VectraScan NX410 Precision Laser Alignment Microscope

Description

The VectraScan NX410 Precision Laser Alignment Microscope sets a new industry benchmark for high-resolution optical alignment and positioning tasks in microfabrication, photonics, and precision engineering. Utilizing a patent-pending multi-axis interferometric laser feedback system integrated with a stabilized adaptive optics array, the NX410 achieves sub-10 nanometer repeatability in stage positioning and component alignment. Its ultra-high coherence laser source enables real-time error correction against environmental vibration and thermal drift. The system is controlled via an intuitive multi-touch interface or API connectivity, supporting Python and C++ for custom automation workflows. The stage features a vacuum-compatible, closed-loop piezoelectric actuator array with six degrees of freedom, allowing complex samples or subsystems to be aligned with unprecedented accuracy. The microscope optics include a modular objective turret compatible with a wide range of photonics testing and microscale inspection modules. Detailed system telemetry and alignment diagnostics are logged and visualized through onboard software designed for both lab bench and industrial R&D environments. Ideal for semiconductor wafer inspection, MEMS assembly, and optical fiber array alignment, the VectraScan NX410 redefines precision metrology by combining interferometry with adaptive optics in a compact, robust package.