Ultra Low Temperature Linear Piezo Nano Displacement Stage LT34-06B

The LT34-06B, Linear Piezo Displacement Stage, is specially designed for low temperatures. It features integrated single-axis coarse and fine adjustment control, ultra-large stroke, and ultra-high load. Moreover, it includes sub-nanometre level open-loop variability.

It can be adapted to the low-temperature experimental conditions of liquid nitrogen. The product fulfils the diverse application requirements of many customers. Furthermore, its special structural design greatly enhances both low-temperature reliability and ease of use. This allows the performance to be fully achieved even in a prolonged low-temperature environment.

Thanks to the motion control with precise powder adjustment, high accuracy, high resolution, and a large range of motion can be simultaneously attained at ultra-low temperatures. As a result, this facilitates experimental applications.

Unlike the traditional micron-level travel, this product has a large travel range (customisation is supported). Notably, large travel can substitute the traditional large motion range with minimal compensation. This enables a more compact design and simpler motion control.

The Nano Displacement Stage is an advanced device specifically designed for high-precision scientific research and cutting-edge technological applications. It enables nanometer-level linear displacement control in extremely low-temperature environments, providing reliable support for experimental and industrial research and development.

Key Features

• Usage – Whether for quantum materials research, low-temperature physics experiments, or micro- and nano-structure testing, this displacement stage, with its exceptional stability and precision, helps researchers easily achieve precise micro-displacement control. Thus, it ensures high repeatability and reliability of experimental data.
• Technological – This device utilises advanced piezoelectric drive technology, offering fast response speed and high positioning accuracy. It allows for continuous fine-tuning operations, with a displacement range covering from a few nanometres to hundreds of micrometres. Consequently, it fully meets the stringent requirements of nanoscale experiments.
• Environmental – Its low-temperature compatibility allows it to operate stably in liquid helium or liquid nitrogen environments, unaffected by temperature fluctuations. This guarantees precise displacement control during experiments. The robust and durable structural design also ensures long-term reliability, significantly reducing maintenance costs.
• Operational – In terms of operation, it is equipped with an intelligent control system and a user-friendly interface. It supports various control modes and interfaces for seamless integration with existing experimental platforms.

Whether for automated experiments or manual fine-tuning, researchers can easily achieve precise positioning of samples or probes. Furthermore, the device’s low-noise characteristics and extremely high repeatable positioning accuracy make it an ideal choice for quantum device testing. It is also ideal for scanning probe microscopy (SPM) and superconducting materials research.

Summary

With its superior performance, reliable low-temperature adaptability, and precise nanometre-level control capabilities, this Ultra Low Temperature Linear Piezo Nano Displacement Stage is not only a core tool for scientific research laboratories. It also provides strong support for research work demanding ultimate precision. Choosing it makes challenging experimental operations easier, more efficient, and more reliable. Additionally, it provides solid support for every exploration.