Ørkenglas

Ørkenglas, eng. Impact glass, Libysk ørkenglas (LDG) , Darwin glas (Tasmanien) eller Edeowie glas (Australien) er fundet i store (10 gange kilometervis) regioner i sandede ørkener i den Libyske ørken, Afrika, og i det sydlige Australien.

Der er også fundet glasstykker udover sydøstasien som er blevet dannet for ca. 800.000 år siden, men intet krater er fundet.^[1]

Også i Atacama-ørknen er der fundet glas dannet ved et komet-nedslag.^[2]

Libysk ørkenglas

Det klare gulgrønne glas består af op til 96,5-99% SiO₂ og i stykker på op til 26 kg. Det menes at der er mellem 100-1.000 tons glas.

Ifølge en undersøgelse, af den østrigske astrokemiker Christian Köberl, er de indlejrede zirkon-krystaller blevet varmet op til 1.800 °C og glasset er dannet for ca. 29 millioner år siden.^[3]^[4] Der er fundet små mængder af iridium og osmium, i glasstykker med mørke bånd, hvilket indikerer kondrit iblanding. Ifølge Köberl peger osmium-isotopsammensætningen på en ikke-jordisk oprindelse. Men der er ikke fundet et nedslagskrater med den rigtige alder.

Glassets oprindelse bindes sammen med stærk varmestråling fra en stor luftmeteoreksplosion. Faktisk af samme slags som Tunguska-eksplosionen i 1908 – dvs. en eksplosion i atmosfæren – dog måske 1.000 gange stærkere, som den mest sandsynlige forklaring.

Trinitytesten

Uddybende artikel: Trinitytesten

Ved en 20.000 tons TNT atombombedetonation i New Mexicos ørken, på Trinitytesten, blev en større overflade af sand og sandsten omdannet til et ca. 1 cm tykt grøngult glas og delvist smeltet sand. En af observatørene, Ben Benjamin, fik lov at gå på ground-zero-området en uge efter, som knasede pga. grøngult glas og delvist smeltet sand.

Se også

Kilder/referencer

^ V. V. Svetsov1 and J. T. Wasson2, 1Institute for Dynamics of Geospheres, Russian Academy of Sciences, Leninskiy Prospekt 38-1, Moscow, 119334: Melting of soil rich in quartz by radiation from aerial bursts – a possible cause of formation of libyan desert glass and layered tektites Citat: "...Melt thickness: Most soils are opaque. It is impossible to melt minerals 1 cm thick by radiation (UV, visible, or IR) during a reasonable time because of small thermal conductivity. In contrast, quartz and silica glass are transparent...After radiation heats a thin layer to the melting point, the surface transmits light and the next layer is heated; thus, a melting wave moves into the target...For the SE Asia area of 7·10^5 km^2 the energy release necessary for 5-cm-thick melting will be 3·10^21 J that is close to the kinetic energy of a 3-km-diameter stony asteroid with a velocity 11 km/s..."
^ Massive Comet Exploded over Atacama Desert 12,000 Years Ago, Study Suggests. Science News 2021
^ 19 July 2006, BBC News: Tut's gem hints at space impact
^ Christian Koeberl: Libyan Desert Glass: geochemical composition and origin

Eksterne henvisninger

Wikimedia Commons har flere filer relateret til Ørkenglas

Google Scholar: "Desert Glass"
Desert Glass. An Enigma. Written by John W. Olsen and James R. Underwood Arkiveret 26. februar 2009 hos Wayback Machine Citat: "...On the other hand, most Libyan Desert glass is much more dense and homogeneous than the well described porous and impure "impact" glass (impactite) found in such craters as Henbury in central Australia, Wabar in the Rub'al-Khali of Saudi Arabia, or 4 the nuclear test craters in Nevada...The glass has been reliably dated (by fission-track methods), as 28.5 million years old...Clayton and Spencer said that at least 10 percent of the Libyan Desert glass flakes recovered exhibited some sign of human workmanship..."
world-mysteries.com: David Hatcher Childress: Mysterious Glass in the Egyptian Sahara Arkiveret 14. april 2006 hos Wayback Machine PS: Det er yderst let at finde uunderbyggede oprindelseshypoteser a la "forhistorisk atomkrig".
Brooch of Tutankhamun Holds Evidence of Ancient Comet. Popular Archaeology

[1] V. V. Svetsov1 and J. T. Wasson2, 1Institute for Dynamics of Geospheres, Russian Academy of Sciences, Leninskiy Prospekt 38-1, Moscow, 119334: Melting of soil rich in quartz by radiation from aerial bursts – a possible cause of formation of libyan desert glass and layered tektites Citat: "...Melt thickness: Most soils are opaque. It is impossible to melt minerals 1 cm thick by radiation (UV, visible, or IR) during a reasonable time because of small thermal conductivity. In contrast, quartz and silica glass are transparent...After radiation heats a thin layer to the melting point, the surface transmits light and the next layer is heated; thus, a melting wave moves into the target...For the SE Asia area of 7·10^5 km^2 the energy release necessary for 5-cm-thick melting will be 3·10^21 J that is close to the kinetic energy of a 3-km-diameter stony asteroid with a velocity 11 km/s..."

[2] Massive Comet Exploded over Atacama Desert 12,000 Years Ago, Study Suggests. Science News 2021

[BarakatKoeberl-3] 19 July 2006, BBC News: Tut's gem hints at space impact

[Koeberl-4] Christian Koeberl: Libyan Desert Glass: geochemical composition and origin

[1]

[2]

[3]

[4]