8190 partial processes in the ionized CoH + system, 13 , 052 processes in total. At T = 6000 K, the rate coefficients with the largest values around 6 × 10 − 8 cm 3 s − 1 correspond to the mutual neutralization processes into the Co (e 2 F) + H and Co + (g 5 F) + H final channels in the neutral and ionized systems, respectively. Among the excitation and de-excitation processes in Co + H and in Co + + H collisions, at T = 6000 K, the largest rate coefficients have values around 7 × 10 − 9 cm 3 s − 1 and correspond to the processes Co (y 2 S ∘) + H → Co (e 2 F ; v 4 D ∘) + H and Co + (h 3 P) + H → Co + (g 3 P ; g 5 P ; g 5 F) + H , respectively. The calculations single out inelastic processes important for non-local thermodynamic equilibrium (NLTE) modelling of Co I and Co II spectra in stellar atmospheres. The test NLTE calculations are carried out, and it is found that the new collision rates have a strong effect on the line formation and NLTE abundance corrections. [ABSTRACT FROM AUTHOR]

Published

2020

17. Stark Widths Regularities Within: ns-np, np-ns, np-nd, nd-np and nd-nf Spectral Series of Potassium Isoelectronic Sequence.

Author

Trklja, Nora, Dojčinović, Ivan P., Tapalaga, Irinel, and Purić, Jagoš

Subjects

ISOELECTRONIC sequences, IONIZATION energy, POTASSIUM, ELECTRON temperature, STARK effect, ELECTRON transitions, ELECTRON density

Abstract

Results presented in this paper show a regular behaviour of Stark widths within the studied spectral series of potassium isoelectronic sequence. These regularities have been found and verified on the basis of the existing theoretical and experimental data being normalized for the same plasma conditions (chosen electron density and temperature). Using the available set of data the corresponding formulas expressing the Stark widths of the lines originated from the spectral series studied here as a function of the upper-level ionization potential and the rest core charge of the emitter seeing by the electron undergoing transition, are obtained here. Well established and verified dependence is used to calculate Stark width data needed but not available so far. For the purposes of the operation with a large number of data, algorithms for the analysis of Stark width dependence on temperature and electron density and for the investigation of the assumed correlation between Stark width and ionization potential of the upper level of analyzed transition, have been made. Developed algorithms enable fast data processing. [ABSTRACT FROM AUTHOR]

Published

2019

18. The Belgian Repository of Fundamental Atomic Data and Stellar Spectra (BRASS).

Author

Lobel, Alex, Royer, Pierre, Martayan, Christophe, Laverick, Michael, Merle, Thibault, Van der Swaelmen, Mathieu, van Hoof, Peter A. M., David, Marc, Hensberge, Herman, and Thienpont, Emmanuel

Subjects

ATOMIC spectra, ELECTRON configuration, BRASS, RADIATIVE transfer, WIDTH measurement, STELLAR spectra, NUCLEAR astrophysics, ONLINE databases

Abstract

Background: BRASS (Belgian Repository of Fundamental Atomic Data and Stellar Spectra) is an international networking project for the development of a new public database providing accurate fundamental atomic data of vital importance for stellar spectroscopic research. We present an overview of research results obtained in the past four years. Methods: The BRASS database offers atomic line data we thoroughly tested by comparing theoretical and observed stellar spectra. We perform extensive quality assessments of selected atomic input data using advanced radiative transfer spectrum synthesis calculations, which we compare to high-resolution Mercator-HERMES and ESO-VLT-UVES spectra of F-, G-, and K-type benchmark stars observed with very high signal-to-noise ratios. We have retrieved about half a million atomic lines required for our detailed spectrum synthesis calculations from the literature and online databases such as VAMDC, NIST, VALD, CHIANTI, Spectr-W 3 , TIPbase, TOPbase, SpectroWeb. Results: The atomic datasets have been cross-matched based on line electronic configuration information and organized in a new online repository called BRASS. The validated atomic data, combined with the observed and theoretical spectra are also interactively offered in BRASS. The combination of these datasets is a novel approach for its development providing a universal reference for advanced stellar spectroscopic research. Conclusion: We present an overview of the BRASS Data Interface developments allowing online user interaction for the combined spectrum and atomic data display, line identification, atomic data accuracy assessments including line log(gf)-values, and line equivalent width measurements. [ABSTRACT FROM AUTHOR]

Published

2019

19. Laser-Plasma and Self-Absorption Measurements with Applications to Analysis of Atomic and Molecular Stellar Astrophysics Spectra.

Author

Parigger, Christian G., Helstern, Christopher M., and Gautam, Ghaneshwar

Subjects

STELLAR spectra, LASER plasmas, TIME-resolved spectroscopy, ELECTRON distribution, SPECTRAL sensitivity, MOLECULAR spectra, BRIGHTNESS temperature, PLASMA astrophysics

Abstract

This work discusses laboratory measurements of atomic and diatomic molecular species in laser-plasma generated in gases. Noticeable self-absorption of the Balmer series hydrogen alpha line occurs for electron densities of the order of one tenth of standard ambient temperature and pressure density. Emission spectra of selected diatomic molecules in air or specific gaseous mixtures at or near atmospheric pressure reveal minimal plasma re-absorption. Abel inversion of the plasma in selected gases and gas mixtures confirm expansion dynamics that unravel regions of atomic and molecular species of different electron temperature and density. Time resolved spectroscopy diagnoses self-absorption of hydrogen alpha and hydrogen beta lines in ultra-high pure hydrogen gas. Radiation from a Nd:YAG laser device induces micro-plasma for pulse widths in the range of 6–14 ns, energies in the range of 100–800 mJ, and peak irradiances of the order 1–10 TW/cm 2 . Atomic line profiles yield electron density and temperature from fitting of line profiles to wavelength and sensitivity corrected spectral radiance data. Analysis of measured diatomic emission data yields excitation temperature of primarily molecular recombination spectra. Applications of the laboratory experiments extend to investigations of stellar astrophysics white dwarf spectra. [ABSTRACT FROM AUTHOR]

Published

2019

20. A Novel Autonomous Celestial Integrated Navigation for Deep Space Exploration Based on Angle and Stellar Spectra Shift Velocity Measurement.

Author

Chen, Xiao, Sun, Zhaowei, Zhang, Wei, and Xu, Jun

Subjects

*STELLAR spectra, *NAUTICAL astronomy, *NAVIGATION, *SPACE exploration, *VELOCITY measurements, *NAVIGATION (Astronautics)

Abstract

Traditional autonomous celestial navigation usually uses astronomical angle as measurement, which is a function of spacecraft's position and can't resolve the spacecraft's velocity directly. To solve this problem, velocity measurement by stellar spectra shift is proposed in this paper. The autonomous celestial integrated navigation method is derived by combining velocity measurement with angle measurement, which can ensure the long-term high accuracy, real-time and continuous navigation performance for deep space exploration (DSE) missions. The observability of the integrated navigation system is analyzed. Moreover, the design of doppler navigator and hardware in-the-loop simulation system are described. Finally, a simulation example is employed to demonstration the feasibility and effectiveness of the proposed navigation algorithm. [ABSTRACT FROM AUTHOR]

Published

2019

21. Special Issue on Atomic and Ionic Collisions with Formation of Quasimolecules.

Author

Srećković, Vladimir A., Dimitrijević, Milan S., and Bezuglov, Nikolai N.

Subjects

QUASIMOLECULES, MOLECULAR physics, ATOMIC physics, NUCLEAR physics, MOLECULAR collisions, NUCLEAR astrophysics

Abstract

Many areas of science today, like atomic and molecular physics, nuclear physics, astrophysics, laboratory plasma research etc., depend on data for ionic, atomic, and molecular collision processes. The purpose of the Special Issue "Atomic and Ionic Collisions with Formation of Quasimolecules" in Atoms is to engage a broad community of researchers to consolidate knowledge, make new discoveries, and to continue the exchange of ideas. [ABSTRACT FROM AUTHOR]

Published

2019

22. The Laboratory Astrophysics Spectroscopy Programme at Imperial College London.

Author

Belmonte, María Teresa, Pickering, Juliet C., Clear, Christian P., Concepción Mairey, Florence, and Liggins, Florence

Subjects

STELLAR spectra, FOURIER transform spectroscopy, ATOMIC transition probabilities, ASTROPHYSICS, HIGH resolution spectroscopy, SPECTRUM analysis

Abstract

Accurate atomic parameters, such as transition probabilities, wavelengths, and energy levels, are indispensable for the analysis of stellar spectra and the obtainment of chemical abundances. However, the quantity and quality of the existing data in many cases lie far from the current needs of astronomers, creating an acute need for laboratory measurements of matching accuracy and completeness to exploit the full potential of the very expensively acquired astrophysical spectra. The Fourier Transform Spectrometer at Imperial College London works in the vacuum ultraviolet-visible region with a resolution of 2,000,000 at 200 nm. We can acquire calibrated spectra of neutral, singly, and doubly ionized species. We collaborate with the National Institute of Standards and Technology (NIST) and the University of Lund to extend our measurements into the infrared region. The aim of this review is to explain the current capabilities of our experiment in an understandable way to bring the astronomy community closer to the field of laboratory astrophysics and encourage further dialogue between our laboratory and all those astronomers who need accurate atomic data. This exchange of ideas will help us to focus our efforts on the most urgently needed data. [ABSTRACT FROM AUTHOR]

Published

2018

23. Molecular Data Needs for Modelling AGB Stellar Winds and Other Molecular Environments.

Author

Danilovich, Taïssa, Decin, Leen, and Van De Sande, Marie

Subjects

ASYMPTOTIC giant branch stars, RADIATIVE transfer, STELLAR winds, MOLECULAR spectroscopy, INTERSTELLAR medium

Abstract

The modern era of highly sensitive telescopes is enabling the detection of more and more molecular species in various astronomical environments. Many of these are now being carefully examined for the first time. However, to move beyond detection to more detailed analysis such as radiative transfer modelling, certain molecular properties need to be properly measured and calculated. The importance of contributions from vibrationally excited states or collisional (de-)excitations can vary greatly, depending on the specific molecule and the environment being studied. Here, we discuss the present molecular data needs for detailed radiative transfer modelling of observations of molecular rotational transitions, primarily in the (sub-)millimetre and adjacent regimes, and with a focus on the stellar winds of AGB stars. [ABSTRACT FROM AUTHOR]

Published

2018

24. The Belgian Repository of Fundamental Atomic Data and Stellar Spectra (BRASS) Identifying Fruitful Methods for Producing Atomic Data.

Author

Laverick, Mike, Lobel, Alex, Royer, Pierre, Martayan, Christophe, Merle, Thibault, Van Hoof, Peter A. M., Van De Swaelmen, Mathieu, David, Marc, Hensberge, Herman, and Thienpont, Emmanuel

Subjects

STELLAR spectra, OSCILLATOR strengths, HARTREE-Fock approximation, ATOMIC physicists, SIGNAL-to-noise ratio

Abstract

The Belgian repository of fundamental atomic data and stellar spectra (BRASS) aims to provide the largest systematic and homogeneous quality assessment to-date of input atomic data required for stellar spectral synthesis. In addition to quality-assessed atomic data, BRASS shall also provide of a range of extremely high-quality benchmark stellar spectra spanning late B-type stars to early K-type stars. In this paper, we summarise the project's progress and available results to-date. We provide a brief comparison between our results and the BRASS project's compiled and cross-matched atomic literature, with the goal of providing useful feedback to the atomic community on which methods may produce more reliable and accurate atomic data. We hope that the examples presented here stimulate further investigation by the atomic physics community. [ABSTRACT FROM AUTHOR]

Published

2018

25. Laboratory Hydrogen-Beta Emission Spectroscopy for Analysis of Astrophysical White Dwarf Spectra.

Author

Parigger, Christian G., Drake, Kyle A., Helstern, Christopher M., and Gautam, Ghaneshwar

Subjects

HYDROGEN, EMISSION spectroscopy, WHITE dwarf stars, BALMER series, STELLAR spectra

Abstract

This work communicates a review on Balmer series hydrogen beta line measurements and applications for analysis of white dwarf stars. Laser-induced plasma investigations explore electron density and temperature ranges comparable to white dwarf star signatures such as Sirius B, the companion to the brightest star observable from the earth. Spectral line shape characteristics of the hydrogen beta line include width, peak separation, and central dip-shift, thereby providing three indicators for electron density measurements. The hydrogen alpha line shows two primary line-profile parameters for electron density determination, namely, width and shift. Both Boltzmann plot and line-to-continuum ratios yield temperature. The line-shifts recorded with temporally- and spatially-resolved optical emission spectroscopy of hydrogen plasma in laboratory settings can be larger than gravitational redshifts that occur in absorption spectra from radiating white dwarfs. Published astrophysical spectra display significantly diminished Stark or pressure broadening contributions to red-shifted atomic lines. Gravitational redshifts allow one to assess the ratio of mass and radius of these stars, and, subsequently, the mass from cooling models. [ABSTRACT FROM AUTHOR]

Published

2018

26. Stark Broadening of Cr III Spectral Lines: DO White Dwarfs.

Author

Dimitrijević, Milan S. and Chougule, Abhishek

Subjects

SPECTRAL line broadening, WHITE dwarf stars, STARK effect, STELLAR spectra, ELECTRON density

Abstract

Using the modified semiempirical method of Dimitrijević and Konjević, Stark widths have been calculated for six Cr III transitions, for an electron density of 10 17 cm ‒ 3 and for temperatures from 5000–80,000 K. Results have been used for the investigation of the influence of Stark broadening on spectral lines in cool DO white dwarf atmospheres. Calculated Stark widths will be implemented in the STARK-B database, which is also a part of the Virtual Atomic and Molecular Data Center (VAMDC). [ABSTRACT FROM AUTHOR]

Published

2018