Description
Perforated anvils
- Substantial reduction in background for all types of radiation(IR, visible, UV or x-rays)
- Substantial reduction in the interfering “red” light fluorescing from diamonds at P>100 GPa
- Substantial savings in price due to small anvil weight
- Holes are laser-drilled in the form of a truncated cone.
- The base diameters are to fit the dimensions/apertures of the carbide backing plates.
- Parameters(*) can be made according to your requirements
(*) C – culet size (mm) , W – diameter of end of partial perforation (mm), A – aperture (degree)
Partially perforated anvils from the table side
- Advantage of substantial reduction in background for all types of radiation
- Parameters(*) can be made according to your requirements
- Example 1: C = 0.30 mm, W = 0.30 mm, D=0.30 mm, A=16°, => 12 to 15 GPa
- Example 2: C = 0.30 mm, W = 0.10 mm, D=0.20 mm, A=16°, => 43 GPa
Partially perforated anvils from the culet side
- Advantage of substantial increase of sample volume is made possible
- Parameters(*) can be made according to your requirements
Documents
We have compiled a series of technical documents (brochures, articles, technical drawings, …) which you might find useful to help you understand this product better.
Articles
2010 – Soignard, E. et al. – A perforated diamond anvil cell for high-energy x-ray diffraction of liquids and amorphous solids at high pressure
2014 – Feng, Y. et al. – Hidden one-dimensional spin modulation in a three-dimensional metal
2020 – Louvel, M. et al. – The HXD95: a modified Bassett-type hydrothermal diamond-anvil cell for in situ XRD experiments up to 5 GPa and 1300 K
FAQs
Examples of typical requests for quote:
Diamond anvil, type Ia, Boehler-Almax design, 16-sided, 3.10 mm – 70°, culet of 0.30 mm, (100)-oriented, partially perforated from the table side, diameter of end of partial perforation of 0.20 mm, remaining diamond thickness of 0.30 mm, aperture of 16°
- Article nr.: P01036
- Quantity: 4 anvils
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