Add to ORKGDust is formed in the expanding atmosphere during late stages of stellar evolution. Dust influences the dynamics and thermodynamics of the stellar atmosphere by its opacity. The dust opacity depends both on the optical properties of the grain material as well as on the amount of dust present. A rich source of information on some mineral phases of dust in AGB stars comes from the study of presolar grains from meteorites. This paper presents a short overview of presolar grains studies and describes how the optical properties of dust grains are obtained in the laboratory
Mixed within the fine-grained material of primitive astromaterials (e.g., meteorites, micrometeorite...
Interplanetary dust pervades the inner Solar System, giving rise to a prominent glow above the horiz...
With their circumstellar envelopes AGB stars are marvelous laboratories to test our knowledge of mic...
Abstract only availableCircumstellar dust is the key to understanding the cosmos. Circumstellar dust...
We have found two presolar silica grains in ALH A77307, which exhibit excesses in 17O but are normal...
The discovery of presolar grains in meteorites is one of the most exciting recent developments in me...
The study of presolar meteoritic grains is a new inter-disciplinary field that brings together topic...
Aims. In this paper, we aim to constrain the dust mass and grain sizes in the interaction regions be...
Context. In recent years, high spatial resolution techniques have given valuable insights into the c...
We present self-consistent dynamical models for dust driven winds of carbon-rich AGB stars. The mode...
Grains of stardust that formed in stellar outflows prior to the formation of the solar system surviv...
This is the final version. Available from American Astronomical Society via the DOI in this record. ...
Dust production in the wind of stars evolving through the asymptotic giant branch is investigated by...
Dust formation around cool giant and supergiant stars is examined in terms of grain formulation. Opt...
Context. Dust grains forming in the extended atmospheres of AGB stars are critical for the heavy mas...
Mixed within the fine-grained material of primitive astromaterials (e.g., meteorites, micrometeorite...
Interplanetary dust pervades the inner Solar System, giving rise to a prominent glow above the horiz...
With their circumstellar envelopes AGB stars are marvelous laboratories to test our knowledge of mic...
Abstract only availableCircumstellar dust is the key to understanding the cosmos. Circumstellar dust...
We have found two presolar silica grains in ALH A77307, which exhibit excesses in 17O but are normal...
The discovery of presolar grains in meteorites is one of the most exciting recent developments in me...
The study of presolar meteoritic grains is a new inter-disciplinary field that brings together topic...
Aims. In this paper, we aim to constrain the dust mass and grain sizes in the interaction regions be...
Context. In recent years, high spatial resolution techniques have given valuable insights into the c...
We present self-consistent dynamical models for dust driven winds of carbon-rich AGB stars. The mode...
Grains of stardust that formed in stellar outflows prior to the formation of the solar system surviv...
This is the final version. Available from American Astronomical Society via the DOI in this record. ...
Dust production in the wind of stars evolving through the asymptotic giant branch is investigated by...
Dust formation around cool giant and supergiant stars is examined in terms of grain formulation. Opt...
Context. Dust grains forming in the extended atmospheres of AGB stars are critical for the heavy mas...
Mixed within the fine-grained material of primitive astromaterials (e.g., meteorites, micrometeorite...
Interplanetary dust pervades the inner Solar System, giving rise to a prominent glow above the horiz...
With their circumstellar envelopes AGB stars are marvelous laboratories to test our knowledge of mic...