Diacell®Bragg-LT(S) Plus
X-ray Spectroscopy, Pmax = 100 GPa, Tmin = 4 K, WD = 14 mm, A = 90°
- The Diacell® Bragg-LT(S) Plus is recommended for X-ray and optical experiments at low temperatures
- The large angle apertures enable diffraction studies with high transmission factor and very low background
- A combination of left- and right- handed screws makes sure that there is no net torque on the cell
- Maximum pressures up to above 100 GPa may be obtained with the Diacell® Bragg-LT(S) Plus
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Description
The Diacell® Bragg-LT(S) Plus is the cryogenic version of the Bragg-(S) Plus cell. The Bragg-LT(S) Plus uses conical tungsten carbide support plates and conical anvils.
The Bragg-LT(S) Plus is suitable for use in several commercial cryostats. Using a screw-drive mechanism and 200 μm anvil culets, pressures up to 95 GPa are achieved.
Applications
Particularly suitable for X-Ray diffraction and related work at low temperatures
Specifications
Cell Material | Beryllium Copper Alloy |
Anvil Design | Boehler-Almax |
Anvil Support Plate | Tungsten Carbide |
Pressure Mechanism | Screw Drive |
Maximum Pressure | ~100 GPa |
Temperature Range | < 10 K |
Top Angle | X-Ray: conical 85º |
Bottom Angle | X-Ray: conical 85º |
Lateral Access | 12° of 2θ is accessible |
Heating | N/A |
Cooling | Via Cryostat |
DAC Diameter | N/A |
DAC Height | ~35 mm |
Working Distance to Sample | 14 mm |
Numerical Aperture | 0.67 |
DAC Weight | 300 g |
Maximum pressure is dependent upon the culet size of the anvils. Almax easyLab is committed to its policy of continuous improvement. Specifications may change without notice. easyLab and Diacell are registered trademarks of Almax easyLab.
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.
Technical documentation
Brochure Bragg-LT(S) and Bragg-LT(S) Plus
Technical Drawing
Please contact us for further details on the engineering drawings.
Articles
2023 – Jordan, D. et al. – Interpenetration Phenomena via Anion Template Effects in Fe(II) and Co(II) Coordination Networks with a Bis-(1,2,4-triazole) Ligand
FAQs
What is the maximum pressure I can achieve with the Bragg-LT(S) Plus and a given culet size?
Culet size (µm) | 200 | 300 | 400 | 500 | 600 | 800 | 1000 |
Bragg-LT(S) Plus Pmax (GPa) (*) | 114 | 98 | 63 | 41 | 28 | 16 | 10 |
(*) The Pmax values are only indicative. The maximum pressure achievable with a DAC is influenced by many others experimental parameters, like the gasket characteristics (material, thickness and hole size) or the pressure transmitting medium.
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