About Aetherflux
Aetherflux is pioneering space-based solar power technology, focusing on designing satellites equipped with high-power laser systems to beam energy from space to Earth. We are building a dynamic team of engineers passionate about working at the forefront of optical, laser, and mechanical system design. Join us in revolutionizing energy delivery using cutting-edge technologies.
Overview
The Opto-Mechanical Engineer is responsible for designing, developing, and integrating optical and mechanical systems for Aetherflux’s space-based laser satellites. This role requires expertise in laser system design, optical simulation, and the integration of optical components into highly engineered satellite structures. You will work on innovative technologies to optimize the performance of laser systems under the challenging conditions of space.
Responsibilities
- Optical System Design: Use optical design software (e.g., Zemax, Code V) to design, simulate, and optimize optical systems for laser-based satellite platforms.
- Lens & Detector Systems: Design lens systems, calculate focal lengths, and analyze lens parameters. Work with CCD and/or CMOS sensors to capture images and evaluate performance at the focal plane.
- Laser System Design & Integration: Design and model laser systems, including solid-state, fiber, or semiconductor lasers, and integrate them with mechanical structures for space deployment.
- Nonlinear Optical Systems: Characterize and optimize laser and nonlinear optical systems, including laser amplifiers and nonlinear optical materials.
- Remote Sensing & Beam Propagation: Contribute to the development of laser-based remote sensing technologies such as laser radar, radiometry, and beam propagation.
- System Prototyping & Testing: Lead the development, assembly, and characterization of laser and optical systems. Conduct lab testing to validate system designs and ensure they meet performance specifications.
- Mechanical Integration: Work closely with the mechanical engineering team to design and integrate opto-mechanical systems for satellite platforms, ensuring that optical components can withstand the rigors of space.
- Trade Studies & Optimization: Perform design trade studies to optimize system performance, cost, weight, and size for both the optical and mechanical aspects of laser systems.
- System Validation: Support environmental testing, including thermal-vacuum, vibration, and radiation tests, to validate the durability of the systems in space environments.
Basic Qualifications
- Bachelor’s, Master’s, or PhD in Optical Engineering, Mechanical Engineering, Physics, or related disciplines.
- 2+ years of experience in optical, electro-optical, or laser system design and development.
- Experience with optical design software (e.g., Zemax, Code V) for lens and laser system design.
- Understanding of CCD/CMOS sensor technology and image capture at the focal plane.
- Knowledge of laser types, including gas, solid-state, fiber, and semiconductor lasers.
Preferred Skills and Experience
- Hands-on experience with laser system prototyping, testing, and characterization.
- Familiarity with laboratory test equipment such as oscilloscopes, laser beam analyzers, spectrum analyzers, and laser drive electronics.
- Experience with numerical analysis and simulation tools such as MATLAB or Python for analyzing optical and laser system performance.
- Experience with integrating optical systems into mechanical structures, particularly in space applications.
- Strong understanding of laser system failure analysis and troubleshooting.
- Previous experience working in a professional or academic lab environment, conducting experiments and testing.
- Experience with space-qualified laser and optical systems design, assembly, and verification.
- Additional Requirements:
- Ability to work extended hours or weekends as needed to meet project deadlines.
- Experience working in cross-functional teams with mechanical, thermal, and electrical engineers to deliver high-performance laser and optical systems.