EXPERTISE AREAS
Space Instrumentation
We engineer robust camera, hyperspectral and free-space optical communication (FSOC) systems for space applications, operating across VIS, NIR and SWIR wavelengths. Our designs incorporate advance FEM-thermal simulations and optimized baffle design through non-sequential analysis, ensuring performance stability under extreme conditions.
Astronomical Facilities
With a strong foundation in astronomy, we design, assemble, and test optical and optomechanical systems for ground-based observatories. Our work includes precision alignment, thermal stability optimization, and active compensation, along with the integration of adaptive optics and high-performance instrumentation. We conduct FEM and STOP analyses to model load effects such as gravity, wind, and thermal variations to refine optical simulation performance and active optics control.
Medical Optical Equipment
We develop multispectral and hyperspectral cameras, endoscopic imaging systems, advanced microscopes, and laser-based surgical devices for medical applications. Our designs optimize optical étendue, contrast, and compact integration, ensuring high-sensitivity detection for fluorescence and luminescence imaging in biomedical diagnostics and optical marker analysis.
Consumer Tech Devices
Our expertise in consumer optics extends to high-resolution cameras, augmented reality glasses, and head-up displays, integrating freeform optics, high numerical aperture lenses, and compact optical systems with advanced polarization control. Metalenses further enhance optical efficiency and miniaturization in next-generation imaging systems.
Surveillance and Security Cameras
Our systems deliver high-contrast, low-light imaging with advanced optical speed, leveraging multispectral and hyperspectral capabilities to optimize resolution and contrast across multiple spectral bands.
Environmental and Agricultural Monitoring Technologies
For precise pollutant and agricultural resource measurement, our optical systems incorporate multispectral imaging, lidar, polarization-based detection, and high-dynamic-range optical sensing.
Emergency Response Systems
Our optical technologies enhance communication and coordination for emergency response, integrating free-space optical communication (FSOC) for secure high-speed data links, lidar-based detection for situational awareness, and multispectral imaging with polarization control to improve visibility in adverse conditions.
Optical Energy Solutions
We develop high-power laser-based systems for energy generation, optimizing Gaussian beam shaping, propagation, and spatial filtering to enhance beam uniformity and coherence. Our designs integrate advanced optomechanical solutions for thermal management, leveraging FEM simulations to model lens and mirror asphericity caused by temperature-induced deformations during operation. We also implement freeform optics to maximize optical efficiency and ensure diffraction-limited performance in high-intensity laser applications.