Oxford Instruments NanoScience has introduced the TeslatronPT Plus, a low-temperature, superconducting magnet measurement system designed for fundamental materials physics research. Based in Oxford, UK, the company developed this open-architecture system to simplify access to high-performance measurement capabilities, enabling researchers to focus more on experiments and less on setup.
The TeslatronPT Plus features remote, OS-independent control via a browser interface, integrates third-party instruments through the QCoDeS framework, and offers real-time data visualization using Grafana. It supports a range of measurements, including low/high resistance, Hall effect, and I-V characterization, with pre-written Python scripts for immediate experimentation. The system will be showcased at the APS Global Physics Summit 2025 in Anaheim, CA.
Introduction to TeslatronPT Plus
The TeslatronPT Plus is a cutting-edge low-temperature measurement system developed by Oxford Instruments NanoScience. The system is designed for materials physics research and utilizes superconducting magnets to achieve precise experimental conditions. Its open architecture allows researchers to integrate various components, ensuring flexibility and scalability to meet specific needs.
The system integrates advanced measurement systems from Lake Shore, such as the Model 81 and Model 91, which are renowned for their precision and reliability in low-temperature environments. This integration enhances the TeslatronPT Plus’s capabilities, making it a valuable tool for cutting-edge research.
Features of TeslatronPT Plus
The TeslatronPT Plus offers a robust software environment that supports Python compatibility and Jupyter Notebooks, enabling efficient data analysis and visualization. Grafana dashboards provide real-time monitoring, ensuring precise experiment tracking. Integration with QCoDeS facilitates seamless connection to third-party instruments, streamlining experimental workflows and improving reproducibility.
Remote control capabilities via a browser interface improve accessibility, allowing users to operate the system conveniently from any location with internet access. Compatibility with Oxford Instruments’ D ECS ensures efficient management of cryogenic environments, maintaining precise experimental conditions critical for accurate measurements.
Benefits for Researchers
The TeslatronPT Plus supports various measurement types, including resistivity and magnetoresistance, making it versatile for comprehensive materials research. This capability addresses diverse experimental requirements across various research settings, aligning with the needs of modern researchers exploring new frontiers in physics and quantum technologies.
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