The Weike Cup·OFweek 2026 China Optical Industry Annual Selection is hosted by OFweek Weike Network, a portal for China's high-tech industry, and co-organized by Weike Network·Optics. The event collaborates with authoritative associations, research institutes, and core enterprises in the optical field, continuing the professional reputation of the "OFweek Awards" with over a decade of in-depth engagement in the high-tech sector. With a rigorous, open, and fair selection process, it has become a highly professional and influential benchmark selection in the optical field.

This selection will focus on core sectors such as optical materials, optical instruments and equipment, vacuum coating, optical components, optoelectronic sensors, optical information storage, and other optical sensing technologies. It aims to recognize breakthrough products, cutting-edge technologies, benchmark cases, and leading enterprises in the industry, encouraging advancements in core technologies.

Currently, the event is in the midst of an enthusiastic registration phase, with companies in the industry responding actively. Sundek (Shanghai) Optical Communication Co., Ltd. has officially entered for the "Weike Cup·OFweek 2026 Outstanding Contribution Award for Optical Industry Application Solutions."

Participating Enterprise

Entry Information

Award Applied For:

Weike Cup·OFweek 2026 Outstanding Contribution Award for Optical Industry Application Solutions

Product Name:

kW-class High-Power Laser Spatial Light Modulator SLM-310

Summary of Achievements:

The SLM-310 is a spatial light modulator based on Liquid Crystal on Silicon (LCOS) technology, optimized for high-power laser applications. The product can withstand near-infrared laser power up to kW levels (1kW@1070nm, 1/e^2 radius, 6mm, corresponding power density ~3.5kW/cm^2), with a wavelength applicability range of 1020-1100nm. Paired with a water-cooling system, it ensures stable operation under prolonged high-load conditions, effectively avoiding the effects of thermal effects.

The product features a WUXGA (1920×1200 pixels) high-resolution design with 10-bit (1024-level) grayscale, phase stability of less than 0.003π (typical), and phase depth of 2π or more, enabling precise beam shaping and wavefront manipulation. Its built-in memory and I/O trigger functions support phase map storage and external trigger control, while the flexible connection cable design accommodates wiring needs for various installation scenarios.

The product combines high damage threshold characteristics with dynamically programmable beam shaping capabilities, enabling functions such as laser multi-point beam splitting, wavefront compensation, beam deflection, and ultrashort pulse shaping. It enhances processing precision and throughput while reducing thermal effects. Its applications are wide-ranging, covering laser welding, cutting, drilling, and other laser processing fields, as well as metal 3D printing, laser additive manufacturing, wafer dicing, and other scenarios, providing efficient dynamic beam shaping hardware solutions for industrial-grade high-power laser processing.

Reasons for Entry:

The product being entered for this selection features leading technology, outstanding industrial value, and excellent market performance, with significant competitive advantages that meet the selection criteria. Leveraging core LCOS technology, the product can withstand kilowatt-level high-power near-infrared laser irradiation, paired with a water-cooling system to address high-power thermal effects, and boasts excellent phase stability. With WUXGA high resolution and 10-bit grayscale, it enables precise beam modulation while supporting multi-scenario installation and easy integration. Backed by a professional Ph.D. team's technical support, it effectively reduces R&D integration costs. The product optimizes laser processing techniques, enhances processing efficiency, and is suitable for high-end scenarios such as metal 3D printing and wafer dicing. Relying on multi-point beam splitting technology, it aids in cost reduction and efficiency improvement across industries. Currently widely used in core industrial fields such as laser processing and semiconductors, the product has earned high recognition from the industry and users for its reliable performance with high stability and precision, making it a preferred device in the industry.

Welcome to Participate

The annual selection is now Hot evaluation in progress (actively seeking entries). We welcome pioneering forces from all segments of the optical industry chain to Actively register and compete (actively register and compete) and Winning industry awards together (jointly win industry accolades)!