M. Tuleta scite author profile

The origin of life on Earth remains a fascinating mystery in spite of many theories existing on this subject. However, it seems that simple prebiotic molecules could play an essential role in the formation of more complex organisms. In our experiment, we synthesized a class of these molecules (quinones) bombarding frozen anthracene containing water with low energy hydrogen ions. This experiment roughly simulated the astrophysical conditions which one can find in the solar system. Thus, we can hypothesize that prebiotic molecules could be created by interaction of the solar wind with interplanetary dust grains. The delivery of these molecules to early Earth may have contributed to the generation of life on our planet.

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Low-energy ion bombardment of frozen bacterial spores and its relevance to interplanetary space

Tuleta¹,

Gabla²,

Szkarlat³

2005

Europhys. Lett.

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The panspermia hypothesis is concerned with the dissemination of life in space in the form of simple micro-organisms. During an interplanetary journey the micro-organisms are subjected to the action of, among others, the solar wind. We have simulated experimentally such conditions bombarding frozen bacterial spores with low-energy hydrogen ions. On the basis of the results obtained and our earlier research, a new look at the panspermia hypothesis is discussed.

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M. Tuleta

The influence of plasma processing on the surface composition of float glass

Bioastrophysical Aspects of Low Energy Ion Irradiation of Frozen Anthracene Containing Water

Low-energy ion bombardment of frozen bacterial spores and its relevance to interplanetary space

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