RC Motorized Hyper Stable Monolithic Mirror Mount

$935.00

A smart mirror with an open-source control library. Sub-10-nrad alignment, zero backlash, and full Wi-Fi control — for sealed laser enclosures, vacuum chambers, and any setup where hands-off alignment matters.

Category:

Description

The RC Motorized variant is AlignFlow™ — our smart mirror: a monolithic single-body mount with integrated geared stepper actuators, Hall-effect tilt feedback, and a Wi-Fi controller running an open-source library. Drop it into your beamline and align it from across the lab — or let your control script do it while you go grab a coffee.

Each axis is driven by geared stepper motors on ultra-high-density threads, with sub-10-nrad step resolution and zero backlash. Closed-loop feedback is provided by an integrated Hall-effect sensor that measures mirror tilt directly with high precision. The mount communicates over Wi-Fi (2.4 GHz) and exposes a documented Python API — no proprietary handset, no separate controller box.

Key features

  • Open-source Python control library
  • Step resolution < 10 nrad/step
  • Closed-loop tilt feedback via integrated Hall-effect sensor
  • Wi-Fi interface (2.4 GHz)
  • Vacuum-compatible (not for cryogenic use)
  • Hands-off remote alignment for sealed enclosures

Applications

  • Sealed laser enclosures and interlocked cabinets
  • Remote or automated alignment in production
  • Continuous beam stabilization with custom feedback loops
  • Ultra-high vacuum chambers and beamlines
  • Quantum optics and atom-trapping experiments
  • Long-baseline interferometry alignment

Backed by a 12-month warranty. Need a different feedback loop, a custom aperture, or radiation-hardened operation? Contact our engineering team — and remember, the library is open, so you can start there.

Additional information

Angular Range

8° total (±4° per axis)

Step Resolution

< 10 nrad/step

Interface

Wi-Fi (2.4 GHz)

Compatibility

Vacuum-compatible (not for cryogenic use)

Feedback

Closed-loop (Hall-effect tilt sensor)