Publications (2)0 Total impact
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ABSTRACT: Dust is injected into the interplanetary medium by both comets and asteroids and there is reason to believe that particles from both of these types of sources are represented in the population of interplanetary dust collected in the stratosphere. The presence of isotopic anomalies and of adjacent mineral and carbonaceous phases that are chemically unequilibrated indicates that these particles contain primitive materials that have avoided many of the alteration processes that have affected most other extraterrestrial materials since their aggregation in the Solar nebula. This suggests that many of the subcomponents of the collected dust may have a chemical and isotopic 'memory' that extends back through the formation of the Solar System and therefore reflects the properties of interstellar dust populations. Indeed, it is possible that some of the subcomponents of the collected dust could have been true interstellar dust grains prior to the formation of the Solar nebula. The implications of this possibility will be discussed in light of our present knowledge of interplanetary dust.
02/1994;
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ABSTRACT: It is commonly accepted that constant exposure of comets and ice grains to ultraviolet (UV) radiation causes an organic crust to form on their surface, but the exact molecules that comprise the crust remains a mystery. Based on our lab simulations of interstellar and cometary ices (a paper to be submitted this spring) we believe that Hexamethylenetetramine (HMT) may be a major component of the organic crust on the surface of comets and ice grains. The enclosed paper presents the laboratory infrared spectra and UV photochemistry of HMT under conditions akin to that of the interstellar medium.
02/1994;
