P-V-T relations of wadsleyite determined by in situ X-ray diffraction in a large-volume high-pressure apparatus

Tomoo Katsura; Anton Shatskiy; M. A.Geeth M. Manthilake; Shuangmeng Zhai; Daisuke Yamazaki; Takuya Matsuzaki; Takashi Yoshino; Akira Yoneda; Eiji Ito; Mitsuhiro Sugita; Natotaka Tomioka; Akifumi Nozawa; Ken Ichi Funakoshi

doi:10.1029/2009GL038107

P-V-T relations of wadsleyite determined by in situ X-ray diffraction in a large-volume high-pressure apparatus

Tomoo Katsura, Anton Shatskiy, M. A.Geeth M. Manthilake, Shuangmeng Zhai, Daisuke Yamazaki, Takuya Matsuzaki, Takashi Yoshino, Akira Yoneda, Eiji Ito, Mitsuhiro Sugita, Natotaka Tomioka, Akifumi Nozawa, Ken Ichi Funakoshi

惑星物質研究所

研究成果 › 査読

54 被引用数 (Scopus)

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The volume of Mg₂SiO₄ wadsleyite has been precisely measured at pressures of 11 to 20 GPa and temperatures of 300 to 2100 K by means of in situ X-ray diffraction in a multi-anvil apparatus. The fixed isothermal bulk modulus K_TO = 169.2 GPa gives its pressure derivative K′_TO = 4.1(1). The fixed Debye temperature θ₀ = 814 K gives a Grüneisen parameter at ambient pressure γ₀ = 1.64(2) and its logarithmic volume dependence q = 1.5(1). The pressure derivative of the isothermal bulk modulus, Anderson-Grüneisen parameter and thermal expansion coefficient at ambient pressure are found to be (∂K _T/∂T)_P = -0.021(1) GPa/K, δ_T = 5.5(2), α₀ = 2.31(3) × 10^-5 + 1.18(3) × 10^-8 (T-300) K^-1. The pressure and volume dependence of thermal expansion coefficient of wadsleyite is the smallest among those of the mantle minerals. The adiabatic temperature gradient in the upper part of the mantle transition Zone is 0.34(1)K/Km.

本文言語	English
論文番号	L11307
ジャーナル	Geophysical Research Letters
巻	36
号	11
DOI	https://doi.org/10.1029/2009GL038107
出版ステータス	Published - 6月 16 2009

ASJC Scopus subject areas

地球物理学
地球惑星科学（全般）

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10.1029/2009GL038107

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Katsura, T., Shatskiy, A., Manthilake, M. A. G. M., Zhai, S., Yamazaki, D., Matsuzaki, T., Yoshino, T., Yoneda, A., Ito, E., Sugita, M., Tomioka, N., Nozawa, A., & Funakoshi, K. I. (2009). P-V-T relations of wadsleyite determined by in situ X-ray diffraction in a large-volume high-pressure apparatus. Geophysical Research Letters, 36(11), [L11307]. https://doi.org/10.1029/2009GL038107

Katsura, T, Shatskiy, A, Manthilake, MAGM, Zhai, S, Yamazaki, D, Matsuzaki, T, Yoshino, T, Yoneda, A, Ito, E, Sugita, M, Tomioka, N, Nozawa, A & Funakoshi, KI 2009, 'P-V-T relations of wadsleyite determined by in situ X-ray diffraction in a large-volume high-pressure apparatus', Geophysical Research Letters, vol. 36, no. 11, L11307. https://doi.org/10.1029/2009GL038107

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title = "P-V-T relations of wadsleyite determined by in situ X-ray diffraction in a large-volume high-pressure apparatus",

abstract = "The volume of Mg2SiO4 wadsleyite has been precisely measured at pressures of 11 to 20 GPa and temperatures of 300 to 2100 K by means of in situ X-ray diffraction in a multi-anvil apparatus. The fixed isothermal bulk modulus KTO = 169.2 GPa gives its pressure derivative K′TO = 4.1(1). The fixed Debye temperature θ0 = 814 K gives a Gr{\"u}neisen parameter at ambient pressure γ0 = 1.64(2) and its logarithmic volume dependence q = 1.5(1). The pressure derivative of the isothermal bulk modulus, Anderson-Gr{\"u}neisen parameter and thermal expansion coefficient at ambient pressure are found to be (∂K T/∂T)P = -0.021(1) GPa/K, δT = 5.5(2), α0 = 2.31(3) × 10-5 + 1.18(3) × 10-8 (T-300) K-1. The pressure and volume dependence of thermal expansion coefficient of wadsleyite is the smallest among those of the mantle minerals. The adiabatic temperature gradient in the upper part of the mantle transition Zone is 0.34(1)K/Km.",

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AU - Zhai, Shuangmeng

AU - Yamazaki, Daisuke

AU - Matsuzaki, Takuya

AU - Yoshino, Takashi

AU - Yoneda, Akira

AU - Ito, Eiji

AU - Sugita, Mitsuhiro

AU - Tomioka, Natotaka

AU - Nozawa, Akifumi

AU - Funakoshi, Ken Ichi

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N2 - The volume of Mg2SiO4 wadsleyite has been precisely measured at pressures of 11 to 20 GPa and temperatures of 300 to 2100 K by means of in situ X-ray diffraction in a multi-anvil apparatus. The fixed isothermal bulk modulus KTO = 169.2 GPa gives its pressure derivative K′TO = 4.1(1). The fixed Debye temperature θ0 = 814 K gives a Grüneisen parameter at ambient pressure γ0 = 1.64(2) and its logarithmic volume dependence q = 1.5(1). The pressure derivative of the isothermal bulk modulus, Anderson-Grüneisen parameter and thermal expansion coefficient at ambient pressure are found to be (∂K T/∂T)P = -0.021(1) GPa/K, δT = 5.5(2), α0 = 2.31(3) × 10-5 + 1.18(3) × 10-8 (T-300) K-1. The pressure and volume dependence of thermal expansion coefficient of wadsleyite is the smallest among those of the mantle minerals. The adiabatic temperature gradient in the upper part of the mantle transition Zone is 0.34(1)K/Km.

AB - The volume of Mg2SiO4 wadsleyite has been precisely measured at pressures of 11 to 20 GPa and temperatures of 300 to 2100 K by means of in situ X-ray diffraction in a multi-anvil apparatus. The fixed isothermal bulk modulus KTO = 169.2 GPa gives its pressure derivative K′TO = 4.1(1). The fixed Debye temperature θ0 = 814 K gives a Grüneisen parameter at ambient pressure γ0 = 1.64(2) and its logarithmic volume dependence q = 1.5(1). The pressure derivative of the isothermal bulk modulus, Anderson-Grüneisen parameter and thermal expansion coefficient at ambient pressure are found to be (∂K T/∂T)P = -0.021(1) GPa/K, δT = 5.5(2), α0 = 2.31(3) × 10-5 + 1.18(3) × 10-8 (T-300) K-1. The pressure and volume dependence of thermal expansion coefficient of wadsleyite is the smallest among those of the mantle minerals. The adiabatic temperature gradient in the upper part of the mantle transition Zone is 0.34(1)K/Km.

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P-V-T relations of wadsleyite determined by in situ X-ray diffraction in a large-volume high-pressure apparatus

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