High-pressure high-temperature phase diagram of gadolinium studied using a boron-doped heater anvil

A boron-doped designer heater anvil is used in conjunction with powder x-ray diffraction to collect structural information on a sample of quasi-hydrostatically loaded gadolinium metal up to pressures above 8 GPa and 600 K. The heater anvil consists of a natural diamond anvil that has been surface mo...

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Bibliographic Details
Published in:Journal of applied physics 2016-04, Vol.119 (13)
Main Authors: Montgomery, J. M., Samudrala, G. K., Velisavljevic, N., Vohra, Y. K.
Format: Article
Language:English
Subjects:
Anvils
Applied physics
Boron
Chemical vapor deposition
Diamonds
Diffraction
ENGINEERING
Equations of state
Gadolinium
Heat transmission
Heating
MATERIALS SCIENCE
Organic chemistry
Phase diagrams
Sapphire
Seats
Synchrotron radiation
X ray powder diffraction
X-ray diffraction
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Summary:A boron-doped designer heater anvil is used in conjunction with powder x-ray diffraction to collect structural information on a sample of quasi-hydrostatically loaded gadolinium metal up to pressures above 8 GPa and 600 K. The heater anvil consists of a natural diamond anvil that has been surface modified with a homoepitaxially grown chemical-vapor-deposited layer of conducting boron-doped diamond, and is used as a DC heating element. Internally insulating both diamond anvils with sapphire support seats allows for heating and cooling of the high-pressure area on the order of a few tens of seconds. This device is then used to scan the phase diagram of the sample by oscillating the temperature while continuously increasing the externally applied pressure and collecting in situ time-resolved powder diffraction images. In the pressure-temperature range covered in this experiment, the gadolinium sample is observed in its hcp, αSm, and dhcp phases. Under this temperature cycling, the hcp → αSm transition proceeds in discontinuous steps at points along the expected phase boundary. From these measurements (representing only one hour of synchrotron x-ray collection time), a single-experiment equation of state and phase diagram of each phase of gadolinium is presented for the range of 0–10 GPa and 300–650 K.
ISSN:0021-8979
1089-7550
DOI:10.1063/1.4945704