• Home
  • Overview
  • Technology
    • UHP by WC
    • UHT by BDD
    • Zero-Temp gradient
    • Precise phase relations
    • Rapid quench
  • Events
    • Intensive lecture Mineral Physics I
      • 0. Introduction
      • 1. Thermodynamic properties
      • 2. Elastcity
      • 3. Lattice vibration
      • 4. Equation of state
      • 5. Heat transfer
    • Workshop 2021
    • Workshop 2020
    • Meeting 2019
  • People
  • Results
    • Chemistry
      • Akimotoite-bridgmanite transition
      • P dependence of Fe3+ in Brg Mg-rich
      • Brg is dry
      • MgAlO2.5 vs bulk Mg/Si
      • T dependence of Fe3+ in Brg Mg-rich
      • T dependence of MgAlO2.5
      • Al in Brg at 3000 K
      • Clustering of O vacancies
      • LiNbO3-type (Mg,Fe3+)(Al3+,Si)O3
    • Grain growth
      • Grain size exponent
    • HP-HT technology
      • P61B, PETRA-III, DESY
      • Review of HP generation
      • CVD-BDD heater
      • Stripe BDD heater
      • Finite strain and BM-EOS
    • Related studies
      • Mantle temperature
      • Paracrystalline diamond
      • Psp pressure
      • Psp thickness
    • Pre-ERC
      • Generation of 60 GPa
      • Generation of 40 GPa
      • Precise Guide Block
      • P-depend. MgAlO2.5
      • LiNbO3-type Mg3Al2Si3O12
      • Al2O3 as a function of P & T
  • Publications
  • New page
  • Home
  • Overview
  • Technology
    • UHP by WC
    • UHT by BDD
    • Zero-Temp gradient
    • Precise phase relations
    • Rapid quench
  • Events
    • Intensive lecture Mineral Physics I
      • 0. Introduction
      • 1. Thermodynamic properties
      • 2. Elastcity
      • 3. Lattice vibration
      • 4. Equation of state
      • 5. Heat transfer
    • Workshop 2021
    • Workshop 2020
    • Meeting 2019
  • People
  • Results
    • Chemistry
      • Akimotoite-bridgmanite transition
      • P dependence of Fe3+ in Brg Mg-rich
      • Brg is dry
      • MgAlO2.5 vs bulk Mg/Si
      • T dependence of Fe3+ in Brg Mg-rich
      • T dependence of MgAlO2.5
      • Al in Brg at 3000 K
      • Clustering of O vacancies
      • LiNbO3-type (Mg,Fe3+)(Al3+,Si)O3
    • Grain growth
      • Grain size exponent
    • HP-HT technology
      • P61B, PETRA-III, DESY
      • Review of HP generation
      • CVD-BDD heater
      • Stripe BDD heater
      • Finite strain and BM-EOS
    • Related studies
      • Mantle temperature
      • Paracrystalline diamond
      • Psp pressure
      • Psp thickness
    • Pre-ERC
      • Generation of 60 GPa
      • Generation of 40 GPa
      • Precise Guide Block
      • P-depend. MgAlO2.5
      • LiNbO3-type Mg3Al2Si3O12
      • Al2O3 as a function of P & T
  • Publications
  • New page

    Sitemap

    • Home
    • Overview
    • Technology
      • UHP by WC
      • UHT by BDD
      • Zero-Temp gradient
      • Precise phase relations
      • Rapid quench
    • Events
      • Intensive lecture Mineral Physics I
        • 0. Introduction
        • 1. Thermodynamic properties
        • 2. Elastcity
        • 3. Lattice vibration
        • 4. Equation of state
        • 5. Heat transfer
      • Workshop 2021
      • Workshop 2020
      • Meeting 2019
    • People
    • Results
      • Chemistry
        • Akimotoite-bridgmanite transition
        • P dependence of Fe3+ in Brg Mg-rich
        • Brg is dry
        • MgAlO2.5 vs bulk Mg/Si
        • T dependence of Fe3+ in Brg Mg-rich
        • T dependence of MgAlO2.5
        • Al in Brg at 3000 K
        • Clustering of O vacancies
        • LiNbO3-type (Mg,Fe3+)(Al3+,Si)O3
      • Grain growth
        • Grain size exponent
      • HP-HT technology
        • P61B, PETRA-III, DESY
        • Review of HP generation
        • CVD-BDD heater
        • Stripe BDD heater
        • Finite strain and BM-EOS
      • Related studies
        • Mantle temperature
        • Paracrystalline diamond
        • Psp pressure
        • Psp thickness
      • Pre-ERC
        • Generation of 60 GPa
        • Generation of 40 GPa
        • Precise Guide Block
        • P-depend. MgAlO2.5
        • LiNbO3-type Mg3Al2Si3O12
        • Al2O3 as a function of P & T
    • Publications
    • New page

    Contact address:

    Tomoo Katsura

    Professor of Structure and Dynamics of Earth Materials

    Bayerisches Geoinstitut, University of Bayreuth

    Universitaetsstrasse 30, 95440 Bayreuth, Germany

    E-mail: tomo.katsura@uni-bayreuth.de

    Tel:+49(921)553791


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