easyLab® Pcell15/30
AC Transport Measurements, Hydrostatic Cell, Quantum Design PPMS®, Pmax = 3 GPa, Tmin = 4 K
- The easyLab® Pcell 30 is designed for electrical transport measurements at pressure up to above 3 GPa in a Quantum Design PPMS® platform
- The cell is very simple to use, reducing set–up time
- A dedicated desktop hydraulic ram system (easyLab® Ppress) greatly facilitates the loading, unloading as well as the opening of the pressure cell
- The easyLab® Pcell 30 comes with all necessary tooling (incl. puck), accessories and a substantial set of consumables to enable work to start straight away. These include three pre-wired (with tin & manganin manometers) feedthroughs.
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Description
The pressure cell modules for the PPMS approved, endorsed and recommended by Quantum Design.
The easyLab® Pcell 15/30 modules have been specifically engineered to enable end-users to perform AC transport measurements under high pressures up to 15/30 kbar, low temperatures and high magnetic fields.
The easyLab Pcell® 15/30 module is composed of:
– Pcell 15 or Pcell 30 hydrostratic pressure cell
– Ppress desktop mini-press hydraulic ram system (optional – see Spares & Accessories)
– Accessories and consumables
– One year warranty.
The easyLab® Pcell 15/30 High-pressure Cell Modules are supplied as complete packages. They provide end-users with all the necessary primary components of the pressure cell as well as interfacing components to the PPMS platform from Quantum Design.
Very importantly, the easyLab Pcell 15/30 modules are also supplied with the necessary consumables to enable up to 20 high-pressure measurements campaigns.
Watch now the easyLab Pcell 30 video guide Part1, Part2, and Part3 on Almax easyLab’s YouTube channel.
Specifications
Pcell 15 | Pcell 30 | |
Cell Material | Beryllium Copper | Beryllium Copper/Super-Alloy Inner Body |
Structure | Cylindrical, Single-walled | Cylindrical, Double-walled |
Pressure Mechanism | With Dedicated Hydraulic Ram System (optional) | With Dedicated Hydraulic Ram System (optional) |
Maximum Pressure | 1.6 GPa | 3.00 GPa |
Temperature Range | 4 K | 4 K |
Diameter | 24 mm | 24 mm |
Length | 120 mm | 120 mm |
Inner Channel Diameter | 4 mm | 4 mm |
Sample Space | 2.9 mm x 10 mm (diameter x length) | 2.9 mm x 10 mm (diameter x length) |
Cooling | via Cryostat | via Cryostat |
Heating | N/A | N/A |
Wiring | 6 Cu twisted pairs | 6 Cu twisted pairs |
Manometers | Manganin (300 K), Tin (4 K) | Manganin (300 K), Tin (4 K) |
Measurement type | AC transport | AC transport |
Weight | 205 g | 210 g |
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
Technical Drawing
Please contact us for further details on the engineering drawings.
Articles
2015 – Samkharadze, N. et al. – Observation of a transition from a topologically ordered to a spontaneously broken symmetry phase
2013 – Jani, H.K. et al. – Pressure dependence of resistivity and magnetoresistance in Pr-doped La0.7Ca0.3MnO3
2011 – Chattopadhyay, M.K. et al. – Combined effect of hydrostatic pressure and magnetic field on the martensitic transition in the Ni49CuMn34In16 alloy
2008 – Ganin, A.Y. et al. – Bulk superconductivity at 38 K in a molecular system
2006 – Torikachvili, M. S. et al. – Pressure Study of Pure and Rh-doped RuSr2GdCu2O8 Magnetic Superconductor
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