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4.4g Ksar Ghilane 023 end slice Achondrite Ungrouped Meteorite

4.4g Ksar Ghilane 023 end slice Achondrite Ungrouped Meteorite

Top Meteorite

  • $ 330.00

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On Offer: 4.4g end slice of the ungrouped achondrite Ksar Ghilane 023 composed of more than 90% subcalcic diopside and exotic aubrite-like sulfides. 

This is a very special new achondrite meteorite, currently under classification at CCMS and other institutions, that is arguably the strongest candidate for a meteorite from the planet Mercury. This meteorite likely pairs with a similar magnesian diopside achondrite NWA 15915, but while the geochemistries, modality, and oxygen isotopic ratios are nearly identical, they seems to have slightly different textures with this meteorite having smaller overall crystal size than NWA 15915 resulting in remarkably different overall macroscopic appearance.

Officla name: Ksar Ghilane 023 

 

Class: Achondrite-ung

Parent Body: Unkown inner solar system differentiated body, with speculation for *Mercury

Description: 4.4 beautiful end slice of an amazing new ungrouped achondrite composed almost entirely of iron free subcalcic diopside. This meteorite is very friable (fragile), because of this we have decided to leave the finish natural with no stabilization or filling in of voids during the polishing process. 



Dustin studying Ksar Ghilane 023  at the CU Boulder microprobe lab. Dustin's Research focuses on better understanding the immiscible spheroidal exotic sulfides in this fascinating achondrite. We have identified; oldhamite, alabandite, daubréelite, and caswellsilverite. Our analysis show this meteorite has no appreciable iron (Fs0-0.1) in the silicates. The exotic aubrite-like sulfide minerals do sometimes contain Fe with an XS chemical formula where S is sulfur and X can be Ca, Mg, Mn, Fe, or Cr which can take the form of the exotic cubic sulfides; oldhamite, alabandite, daubréelite, and caswellsilverite, and others that are only found in the highly reduced enstatite chondrites, aubrites and rare reduced ungrouped achondrites.

*These new magnesian (Fs0-0.1) clinopyroxenites are hypothesized to have a chemistry and mineralogy corresponding to a parent body such as Mercury. It's unlikely we will ever be able to 100% confirm or refute this hypothesis, unless a successful sample return mission to Mercury is someday undertaken. This is highly unlikely anytime in the near to midterm future do to Mercury's proximity to the Sun and the inherent difficultly of such a return mission. 

What you get: 4.4 end slice of Ksar Ghilane 023 ungrouped achondrite meteorite specimen, as shown in a clear protective membrane box, with a signed Certificate of Authenticity.

I offer a 100% no questions asked 30 day return policy.

SEE OFFICIAL METEORITICAL SOCIETY ENTRY BELOW

Ksar Ghilane 023
Basic information Name: Ksar Ghilane 023
     This is an OFFICIAL meteorite name.
Abbreviation: KG 023
Observed fall: No
Year found: 2023
Country: Tunisia
Mass:help 16 kg
Classification
  history:
Recommended:   Achondrite-ung

This is 1 of 172 approved meteorites classified as Achondrite-ung.    
Search for other: Achondrites, Ungrouped achondrites
Comments: Approved 18 Oct 2025
Writeuphelp
Writeup from MB 114:

Ksar Ghilane 023 (KG 023)        32°33'31.4"N, 9°30'27.2"E

Tatawin, Tunisia

Purchased: 2023 Mar

Classification: Ungrouped achondrite

History: Several stones were acquired by Ahmed Saleck E. in March of 2023 near Libya while he was traveling in the region.

Physical characteristics: Several stones with exterior covered in a friable black fusion crust with saw cut revealing a gray and white interior.

Petrography: (D. Dickens, LMAC) Two polished thin sections were analyzed using EPMA and BSE imaging. This meteorite is a highly reduced coarse grained Mg-rich clinopyroxenite composed predominantly of endmember augite (perhaps better described as subcalcic diopside) ~92.5 vol.% with minor enstatite ~7.5% vol.% and accessory aubrite-like sulfides. Enstatite occurs as small anhedral and subhedral grains poikilitically enclosed within clinopyroxene. Enstatite is also found as fine exsolution lamellae within clinopyroxene grains. Sulfides are troilite, alabandite, daubréelite, caswellsilverite, and oldhamite occurring as monophase and polyphase immiscible spheroids ranging from approximately 5 to 50 µm within clinopyroxene grains. A single small grain of low-Ni kamacite was found and confirmed with EDS. No olivine or plagioclase were detected.

Geochemistry: (D. Dickens, LMAC and Aaron S. Bell, Ucolo) Augite Fs0.0-0.1Wo37.4-40.9 (N=39), enstatite Fs0.0-0.1Wo0.9-3.6 (N=20). Alabandite Mn=45.9±1.8 wt%, S=36.3±0.4 wt%, Fe=15.8±1.8 wt% (N=19). Daubréelite S=43.2±0.5 wt%, Cr=34.2±0.6 wt%, Fe=18.2±0.9 wt% (N=39). Caswellsilverite S=43.9±0.2 wt%, Cr=35.5±0.1 wt%, Na=14.8±0.01 wt% (N=2). Oldhamite Ca=54.3 wt%, S=41.5 wt% (N=1). Oxygen isotopes (R. Greenwood, OU): analyses of acid-washed subsamples by laser fluorination gave, respectively, δ17O 2.906, 2.931; δ18O 5.521, 5.547; Δ17O 0.009, 0.020 per mil (all data linearized, TFL slope = 0.5247).

Classification: Achondrite (ungrouped, Mg-rich clinopyroxenite) This meteorite is related to KG 022 and NWA 15915 based on nearly identical geochemistry and minerology as well as updated oxygen isotope analysis of KG 023, KG 022, and NWA 15915 analyzed in the same run and using a consistent 0.5247 slope value for all samples. Results show a tight grouping for all three meteorites. *Previous oxygen isotope analysis for KG 023, KG 022 and NWA 15915 were performed under different conditions at different labs using different slope values of 0.5247, 0.528 and 0.526 respectively.

Specimens: Type specimen of 20 g at TCU, remainder with Ahmed Saleck E.
Data from:
  MB114
  Table 0
  Line 0:
State/Prov/County: Tatawin
Place of purchase: Libya
Date: P 2023 Mar
Latitude: 32°33'31.4"N
Longitude: 9°30'27.2"E
Mass (g): 16000
Pieces: Several
Class: Achondrite-ung
Shock stage: low
Weathering grade: low
Ferrosilite (mol%): 0.0-0.1, 0.0-0.1
Wollastonite (mol%): 37.4-40.9, 0.9-3.6
Classifier: D. Dickens, LMAC
Type spec mass (g): 20
Type spec location: TCU
Main mass: Ahmed Saleck E.
Comments: Field name Mercury-01; submitted by Dustin Dickens

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