Your search keyword '"Kemper, F."' showing total 14 results

1. Nearby Evolved Stars Survey II: Constructing a volume-limited sample and first results from the James Clerk Maxwell Telescope.

Author

Scicluna, P, Kemper, F, McDonald, I, Srinivasan, S, Trejo, A, Wallström, S H J, Wouterloot, J G A, Cami, J, Greaves, J, He, Jinhua, Hoai, D T, Kim, Hyosun, Jones, O C, Shinnaga, H, Clark, C J R, Dharmawardena, T, Holland, W, Imai, H, van Loon, J Th, and Menten, K M

Subjects

*TELESCOPES, *SUBMILLIMETER astronomy, *STELLAR parallax, *DUST, *STELLAR winds, *ASYMPTOTIC giant branch stars

Abstract

The Nearby Evolved Stars Survey (NESS) is a volume-complete sample of ∼850 Galactic evolved stars within 3 kpc at (sub-)mm wavelengths, observed in the CO J  = (2–1) and (3–2) rotational lines, and the sub-mm continuum, using the James Clark Maxwell Telescope and Atacama Pathfinder Experiment. NESS consists of five tiers, based on distances and dust-production rate (DPR). We define a new metric for estimating the distances to evolved stars and compare its results to Gaia EDR3. Replicating other studies, the most-evolved, highly enshrouded objects in the Galactic Plane dominate the dust returned by our sources, and we initially estimate a total DPR of 4.7 × 10−5 M⊙ yr−1 from our sample. Our sub-mm fluxes are systematically higher and spectral indices are typically shallower than dust models typically predict. The 450/850 |$\mu$| m spectral indices are consistent with the blackbody Rayleigh–Jeans regime, suggesting a large fraction of evolved stars have unexpectedly large envelopes of cold dust. [ABSTRACT FROM AUTHOR]

Published

2022

2. Infrared variable stars in the compact elliptical galaxy M32.

Author

Jones, O C, Nally, C, Sharp, M J, McDonald, I, Boyer, M L, Meixner, M, Kemper, F, Ferguson, A M N, Goldman, S R, and Rich, R M

Subjects

COMPACT objects (Astronomy), ELLIPTICAL galaxies, ASYMPTOTIC giant branch stars, STELLAR populations, VARIABLE stars, COOL stars (Astronomy)

Abstract

Variable stars in the compact elliptical galaxy M32 are identified, using three epochs of photometry from the Spitzer Space Telescope at 3.6 and 4.5  μ m, separated by 32 to 381 d. We present a high-fidelity catalogue of sources detected in multiple epochs at both 3.6 and 4.5  μ m, which we analysed for stellar variability using a joint probability error-weighted flux difference. Of these, 83 stars are identified as candidate large-amplitude, long-period variables, with 28 considered high-confidence variables. The majority of the variable stars are classified as asymptotic giant branch star candidates using colour-magnitude diagrams. We find no evidence supporting a younger, infrared-bright stellar population in our M32 field. [ABSTRACT FROM AUTHOR]

Published

2021

3. Statistical properties of cold circumstellar envelops observed in NESS–NRO.

Author

Amada, K., Fukaya, S., Imai, H., Scicluna, P., Hirano, N., Trejo-Cruz, A., Zeegers, S., Kemper, F., Srinivasan, S., Wallström, S., Dharmawardena, T., and Shinnaga, H.

Subjects

ASYMPTOTIC giant branch stars, STELLAR winds, STELLAR activity, MASS loss (Astrophysics), STELLAR mass

Abstract

We conducted CO J =1→0 emission line observations for nearby AGB stars using the Nobeyama 45 m telescope. Comparing our results with those from CO J =3→2 observations with JCMT, the circumstellar envelopes observed in CO J =1→0 look more extended than J =3→2. Thus, we could trace the outer, cold parts of the envelopes. We also found four stars in which the CO/13CO ratio changes dramatically outward, but the change implies the effect of selective photodissociation by interstellar ultraviolet radiation, not the third dredge up in the stellar interior. We moreover found two unique stars with aspherical envelope morphology. [ABSTRACT FROM AUTHOR]

Published

2021

4. The evolved-star dust budget of the Small Magellanic Cloud: the critical role of a few key players.

Author

Srinivasan, S., Boyer, M. L., Kemper, F., Meixner, M., Sargent, B. A., and Riebel, D.

Subjects

MAGELLANIC clouds, INTERSTELLAR medium, ASYMPTOTIC giant branch stars, RED giants, SPECTRAL energy distribution

Abstract

The life cycle of dust in the interstellar medium is heavily influenced by outflows from asymptotic giant branch (AGB) and red supergiant (RSG) stars, a large fraction of which is contributed by a few very dusty sources. We compute the dust input to the Small Magellanic Cloud (SMC) by fitting the multi-epoch mid-infrared spectral energy distributions of AGB/RSG candidates with models from the Grid of RSG and AGB ModelS grid, allowing us to estimate the luminosities and dust-production rates (DPRs) of the entire population. By removing contaminants, we guarantee a high-quality data set with reliable DPRs and a complete inventory of the dustiest sources. We find a global AGB/RSG dust-injection rate of (1.3 ± 0.1) × 10-6 M☉ yr-1, in agreement with estimates derived from mid-infrared colours and excess fluxes. As in the Large Magellanic Cloud, a majority (66 per cent) of the dust arises from the extreme AGB stars, which comprise only ≈7 per cent of our sample. A handful of far-infrared sources, whose 24 μm fluxes exceed their 8 μm fluxes, dominate the dust input. Their inclusion boosts the global DPR by ≈1.5×, making it necessary to determine whether they are AGB stars. Model assumptions, rather than missing data, are the major sources of uncertainty; depending on the choice of dust shell expansion speed and dust optical constants, the global DPR can be up to ≈10 times higher. Our results suggest a non-stellar origin for the SMC dust, barring as yet undiscovered evolved stars with very high DPRs. [ABSTRACT FROM AUTHOR]

Published

2016

5. A Spitzer Space Telescope survey of extreme asymptotic giant branch stars in M32.

Author

Jones, O. C., McDonald, I., Rich, R. M., Kemper, F., Boyer, M. L., Zijlstra, A. A., and Bendo, G. J.

Subjects

THERMONUCLEAR reactions in stars, PROTON-proton cycle, GRAVITATIONAL collapse, SPACE telescopes, ASTRONOMICAL spectroscopy, GALAXIES, ASTRONOMICAL surveys, ASTRONOMICAL observations

Abstract

We investigate the population of cool, evolved stars in the Local Group dwarf elliptical galaxy M32, using Infrared Array Camera observations from the Spitzer Space Telescope. We construct deep mid-infrared colour-magnitude diagrams for the resolved stellar populations within 3.5 arcmin of M32's centre, and identify those stars that exhibit infrared excess. Our data are dominated by a population of luminous, dust-producing stars on the asymptotic giant branch (AGB) and extend to approximately 3 mag below the AGB tip. We detect for the first time a sizeable population of 'extreme' AGB stars, highly enshrouded by circumstellar dust and likely completely obscured at optical wavelengths. The total dust-injection rate from the extreme AGB candidates is measured to be 7.5 × 10-7 M☉ yr-1, corresponding to a gas mass-loss rate of 1.5 × 10-4 M☉ yr-1. These extreme stars may be indicative of an extended star formation epoch between 0.2 and 5 Gyr ago. [ABSTRACT FROM AUTHOR]

Published

2015

6. Infrared spectroscopy of asymptotic giant branch stars in the Galactic bulge.

Author

Golriz, S. S., Blommaert, J. A. D. L., Vanhollebeke, E., Groenewegen, M. A. T., Habing, H. J., Kemper, F., Schultheis, M., Tielens, A. G. G. M., Waters, L. B. F. M., Wood, P. R., and Cami, J.

Subjects

INFRARED spectroscopy, ASYMPTOTIC giant branch stars, GALACTIC bulges, INTERSTELLAR reddening, SILICATES, STELLAR mass

Abstract

We have selected a homogeneous sample of asymptotic giant branch (AGB) stars in the Galactic bulge population from the ISOGAL survey. Our target stars cover a wide range of mass-loss rates (∼10−8–10−4 M⊙ yr−1) and differ primarily by their age on the AGB. This homogeneous sample is thus ideally suited to study the dust formation process as a function of age on the AGB. We observed our sample with Spitzer-Infrared Spectrograph, and studied the overall properties of the infrared spectra of these targets. The analysis is complicated by the presence of strong and variable background emission, and the extracted infrared AGB star spectra are affected by interstellar extinction. Several stars in our sample have no detectable dust emission, and we used these ‘naked stars’ to characterize the stellar and molecular contributions to the infrared spectra of our target stars. The resulting dust spectra of our targets do indeed show significant variety in their spectral appearance, pointing to differing dust compositions for the targets. We classify the spectra based on the shape of their 10-μm emission following the scheme by Sloan & Price. We find that the early silicate emission classes associated with oxide dust are generally under-represented in our sample due to extinction effects. We also find a weak 13-μm dust feature in two of our otherwise naked star spectra, suggesting that the carrier of this feature could potentially be the first condensate in the sequence of dust condensation. [ABSTRACT FROM PUBLISHER]

Published

2014

7. On the metallicity dependence of crystalline silicates in oxygen-rich asymptotic giant branch stars and red supergiants.

Author

Jones, O. C., Kemper, F., Sargent, B. A., McDonald, I., Gielen, C., Woods, Paul M., Sloan, G. C., Boyer, M. L., Zijlstra, A. A., Clayton, G. C., Kraemer, K. E., Srinivasan, S., and Ruffle, P. M. E.

Subjects

*ASYMPTOTIC giant branch stars, *SILICATES, *SUPERGIANT stars, *CRYSTALS, *MASS loss (Astrophysics), *OXYGEN, *CIRCUMSTELLAR matter, *SPECTROGRAPHS

Abstract

ABSTRACT We investigate the occurrence of crystalline silicates in oxygen-rich evolved stars across a range of metallicities and mass-loss rates. It has been suggested that the crystalline silicate feature strength increases with increasing mass-loss rate, implying a correlation between lattice structure and wind density. To test this, we analyse Spitzer Infrared Spectrograph and Infrared Space Observatory Short Wavelength Spectrometer spectra of 217 oxygen-rich asymptotic giant branch and 98 red supergiants in the Milky Way, the Large and Small Magellanic Clouds, and Galactic globular clusters. These encompass a range of spectral morphologies from the spectrally rich which exhibit a wealth of crystalline and amorphous silicate features to 'naked' (dust-free) stars. We combine spectroscopic and photometric observations with the grams grid of radiative transfer models to derive (dust) mass-loss rates and temperature. We then measure the strength of the crystalline silicate bands at 23, 28 and 33 μm. We detect crystalline silicates in stars with dust mass-loss rates which span over 3 dex, down to rates of ∼10−9 M⊙ yr−1. Detections of crystalline silicates are more prevalent in higher mass-loss rate objects, though the highest mass-loss rate objects do not show the 23-μm feature, possibly due to the low temperature of the forsterite grains or it may indicate that the 23-μm band is going into absorption due to high column density. Furthermore, we detect a change in the crystalline silicate mineralogy with metallicity, with enstatite seen increasingly at low metallicity. [ABSTRACT FROM AUTHOR]

Published

2012

8. The chemistry of extragalactic carbon stars.

Author

Woods, Paul M., Walsh, C., Cordiner, M. A., and Kemper, F.

Subjects

N stars, INFRARED spectroscopy, ACETYLENE, ASTRONOMICAL observations, COSMOCHEMISTRY, CIRCUMSTELLAR matter, MAGELLANIC clouds

Abstract

ABSTRACT Prompted by the ongoing interest in Spitzer Infrared Spectrometer spectra of carbon stars in the Large Magellanic Cloud, we have investigated the circumstellar chemistry of carbon stars in low-metallicity environments. Consistent with observations, our models show that acetylene is particularly abundant in the inner regions of low metallicity carbon-rich asymptotic giant branch stars - more abundant than carbon monoxide. As a consequence, larger hydrocarbons have higher abundances at the metallicities of the Magellanic Clouds than in stars with solar metallicity. We also find that the oxygen and nitrogen chemistry is suppressed at lower metallicity, as expected. Finally, we calculate molecular line emission from carbon stars in the Large and Small Magellanic Cloud and find that several molecules should be readily detectable with the Atacama Large Millimeter Array at Full Science operations. [ABSTRACT FROM AUTHOR]

Published

2012

9. DISCOVERY AND ANALYSIS OF 21 μm FEATURE SOURCES IN THE MAGELLANIC CLOUDS.

Author

VOLK, KEVIN, HRIVNAK, BRUCE J., MATSUURA, MIKAKO, BERNARD-SALAS, JERONIMO, SZCZERBA, RYSZARD, SLOAN, G. C., KRAEMER, KATHLEEN E., VAN LOON, JACCO TH., KEMPER, F., WOODS, PAUL M., ZIJLSTRA, ALBERT A., SAHAI, RAGHVENDRA, MEIXNER, MARGARET, GORDON, KARL D., GRUENDL, ROBERT A., TIELENS, ALEXANDER G. G. M., INDEBETOUW, REMY, and MARENGO, MASSIMO

Subjects

MAGELLANIC clouds, SPECTRUM analysis, PROTO-planetary nebulae, PLANETARY nebulae, N stars, STELLAR spectra

Abstract

Spitzer Space Telescope mid-infrared spectroscopy has been obtained for 15 carbon-rich protoplanetary nebulae (PPNe) in the Large Magellanic Cloud (LMC) and for two other such stars in the Small Magellanic Cloud (SMC). Of these 17 PPNe, the unidentified 21 μm feature is strong in 7 spectra, weak in 2 spectra, and very weak or questionable in 4 spectra. Two of the four spectra without the 21 μm feature have a very strong feature near 11 μm, similar to a feature observed in some carbon-rich planetary nebulae (PNe) in the LMC. We attribute this feature to unusual SiC dust, although the feature-to-continuum ratio is much larger than for SiC features in Galactic or Magellanic Cloud carbon star spectra. The remaining two objects show typical carbon-rich PPNe spectra with no 21 μm features. One of the LMC objects that lacks the 21 μm feature and one SMC object with a questionable 21 μm detection may have mixed dust chemistries based upon their spectral similarity to Galactic [WC] PNe. The 13 objects that either definitely or may show the 21 μm feature have distinct dust shell properties compared to the Galactic 21 μm objects—the 21 μm features are weaker, the estimated dust temperatures are significantly higher, the unidentified infrared (UIR) bands are stronger, and the UIRs show more structure. Four of the 21 μm objects appear to show normal SiC emission features in their spectra. Many of the PPNe show strong 30 μm features, although this feature carries less of the total mid-infrared emission than is normally the case for the Galactic 21 μm PPNe. The LMC objects are in the LMC halo rather than in the LMC bar. The estimated luminosities of these PPNe vary from 4700 to 12,500 L ☉. [ABSTRACT FROM AUTHOR]

Published

2011

10. The global gas and dust budget of the Large Magellanic Cloud: AGB stars and supernovae, and the impact on the ISM evolution.

Author

Matsuura, M., Barlow, M. J., Zijlstra, A. A., Whitelock, P. A., Cioni, M.-R. L., Groenewegen, M. A. T., Volk, K., Kemper, F., Kodama, T., Lagadec, E., Meixner, M., Sloan, G. C., and Srinivasan, S.

Subjects

MAGELLANIC clouds, DWARF galaxies, SUPERNOVAE, INTERSTELLAR medium, ASTRONOMY

Abstract

We report on an analysis of the gas and dust budget in the interstellar medium (ISM) of the Large Magellanic Cloud (LMC). Recent observations from the Spitzer Space Telescope enable us to study the mid-infrared dust excess of asymptotic giant branch (AGB) stars in the LMC. This is the first time we can quantitatively assess the gas and dust input from AGB stars over a complete galaxy, fully based on observations. The integrated mass-loss rate over all intermediate and high mass-loss rate carbon-rich AGB candidates in the LMC is , up to . This number could be increased up to if oxygen-rich stars are included. This is overall consistent with theoretical expectations, considering the star formation rate (SFR) when these low- and intermediate-mass stars where formed, and the initial mass functions. AGB stars are one of the most important gas sources in the LMC, with supernovae (SNe), which produces about . At the moment, the SFR exceeds the gas feedback from AGB stars and SNe in the LMC, and the current star formation depends on gas already present in the ISM. This suggests that as the gas in the ISM is exhausted, the SFR will eventually decline in the LMC, unless gas is supplied externally. Our estimates suggest ‘a missing dust-mass problem’ in the LMC, which is similarly found in high- z galaxies: the accumulated dust mass from AGB stars and possibly SNe over the dust lifetime (400–800 Myr) is significant less than the dust mass in the ISM. Another dust source is required, possibly related to star-forming regions. [ABSTRACT FROM AUTHOR]

Published

2009

11. Modelling gas and dust around carbon stars in the Large Magellanic Cloud.

Author

Srinivasan, Sundar, Chen, I.-K., Scicluna, P., Cami, J., and Kemper, F.

Abstract

In order to investigate the effect of dust production on the molecular absorption, we model the dust continuum and the 7.5 and 13.7 μ m acetylene absorption features in the Spitzer IRS spectra of 148 carbon stars in the Large Magellanic Cloud (LMC). Our preliminary investigation does not find a strong correlation between the dust-production rate and the column density of acetylene for the LMC sample. However, we will construct more models at high optical depths and probe a larger range of dust properties for more robust results. [ABSTRACT FROM AUTHOR]

Published

2018

12. Modelling dust around Nearby Evolved Stars Survey (NESS) Targets.

Author

Srinivasan, Sundar, Dharmawardena, T., Kemper, F., and Scicluna, P.

Abstract

We present radiative transfer modelling of the dust around U Ant, a well-studied detached-shell source. U Ant is among the >400 sources targeted by the Nearby Evolved Stars Survey (NESS; PI: P. Scicluna), and the procedure used to model this source will be applied to the rest of the AGB sample in NESS. [ABSTRACT FROM AUTHOR]

Published

2018

13. Measuring spatially resolved gas-to-dust ratios in AGB stars.

Author

Wallström, Sofia, Dharmawardena, T., Rodríguez Marquina, B., Scicluna, P., Srinivasan, S., and Kemper, F.

Abstract

Gas-to-dust ratios in Asymptotic Giant Branch (AGB) stars are used to calculate gas masses from measured dust masses and vice versa, but can vary widely and are rarely directly measured. In this work, we present spatially resolved gas and dust masses for a sample of 8 nearby AGB stars, using JCMT CO-line and continuum observations, and compare them. This serves as a pilot study for the Nearby Evolved Stars Survey (NESS; PI: P. Scicluna) project which will provide similar observations of ∼400 AGB stars in a volume-limited sample. [ABSTRACT FROM AUTHOR]

Published

2018

14. Comparative Studies of the Dust around Red Supergiant and Oxygen-Rich Asymptotic Giant Branch Stars in the Local Universe.

Author

Sargent, B. A., Srinivasan, S., Speck, A., Volk, K., Kemper, F., Reach, W., Lagadec, E., Bernard, J.-P., McDonald, I., Meixner, M., Sloan, G. C., Jones, O., and Benvenuti, Piero

Abstract

We analyze the dust emission features seen in Spitzer Space Telescope Infrared Spectrograph (IRS) spectra of red supergiant (RSG) and oxygen-rich asymptotic giant branch (AGB) stars in the Large Magellanic Cloud and Small Magellanic Cloud galaxies and in various Milky Way globular clusters. The spectra come from the Spitzer Legacy program SAGE-Spectroscopy (PI: F. Kemper), the Spitzer program SMC-Spec (PI: G. Sloan), and other archival Spitzer-IRS programs. The broad 10 and 20 micron emission features attributed to amorphous dust of silicate composition seen in the spectra show evidence for systematic differences in the centroid of both emission features between O-rich AGB and RSG populations. Radiative transfer modeling using the GRAMS grid of models of AGB and RSG stars suggests that the centroid differences are due to differences in dust properties. We investigate differences in dust composition, size, shape, etc that might be responsible for these spectral differences. We explore how these differences may arise from the different circumstellar environments around RSG and O-rich AGB stars and assess effects of varying metallicity (LMC versus SMC versus Milky Way globular cluster) and other properties (mass-loss rate, luminosity, etc.) on the dust originating from these stars. BAS acknowledges funding from NASA ADAP grant NNX13AD54G. [ABSTRACT FROM PUBLISHER]

Published

2015