Lead Process Architect -R&D Silicon Photonics
Belgium - Ghent
On-Site
Permanent
Lead Process Integration Architect -R&D Silicon Photonics
Belgium - Onsite
Highly competitive salary (DOE)
Are you an expert in Silicon Photonics process architectures looking to take your career to the next level? Our client is seeking a Lead Process Integration Architect to drive the development and integration of active components into their cutting-edge Silicon Photonics platform. In this high-impact role, you will define new process architectures, optimize fabrication processes, and ensure seamless integration of modulators, photodetectors, and optoelectronic devices into next-generation photonic systems.
Why Join Us?
Work at the forefront of Silicon Photonics innovation, developing next-gen active photonic devices.
Be a key decision-maker in architecting and optimizing high-performance process flows.
Collaborate with world-class teams in device design, fabrication, and system integration.
Enjoy a highly competitive salary and excellent career growth opportunities.
Your Role:
Define & Develop: Establish new process architectures for integrating active components into the Silicon Photonics platform.
Optimize Fabrication: Design and refine process flows to ensure high performance, yield, and scalability.
Collaborate Across Teams: Work with device designers and fabrication engineers to align integration strategies.
Lead Feasibility Studies: Conduct prototyping and experimental evaluations to push process technology forward.
Solve Complex Challenges: Innovate solutions for material compatibility, co-integration, and platform scalability.
What You Bring;
Ph.D. or Master's in Photonics, Physics, Materials Science, Electrical Engineering, or related field.
Proven expertise in process architectures for active photonic devices and strong knowledge of fabrication processes.
Hands-on experience in Silicon Photonics integration, addressing challenges in material compatibility and device co-integration.
Deep understanding of semiconductor device manufacturing and process optimization.
Strong problem-solving skills and the ability to drive technical innovation.
Experience with Lumerical, COMSOL Multiphysics, or similar Silicon Photonics design tools is a plus.
Knowledge of Microelectromechanical Systems (MEMS) integration is an advantage.
Ready to Lead the Future of Silicon Photonics? Get in touch with Christina McGuire to learn more about this exciting opportunity.
#LI-CM1
Belgium - Onsite
Highly competitive salary (DOE)
Are you an expert in Silicon Photonics process architectures looking to take your career to the next level? Our client is seeking a Lead Process Integration Architect to drive the development and integration of active components into their cutting-edge Silicon Photonics platform. In this high-impact role, you will define new process architectures, optimize fabrication processes, and ensure seamless integration of modulators, photodetectors, and optoelectronic devices into next-generation photonic systems.
Why Join Us?
Work at the forefront of Silicon Photonics innovation, developing next-gen active photonic devices.
Be a key decision-maker in architecting and optimizing high-performance process flows.
Collaborate with world-class teams in device design, fabrication, and system integration.
Enjoy a highly competitive salary and excellent career growth opportunities.
Your Role:
Define & Develop: Establish new process architectures for integrating active components into the Silicon Photonics platform.
Optimize Fabrication: Design and refine process flows to ensure high performance, yield, and scalability.
Collaborate Across Teams: Work with device designers and fabrication engineers to align integration strategies.
Lead Feasibility Studies: Conduct prototyping and experimental evaluations to push process technology forward.
Solve Complex Challenges: Innovate solutions for material compatibility, co-integration, and platform scalability.
What You Bring;
Ph.D. or Master's in Photonics, Physics, Materials Science, Electrical Engineering, or related field.
Proven expertise in process architectures for active photonic devices and strong knowledge of fabrication processes.
Hands-on experience in Silicon Photonics integration, addressing challenges in material compatibility and device co-integration.
Deep understanding of semiconductor device manufacturing and process optimization.
Strong problem-solving skills and the ability to drive technical innovation.
Experience with Lumerical, COMSOL Multiphysics, or similar Silicon Photonics design tools is a plus.
Knowledge of Microelectromechanical Systems (MEMS) integration is an advantage.
Ready to Lead the Future of Silicon Photonics? Get in touch with Christina McGuire to learn more about this exciting opportunity.
#LI-CM1
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| Post-Silicon / Manufacturing / Process: | Process Engineering |
