1-20 OF 93 RESULTS FOR

Libyan Desert Glass

Results shown limited to content with bounding coordinates.
Follow your search
Access your saved searches in your account

Would you like to receive an alert when new items match your search?
Close Modal
Sort by
Journal Article
Published: 01 October 2023
American Mineralogist (2023) 108 (10): 1906–1923.
...Elizaveta Kovaleva; Hassan Helmy; Said Belkacim; Anja Schreiber; Franziska D.H. Wilke; Richard Wirth Abstract The origin of Libyan Desert Glass (LDG) found in the western parts of Egypt close to the Libyan border is debated in planetary science. Two major theories of its formation are currently...
FIGURES | View All (12)
Journal Article
Published: 01 July 2022
American Mineralogist (2022) 107 (7): 1325–1340.
... or by devitrification. Here we report a study of α-cristobalite in Libyan Desert Glass (LDG), a nearly pure silica natural glass of impact origin found in western Egypt, using electron microprobe analysis (EMPA), laser ablation inductively coupled mass spectrometry (LA-ICP-MS), time-of-flight secondary ion mass...
FIGURES | View All (13)
Journal Article
Journal: Geology
Published: 02 May 2019
Geology (2019) 47 (7): 609–612.
... environments and, in the case of Chelyabinsk, injured humans. Enigmatic natural glasses have been cited as geologic evidence of the threat posed by large airbursts. Libyan Desert Glass (LDG) is a natural glass found in western Egypt that formed ∼29 m.y. ago, however its origin is disputed; the two main...
FIGURES
Series: GSA Special Papers
Published: 01 January 1999
DOI: 10.1130/0-8137-2339-6.177
Image
Cathodoluminescence images of <span class="search-highlight">Libyan</span> <span class="search-highlight">Desert</span> <span class="search-highlight">Glass</span>. ( a ) Sample LDG-2018-2a...
Published: 01 July 2022
Figure 1. Cathodoluminescence images of Libyan Desert Glass. ( a ) Sample LDG-2018-2a, showing layering. ( b ) Sample LDG-2018-2b; inset shows the cristobalite grain in Figure 2a .
Image
Model of β-cristobalite origin in <span class="search-highlight">Libyan</span> <span class="search-highlight">Desert</span> <span class="search-highlight">Glass</span> (LDG). ( a ) Silica-r...
Published: 01 July 2022
Figure 13. Model of β-cristobalite origin in Libyan Desert Glass (LDG). ( a ) Silica-rich precursor material (quartz arenite?), pre-impact. Gray and black grains represent Al-bearing phases. ( b ) Rapid superheating of the precursor formed layered silica melt. ( c ) Crystallization of magmatic β
Image
Map showing location of <span class="search-highlight">Libyan</span> <span class="search-highlight">Desert</span> <span class="search-highlight">Glass</span> (LDG) field in western Egypt (a...
Published: 02 May 2019
Figure 1. Map showing location of Libyan Desert Glass (LDG) field in western Egypt (after Koeberl, 1997 ). Also shown are two regional impact structures, B.P. (2 km diameter) and Oasis (18 km diameter) ( Abate et al., 1999 ).
Image
Granular zircon from <span class="search-highlight">Libyan</span> <span class="search-highlight">Desert</span> <span class="search-highlight">Glass</span> that preserves evidence of former ...
Published: 02 May 2019
Figure 2. Granular zircon from Libyan Desert Glass that preserves evidence of former reidite. A: Backscattered electron (BSE) image showing granular core (neoblastic zircon 1, nz1) surrounded by partially detached corona (rim) consisting of zirconia (baddeleyite) intergrown with a later
Image
Raman spectra in the frequency range 20–1400 cm −1  of lechatelierite and L...
Published: 01 May 2022
Figure 20. Raman spectra in the frequency range 20–1400 cm −1 of lechatelierite and Libyan Desert Glass (LDG). The frequency position of the main vibrations is reported.
Image
SiO 2  vs. total alkali (wt.%) diagram for several natural non-magmatic gla...
Published: 01 May 2022
Figure 1. SiO 2 vs. total alkali (wt.%) diagram for several natural non-magmatic glasses described in this chapter. Glasses deriving from magmatic processes are reported for comparison. Data compilation from Cicconi and Neuville (2019) . Combustion glasses from Table 1 . LDG = Libyan Desert
Image
Simplified pressure-temperature ( P - T ) diagram (modified after  French, ...
Published: 02 May 2019
exaggerated for convenience of illustration; atmospheric overpressures from airburst are in thousands of pascals range (e.g., Aftosmis et al., 2019 ). Observations from Libyan Desert Glass (LDG) (this study) and Australasian tektites (AT) (see text) are indicated. Neoblastic zircon 1 and 2 refer to different
Journal Article
Published: 01 May 2022
Reviews in Mineralogy and Geochemistry (2022) 87 (1): 965–1014.
...Figure 20. Raman spectra in the frequency range 20–1400 cm −1 of lechatelierite and Libyan Desert Glass (LDG). The frequency position of the main vibrations is reported. ...
FIGURES | View All (23)
Journal Article
Published: 01 April 2012
Earth Sciences History (2012) 31 (1): 50–75.
... that the scarab in the amulet of the Pharaoh king Tutankhamon is made of a piece of greenish colored Libyan desert glass ( George 2000 ). Although the associated pebbles are rounded, the glass shows no signs of having been rolled, though its surface is wind-eroded ( Clayton and Spencer 1934 ). This Libyan desert...
FIGURES | View All (4)
Journal Article
Published: 01 March 2002
Geological Magazine (2002) 139 (2): 236–237.
... the main tektite theme to discuss occurrences of other natural glasses in relation to impacts, such as Libyan Desert Glass in Egypt, Darwin Glass in Tasmania, and glasses associated with the Zhamanshin crater in Kazakhstan. The discussion is extended to cover tektite-like glass from the K/T boundary...
Journal Article
Journal: Geology
Published: 01 October 2001
Geology (2001) 29 (10): 899–902.
... formation of Libyan Desert glass by a Tunguska- like aerial burst : Meteoritics and Planetary Science , v. 33 suppl., Ap. 163 - A164 . Impact cratering is well known as a process capable of melting crustal materials. The products are found within and around craters, but may also be transported...
FIGURES | View All (4)
Journal Article
Published: 01 June 2002
The Canadian Mineralogist (2002) 40 (3): 999–1000.
...) and Wabar (Saudi Arabia) craters, Libyan Desert Glass (Egypt), Darwin Glass (Tasmania), etc. For some reason, the Lonar Crater glasses (India) have been neglected. An impact origin for the latter has been disputed, but it would have been useful to present this controversy. McCall spends considerable...
Journal Article
Journal: Geology
Published: 01 February 2007
Geology (2007) 35 (2): 171–174.
... here the composition of CO 2 , CO, and NO contained within the glassy bubbles of a fulgurite from the Libyan Desert. The results show that the fulgurite formed when the ground contained 0.1 wt% organic carbon with a C/N ratio of 10–15 and a δ 13 C of −13.96‰, compositions similar to those found...
FIGURES
Series: EMU Notes in Mineralogy series
Published: 01 January 2019
DOI: 10.1180/EMU-notes.20.9
EISBN: 9780903056625
... Tutankhamun’s pectoral and Libyan Desert Glass Libyan Desert Glass (LDG) ( Fig. 7 ) is a natural glass consisting mainly of silica (SiO 2 ~98 wt.%) and traces of Al, Fe, Mg and other metals ( Fudali, 1981 ; Koeberl, 1986 , 1997 ; Barrat et al. , 1997 ; Greshake et al. , 2010 , 2018 ). The H 2 O...
FIGURES | View All (11)
Image
Progressive impact (shock) metamorphism: Due to the interaction of the shoc...
Published: 01 March 2007
of an experimentally shocked Hospital Hill quartzite specimen; shock pressure 8 GPa. Note the many short, irregularly shaped cracks. Crossed polarizers; width of field of view ~1.3 mm. Figure 7g. Planar fractures in quartz in a sandstone sample from the Libyan Desert Glass area, Egypt. The PFs are seemingly
Image
Progressive impact (shock) metamorphism: Due to the interaction of the shoc...
Published: 01 March 2007
of an experimentally shocked Hospital Hill quartzite specimen; shock pressure 8 GPa. Note the many short, irregularly shaped cracks. Crossed polarizers; width of field of view ~1.3 mm. Figure 7g. Planar fractures in quartz in a sandstone sample from the Libyan Desert Glass area, Egypt. The PFs are seemingly