The Linear35-z is an advanced piezoelectric motion stage designed to deliver high precision and stability in extreme conditions. With a compact footprint of just 35 × 35 mm × 30 mm, this stage provides an impressive 8 mm travel range, making it ideal for a wide array of scientific and industrial applications. Its robust construction features non-magnetic materials, specifically pure Ti and BeCu, ensuring it can operate within 18 Tesla magnetic fields, making it suitable for high-field magnetic applications like NMR or MRI systems.

The Linear35-z excels in ultra-high vacuum (UHV) environments, capable of reaching pressures as low as 2E-11 mbar, making it ideal for experiments in particle physics, quantum research, and materials science. It also supports extremely low temperatures, operating efficiently down to 30 mK for use in cryogenic research, such as in He3 or dilution cryogenics systems.

This linear stage features closed-loop control with an impressive 0.1 µm resolution, ensuring precision movements. The position encoder provides feedback with 150 nm resolution, making the Linear35-z ideal for applications that demand high accuracy, such as precision optics or nano-positioning. The stage can support loads of up to 500 g and can generate a dynamic force of up to 5 N, providing both strength and fine control for demanding tasks.

Whether for cryogenics, ultra-high vacuum applications, or high-field environments, the Linear35-z is engineered to meet the most rigorous standards, offering the precision and durability required for cutting-edge research and development.