SR200T interchangeable sample platform for UC2X0T

SR200T Sample Carriers

One of the most challenging aspects of any uniaxial strain measurement is sample mounting. This process is made even more difficult if electrical connections must be made to the sample. The SR200T sample carriers simplify this process by allowing multiple samples to be mounted on multiple sample carriers that can be rapidly exchanged when required.

 

Accessory Overview

  • Allows rapid sample exchange between pre-prepared samples
  • Suitable for use with UC2X0T
  • Flexure guided to reduce effect of misalignments on strain homogeneity
  • Mounted samples can be processed (heat/plasma/etch) detached from device

Make more efficient use of instrument time

Every research group wants to be getting the best use out of their cryostat (and other instrumentation). Preventing wasted time saves research budget and increases the speed at which data can be collected. Time becomes even more precious at a user facility, such as magnet or a beamline, when a whole PhD can rest on just a few days data collection. Razorbills range of SR sample carriers mean that a broken sample does not lead to disaster, merely a few minutes inconvenience.

Experiment with tricky-to-mount samples

The SR sample carriers can withstand high temperature epoxy cures, plasma surface treatments and aggressive acid cleaning processes. Consequently, they are suitable for use with high-temperature cure epoxies that may allow reliable bonding to samples that were previously difficult to mount or attach contacts to.

Retain samples for future experiments

At the end of a strain experiment, with conventional sample mounting, it is impossible to remove the sample while keeping the electrical contacts intact, and usually it is very difficult not to break the sample completely. SR sample carriers can be removed from the stress/strain cell with the sample and electrical connections intact. This means that the samples can be filed away and kept in case more measurements are required later.