Introducing our ultra-compact, high-precision rotation stage, engineered for the most demanding scientific and industrial environments. This stage provides exceptional rotational positioning with unparalleled accuracy, specifically designed to operate flawlessly from ultra-cryogenic temperatures up to 390K, under ultra-high vacuum (UHV), and within high magnetic fields.
This stage is ideal for advanced research applications where precision and extreme environmental stability are paramount, including:
· Quantum Computing & Cryogenics: Positioning components within dilution refrigerators.
· Scanning Probe Microscopy (SPM): Sample rotation in AFM/STM under UHV and low temperatures.
· Synchrotron & Beamline Experiments: Precise angular alignment of samples.
· Materials Science: In-situ experiments requiring precise rotational manipulation in controlled environments.
· Astrophysics & Detector Systems: Positioning optical elements in cryogenic vacuum chambers.
Quano.R
Dimensions: w x d x h: 15.0mm x 15.0mm x 10.2mm
Positioning range: 360° continuous
Positioning accuracy: <0.03°
Maximum load: 30g
Position Encoding Mechanism: Resistive readout; encoded travel range 320°, sensor resolution <0.03°
Material: Beryllium copper and sapphire
Metallic surfaces: Gold
Piezo material: PZT ceramics
Electric contacts: 0.125µm Kapton-insulated copper wire
Operating conditions: From 10mK to 390K, compatible with ultra-high vacuum (<1x10-10 mbar) and high magnetic fields
Bakeable: to 130°C
Piezo Drive:Mechanism: Stick-slip drive; drive voltage (300 K): unipolar 0/+150 V or semi-bipolar -30 V/+150V drive voltage (4 K): bipolar ±200 V