Adaptive Optics Postdoctoral Fellow bei W. M. Keck Observatory
W. M. Keck Observatory · Kamuela, Vereinigte Staaten Von Amerika · Onsite
- Optionales Büro in Kamuela
As an Adaptive Optics Scientist at Keck Observatory, your expertise will drive the next generation of high-resolution astronomical research — from bold new designs through hands-on testing and commissioning. Here, scientific curiosity meets real-world engineering, enabling breakthrough discoveries on the world’s most iconic and productive telescopes.
- Competitive starting salary ranging from $71,700-$85,588.40.
- Generous benefits package, including 4 weeks of annual paid vacation.
- A robust 8% 403(b) employer contribution (with a 4% employee contribution).
- Tuition assistance for dependent children grades K-12 attending private school on Hawai’i Island.
- Comprehensive, employer-provided health insurance.
- Be a part of a dedicated team working on the frontiers of astronomy.
About W. M. Keck Observatory: With acknowledgment and profound respect for the cultural, ecological, and scientific significance of Maunakea, W. M. Keck Observatory offers astronomers a unique vantage point to explore the universe. Our twin telescopes are at the forefront of astronomical discovery, offering transformative insights into the cosmos. We are dedicated to service, stewardship, and our community, all while advancing our mission to unlock the mysteries of the universe. Join us in this endeavor!
Key Responsibilities
The W. M. Keck Observatory seeks a driven and collaborative scientist with a Ph.D. in adaptive optics or high angular resolution astronomy (or related discipline) to join our world-class AO team. The ideal candidate has hands-on expertise in wavefront sensing, AO control algorithms, and instrumentation, along with the creativity and initiative to design, develop, and implement technical improvements in both hardware and software. Strong communication and teamwork skills are essential, as is a demonstrated track record of research and problem-solving that bridges engineering and science. Experience in AO system development, Python programming, and a readiness for cross-disciplinary collaboration are highly valued. Play a lead role in the development and operational implementation of AO systems upgrades, including:
- Play a lead role in the development and operational implementation of AO systems upgrades, including:
- Design, development, testing, and commissioning of new visible and infrared low-order wavefront sensors for laser guide star AO,
- Developing new operations software to improve AO system performance and observing efficiency,
- Developing AO calibration, performance analysis, and image quality optimization tools and techniques.
- Participate in the design and deployment of WMKO’s AO development activities (e.g., the HAKA 2844-actuator deformable mirror upgrade, the ‘IWA infrared pyramid wavefront sensor).
- Conduct research to further WMKO’s high-contrast AO capabilities with the expectation that the research will lead to published technical and peer-reviewed papers. Collaboration with colleagues is encouraged. 20% of work time is allocated to research activities.
Required Qualifications
- Education
- Doctor of Philosophy (Ph.D.) degree in adaptive optics or high angular resolution astronomy.
- Experience
- Working with wavefront sensing and AO control algorithms.
- Skills
- Microsoft Office proficiency.
- Ability to prioritize tasks, plan activities, and meet deadlines.
- Ability to effectively deliver impactful presentations and training sessions.
- Certificates and Licenses
- None
- Commitment to WMKO core values: Stewardship and Service.
- Willingness and ability to occasionally work nights and weekends.
- Ability to work in a constant state of alertness and in a safe manner.
- Ability to occasionally work at the summit at 14,000-foot elevation.
- Python programming proficiency.
- Experience in the development or optimization of adaptive optics systems for astronomy.
- Experience developing and/or running adaptive optics simulations.
- A broad understanding of the multiple engineering disciplines needed to develop adaptive optics systems.