Gyarub Zangbo 001 Pallasite #21 – 4,5 g

242,76 $

Gyarub Zangbo is a pallasite-type meteorite discovered in Tibet in 2020, weighing just 18 kg.
The mineral chemistry, the O and Cr isotopes of olivine and the metallic phase make this an anomalous carbonaceous pallasite.

Gyarub Zangbo appears to be a unique pallasite from a previously unrepresented asteroid in the pallasite collection.

 

Pallasites are unique stony-iron meteorites composed mainly of olivine and ferrous metal.
They are thought to have formed in the boundary region between the core and mantle of asteroids, inside asteroids.
Pallasites are meteorites composed of olivine crystals embedded in an iron-nickel matrix.
Pallasites are among the most aesthetically pleasing of meteorites.

Exceptional quality !

Thin, translucent slice protected by a very thin layer of resin.

Comes with certificate.

 

Gyarub Zangbo 001 Pallasite #20 – 4 g

217,98 $

Gyarub Zangbo is a pallasite-type meteorite discovered in Tibet in 2020, weighing just 18 kg.
The mineral chemistry, the O and Cr isotopes of olivine and the metallic phase make this an anomalous carbonaceous pallasite.

Gyarub Zangbo appears to be a unique pallasite from a previously unrepresented asteroid in the pallasite collection.

 

Pallasites are unique stony-iron meteorites composed mainly of olivine and ferrous metal.
They are thought to have formed in the boundary region between the core and mantle of asteroids, inside asteroids.
Pallasites are meteorites composed of olivine crystals embedded in an iron-nickel matrix.
Pallasites are among the most aesthetically pleasing of meteorites.

Exceptional quality !

Thin, translucent slice protected by a very thin layer of resin.

Comes with certificate.

 

Gyarub Zangbo 001 Pallasite #19 – 4 g

198,18 $

Gyarub Zangbo is a pallasite-type meteorite discovered in Tibet in 2020, weighing just 18 kg.
The mineral chemistry, the O and Cr isotopes of olivine and the metallic phase make this an anomalous carbonaceous pallasite.

Gyarub Zangbo appears to be a unique pallasite from a previously unrepresented asteroid in the pallasite collection.

 

Pallasites are unique stony-iron meteorites composed mainly of olivine and ferrous metal.
They are thought to have formed in the boundary region between the core and mantle of asteroids, inside asteroids.
Pallasites are meteorites composed of olivine crystals embedded in an iron-nickel matrix.
Pallasites are among the most aesthetically pleasing of meteorites.

Exceptional quality !

Thin, translucent slice protected by a very thin layer of resin.

Comes with certificate.

 

Gyarub Zangbo 001 Pallasite #18 – 8,1 g

366,61 $

Gyarub Zangbo is a pallasite-type meteorite discovered in Tibet in 2020, weighing just 18 kg.
The mineral chemistry, the O and Cr isotopes of olivine and the metallic phase make this an anomalous carbonaceous pallasite.

Gyarub Zangbo appears to be a unique pallasite from a previously unrepresented asteroid in the pallasite collection.

 

Pallasites are unique stony-iron meteorites composed mainly of olivine and ferrous metal.
They are thought to have formed in the boundary region between the core and mantle of asteroids, inside asteroids.
Pallasites are meteorites composed of olivine crystals embedded in an iron-nickel matrix.
Pallasites are among the most aesthetically pleasing of meteorites.

Exceptional quality !

Thin, translucent slice protected by a very thin layer of resin.

Comes with certificate.

 

TURPAN 003 #13 Fer – 3,3 g

65,40 $
Turpan 003 is an iron meteorite.
It was discovered in 2022 in China’s Xinjiang province.
What makes this meteorite unique in the world is its natural structure for an iron meteorite.
The structure of metallic meteorites is usually revealed by acid.
Another unique feature is its green, bubbly silicate inclusions.
Additional studies are currently underway.

 

TURPAN 003 #12 Fer – 3,5 g

69,36 $
Turpan 003 is an iron meteorite.
It was discovered in 2022 in China’s Xinjiang province.
What makes this meteorite unique in the world is its natural structure for an iron meteorite.
The structure of metallic meteorites is usually revealed by acid.
Another unique feature is its green, bubbly silicate inclusions.
Additional studies are currently underway.

 

TURPAN 003 #11 Fer – 1,9 g

37,66 $
Turpan 003 is an iron meteorite.
It was discovered in 2022 in China’s Xinjiang province.
What makes this meteorite unique in the world is its natural structure for an iron meteorite.
The structure of metallic meteorites is usually revealed by acid.
Another unique feature is its green, bubbly silicate inclusions.
Additional studies are currently underway.

 

TURPAN 003 #10 Fer – 3,6 g

71,34 $
Turpan 003 is an iron meteorite.
It was discovered in 2022 in China’s Xinjiang province.
What makes this meteorite unique in the world is its natural structure for an iron meteorite.
The structure of metallic meteorites is usually revealed by acid.
Another unique feature is its green, bubbly silicate inclusions.
Additional studies are currently underway.

 

Sikhote Alin #11 Fer IIAB – shrapnel 5,1 g

13,87 $

The Sikhote-Alin meteorite is an iron meteorite that fell in Siberia in 1947. This fall is unique in the history of meteorites, given the 70 tonnes that survived the journey through the Earth’s atmospher

A fall that’s harder and harder to find.

 

Sikhote Alin #10 Fer IIAB – shrapnel 12,2 g

33,68 $

The Sikhote-Alin meteorite is an iron meteorite that fell in Siberia in 1947. This fall is unique in the history of meteorites, given the 70 tonnes that survived the journey through the Earth’s atmospher

A fall that’s harder and harder to find.

 

Sikhote Alin #9 Fer IIAB – shrapnel 6,2 g

16,85 $

The Sikhote-Alin meteorite is an iron meteorite that fell in Siberia in 1947. This fall is unique in the history of meteorites, given the 70 tonnes that survived the journey through the Earth’s atmospher

A fall that’s harder and harder to find.

 

Sikhote Alin #8 Fer IIAB – shrapnel 16,3 g

44,59 $

The Sikhote-Alin meteorite is an iron meteorite that fell in Siberia in 1947. This fall is unique in the history of meteorites, given the 70 tonnes that survived the journey through the Earth’s atmospher

A fall that’s harder and harder to find.

 

Sikhote Alin #7 Fer IIAB – shrapnel 5,4 g

17,83 $

The Sikhote-Alin meteorite is an iron meteorite that fell in Siberia in 1947. This fall is unique in the history of meteorites, given the 70 tonnes that survived the journey through the Earth’s atmospher

A fall that’s harder and harder to find.

 

Sikhote Alin #6 Fer IIAB – shrapnel 9 g

24,77 $

The Sikhote-Alin meteorite is an iron meteorite that fell in Siberia in 1947. This fall is unique in the history of meteorites, given the 70 tonnes that survived the journey through the Earth’s atmospher

A fall that’s harder and harder to find.

 

Sikhote Alin #5 Fer IIAB – shrapnel 10,8 g

29,72 $

The Sikhote-Alin meteorite is an iron meteorite that fell in Siberia in 1947. This fall is unique in the history of meteorites, given the 70 tonnes that survived the journey through the Earth’s atmospher

A fall that’s harder and harder to find.