Isothermal equation of state of crystalline and glassy materials from optical measurements in diamond anvil cells.

Abstract

Here, we present a method to study the equation of state of opaque amorphous and crystalline materials in diamond anvil cells. The approach is based on measurements of sample dimensions using high-resolution optical microscopy. Data on the volumetric strain as a function of pressure allow deriving the isothermal equation of state of the studied material. The analysis of optical images is fully automatized and allows measuring the sample dimensions with the precision of about 60nm. The methodology was validated by studying isothermal compression of ω-Ti up to 30GPa in a Ne pressure transmitting medium. Within the accuracy of the measurements, the bulk modulus of ω-Ti determined using optical microscopy was similar to that obtained from x-ray diffraction. For glassy carbon compressed to ∼30GPa, the previously unknown bulk modulus was found to be equal to K0 = 28 (2) GPa [K' = 5.5(5)].