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Stability of Fe,Al-bearing bridgmanite in the lower mantle and synthesis of pure Fe-bridgmanite

Authors :
Ismailova, L
Bykova, E
Bykov, M
Cerantola, V
Mccammon, C
Ballaran, T
Bobrov, A
Sinmyo, R
Dubrovinskaia, N
Glazyrin, K
Liermann, H
Kupenko, I
Hanfland, M
Prescher, C
Prakapenka, V
Svitlyk, V
Dubrovinsky, L
Ismailova L
Bykova E
Bykov M
Cerantola V
McCammon C
Ballaran TB
Bobrov A
Sinmyo R
Dubrovinskaia N
Glazyrin K
Liermann HP
Kupenko I
Hanfland M
Prescher C
Prakapenka V
Svitlyk V
Dubrovinsky L
Ismailova, L
Bykova, E
Bykov, M
Cerantola, V
Mccammon, C
Ballaran, T
Bobrov, A
Sinmyo, R
Dubrovinskaia, N
Glazyrin, K
Liermann, H
Kupenko, I
Hanfland, M
Prescher, C
Prakapenka, V
Svitlyk, V
Dubrovinsky, L
Ismailova L
Bykova E
Bykov M
Cerantola V
McCammon C
Ballaran TB
Bobrov A
Sinmyo R
Dubrovinskaia N
Glazyrin K
Liermann HP
Kupenko I
Hanfland M
Prescher C
Prakapenka V
Svitlyk V
Dubrovinsky L
Publication Year :
2016

Abstract

The physical and chemical properties of Earth’s mantle, as well as its dynamics and evolution, heavily depend on the phase composition of the region. On the basis of experiments in laser-heated diamond anvil cells, we demonstrate that Fe,Al-bearing bridgmanite (magnesium silicate perovskite) is stable to pressures over 120 GPa and temperatures above 3000 K. Ferric iron stabilizes Fe-rich bridgmanite such that we were able to synthesize pure iron bridgmanite at pressures between ~45 and 110 GPa. The compressibility of ferric iron–bearing bridgmanite is significantly different from any known bridgmanite, which has direct implications for the interpretation of seismic tomography data.

Details

Database :
OAIster
Notes :
ELETTRONICO, English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1354534867
Document Type :
Electronic Resource

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