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Six-axis multi-anvil press for high-pressure, high-temperature neutron diffraction experiments.

A Sano-Furukawa1, T Hattori1, H Arima2

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Researchers developed ATSUHIME, a novel six-axis multi-anvil press, enabling high-pressure and high-temperature neutron diffraction. This tool advances in situ studies of crystal and liquid structures under extreme conditions.

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Area of Science:

  • Materials Science
  • Geophysics
  • Condensed Matter Physics

Background:

  • High-pressure and high-temperature experiments are crucial for understanding material behavior.
  • In situ neutron powder diffraction offers unique insights into structural changes.
  • Existing equipment limitations hinder simultaneous high-pressure, high-temperature, and neutron diffraction studies.

Purpose of the Study:

  • To develop and characterize a novel six-axis multi-anvil press for advanced in situ neutron diffraction.
  • To enable precise control over extreme pressure and temperature conditions for sample analysis.
  • To overcome limitations of previous experimental setups for materials research.

Main Methods:

  • Design and construction of the ATSUHIME six-axis multi-anvil press with individual hydraulic rams.
  • Utilizing 6-6-type and 6-8-type cell assemblies for varying pressure-temperature regimes.
  • Integration of diffraction aperture, incident slit, radial collimators, and neutron imaging camera.

Main Results:

  • The ATSUHIME press achieves pressures up to 9.3 GPa at 2000 K (6-6 assembly) and 16 GPa at 1273 K (6-8 assembly).
  • Sufficient sample volume (approx. 50 mm³) is maintained.
  • High-quality diffraction patterns were obtained without contamination, due to the press's design and collimation setup.

Conclusions:

  • The ATSUHIME press is a significant advancement for in situ time-of-flight neutron powder diffraction.
  • It provides a versatile tool for investigating the structural properties of crystals and liquids under extreme conditions.
  • This development opens new avenues for materials science and geophysics research.