Water-cooling diamond anvil cells: An approach to temperature–pressure relation in heated experiments

Zhang, Yanan; Wu, Yue; Han, Yonghao; Gao, Yang

doi:10.1063/5.0099202

Cited by 2 publications

(1 citation statement)

References 31 publications

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“…The diamond anvil cell was placed in the water-cooling vacuum chamber with optic glass suitable for the spectroscopic measurements to avoid the reaction of the heater with air. The water-cooling system minimized the pressure drift during heating, as shown in the previous study [25]. A stable DC power source (ZX-S-400LA, Takasago) was used for heating with a ramp rate of about 10 K min −1 .…”

Section: Diamond Anvil Cell Experimentsmentioning

confidence: 99%

Inert structural transition in 4H and 6H SiC at high pressure and temperature: a Raman spectroscopy study

Maitani,

Sinmyo,

Ishii

et al. 2024

J. Phys. Commun.

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We conducted Raman spectroscopy measurements of 4H-SiC and 6H-SiC up to 69 GPa and 1023 K to assess the stability and bonding of SiC at high pressure and temperature. Both optic and acoustic modes were observed at wide pressure and temperature ranges for the first time. The temperature shifts of the Raman frequencies were fitted by the equation with the Bose-Einstein distribution function, and we found that the shifts were almost insensitive to the pressure. The mode Grüneisen coefficients weakly depend on the pressure and temperature, suggesting the sluggish transition of the crystal structure, unlike the previous experiments showing the transition or decomposition of SiC at high pressure and temperature conditions. Inert transitions are confirmed by Raman measurements and annealing experiments using multiple high-pressure apparatuses. The crystallinity may be a hidden critical parameter in the experiments to determine the stable polytypes of SiC under high pressure and temperature.

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Section: Diamond Anvil Cell Experimentsmentioning

confidence: 99%

Inert structural transition in 4H and 6H SiC at high pressure and temperature: a Raman spectroscopy study

Maitani,

Sinmyo,

Ishii

et al. 2024

J. Phys. Commun.

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In Situ Measurement Techniques Using Diamond Anvil Cell at High Pressure–Temperature Conditions: A Review

Wei,

Lin,

Zhang

et al. 2024

Physica Rapid Research Ltrs

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Diamond anvil cells have garnered significant attention in high‐pressure studies as a valuable tool for investigating material preparation, phase transition dynamics, and ultra‐high‐pressure physical chemistry. Its potential applications span fields such as materials science, condensed matter physics, chemistry, and geology. This study conducted a comprehensive review of the utilization of laser‐heated diamond anvil cell devices in conjunction with in situ optical characterization techniques, such as X‐ray and Raman scattering. Further, diverse in situ performance measurement methods encompassing electrical, thermal, magnetic, and acoustic analyses were examined. The development and role of the prevailing in situ measurement techniques have been described, along with the current progress in applied research for each technique. This study aims to facilitate the discovery of new structures and properties of materials under high pressure–temperature conditions.This article is protected by copyright. All rights reserved.

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Water-cooling diamond anvil cells: An approach to temperature–pressure relation in heated experiments

Cited by 2 publications

References 31 publications

Inert structural transition in 4H and 6H SiC at high pressure and temperature: a Raman spectroscopy study

Inert structural transition in 4H and 6H SiC at high pressure and temperature: a Raman spectroscopy study

In Situ Measurement Techniques Using Diamond Anvil Cell at High Pressure–Temperature Conditions: A Review

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