(1) Design the opto-mechanical architecture for ultra-precision optical systems, leading the decomposition and optimization of technical indicators.
(2) Address and resolve critical challenges within the opto-mechanical domain, ensuring the achievement of system-level performance targets through rigorous integration and testing.
(3) Drive the systematic capacity building of the opto-mechanical department, identifying global industry trends to define and execute long-term technology roadmaps.
(4) Establish and manage strategic collaborations with leading domestic and international universities and research institutes to bridge fundamental theories with high-end product engineering. (5) Lead a team of specialists to maintain technical competitiveness and provide cross-disciplinary analysis for complex system issues.
Job Requirements
(1) PhD with 5+ years or Master’s with 8+ years of professional experience in Optical Engineering, Precision Instrumentation, Mechanical Engineering, or related fields.
(2) Deep expertise in ultra-precision opto-mechanical design principles, complemented by a solid understanding of optical design.
(3) Proven track record as a technical expert or lead in large-scale engineering projects, such as ultra-precision lenses, aerospace remote sensing, or large-scale scientific optical instruments.
(4) Exceptional systems-thinking skills with the ability to analyze and solve integration issues involving thermal, structural, and optical coupling in high-precision environments.
(5) Strong leadership and communication skills, capable of fostering collaborative relationships across departments and external academic partners.
(6) Resilience in a fast-paced R&D environment and a proactive approach to leading technological innovation.
Job Highlights
(1) Strategic Frontier: Participate in the core R&D of ultra-precision semiconductor equipment, addressing some of the most challenging technical bottlenecks in the industry.
(2) Technical Impact: Take ownership of high-level technical decision-making and drive the transition from advanced research to tangible industrial applications.
(3) Global Synergy: Leverage extensive resources to collaborate with top-tier global research networks, positioning yourself at the forefront of precision engineering technology.
...