Add to ORKGIn this paper we discuss the propagation of dust through the interstellar medium (ISM), and describe the destructive effects of stellar winds, jets, and supernova shock waves on interstellar dust. We review the probability that grains formed in stellar outflows or supernovae survive processing in and propagation through the ISM, and incorporate themselves relatively unprocessed into meteoritic bodies in the solar system. We show that very large (radii >= 5 micron) and very small grains (radii = 250 km/s) shocks destroy dust efficiently. However, a small (~10%) fraction of the stardust never encountered such fast shocks before incorporation into the solar system. All grains should therefore retain traces of their passage through interstellar...
Metamorphism of refractory particles continues in the interstellar medium (ISM) where the driving fo...
This is the final version. Available from American Astronomical Society via the DOI in this recordTh...
Outflows of pre-main-sequence stars drive shocks into molecular material within 0.01-1 pc of the you...
There is a growing body of evidence for the existence of large (>0.25 mum) dust grains in the int...
Shockwaves driven by supernovae both destroy dust and reprocess the surviving grains, greatly affect...
Carbonaceous and silicate grains swept up, and betatron accelerated, by supernova-generated shock wa...
Identification by the Ulysses spacecraft of interstellar grains inside the planetary system provides...
The purpose is to study an evolving system of refractory dust grains within the Interstellar Medium ...
Supernova shocks play a significant part in the life of an interstellar grain. In a typical 10 to th...
Context. There is a long-standing and large discrepancy between the timescale for dust formation aro...
Supernova generated shock waves are responsible for most of the destruction of dust grains in the in...
Interstellar dust grains play a crucial role in the evolution of the galactic interstellar medium (I...
We investigate shattering and coagulation of dust grains in turbulent interstellar medium (ISM). The...
Grain growth by accretion of gas-phase metals is a common assumption in models of dust evolution, bu...
Context. There is a long-standing conundrum in interstellar dust studies relating to the discrepancy...
Metamorphism of refractory particles continues in the interstellar medium (ISM) where the driving fo...
This is the final version. Available from American Astronomical Society via the DOI in this recordTh...
Outflows of pre-main-sequence stars drive shocks into molecular material within 0.01-1 pc of the you...
There is a growing body of evidence for the existence of large (>0.25 mum) dust grains in the int...
Shockwaves driven by supernovae both destroy dust and reprocess the surviving grains, greatly affect...
Carbonaceous and silicate grains swept up, and betatron accelerated, by supernova-generated shock wa...
Identification by the Ulysses spacecraft of interstellar grains inside the planetary system provides...
The purpose is to study an evolving system of refractory dust grains within the Interstellar Medium ...
Supernova shocks play a significant part in the life of an interstellar grain. In a typical 10 to th...
Context. There is a long-standing and large discrepancy between the timescale for dust formation aro...
Supernova generated shock waves are responsible for most of the destruction of dust grains in the in...
Interstellar dust grains play a crucial role in the evolution of the galactic interstellar medium (I...
We investigate shattering and coagulation of dust grains in turbulent interstellar medium (ISM). The...
Grain growth by accretion of gas-phase metals is a common assumption in models of dust evolution, bu...
Context. There is a long-standing conundrum in interstellar dust studies relating to the discrepancy...
Metamorphism of refractory particles continues in the interstellar medium (ISM) where the driving fo...
This is the final version. Available from American Astronomical Society via the DOI in this recordTh...
Outflows of pre-main-sequence stars drive shocks into molecular material within 0.01-1 pc of the you...