Scientists use our magnets to explore semiconductors, superconductors, newly-grown crystals, buckyballs and materials from the natural world — research that reveals the secret workings of materials and empowers us to develop new technologies.

Scientists here are working to optimize petroleum refining, advance potential bio-fuels such as pine needles and algae, and fundamentally change the way we store and deliver energy by developing better batteries.

With the world’s strongest MRI magnet, scientists here study everything from living animals to individual cells, from proteins to disease-fighting molecules found in plants and animals — work that could improve treatment of AIDS, cancer, Alzheimer’s and other diseases.

Personalized, cell-based therapies and personalized drug selection constitute two important facets of precision medicine, treatments specifically tailored to the individual receiving them.

Our knowledge of how our customers will use a product—including their environment and operational constraints—informs how we conceptualize the solution.

Our modeling and simulation capabilities support rapid incorporation of new ideas and user feedback into virtual systems, demonstratable solutions, and fielded prototypes.

Scientists use our magnets to explore semiconductors, superconductors, newly-grown crystals, buckyballs and materials from the natural world — research that reveals the secret workings of materials and empowers us to develop new technologies.

Scientists here are working to optimize petroleum refining, advance potential bio-fuels such as pine needles and algae, and fundamentally change the way we store and deliver energy by developing better batteries.

With the world’s strongest MRI magnet, scientists here study everything from living animals to individual cells, from proteins to disease-fighting molecules found in plants and animals — work that could improve treatment of AIDS, cancer, Alzheimer’s and other diseases.

Personalized, cell-based therapies and personalized drug selection constitute two important facets of precision medicine, treatments specifically tailored to the individual receiving them.

Our knowledge of how our customers will use a product—including their environment and operational constraints—informs how we conceptualize the solution.

Our modeling and simulation capabilities support rapid incorporation of new ideas and user feedback into virtual systems, demonstratable solutions, and fielded prototypes.

Throughout the years, about ten low-power nuclear reactors operated at SSFL, in addition to several "critical facilities" that helped develop nuclear science and applications. At least four of the ten nuclear reactors had accidents during their operation. The reactors located on the grounds of SSFL were considered experimental, and therefore, had no containment structures .

The site ceased research and development operations in 2006. The years of rocket testing, nuclear reactor testing, and liquid metal research have left the site "significantly contaminated". Environmental cleanup is ongoing.

Three California state agencies and three federal agencies have been overseeing a detailed investigation of environmental impacts from historical site operations since at least 1990. [8] Concerns about the environmental impact of past disposal practices have inspired at least two lawsuits seeking payment from Boeing and several interest groups are actively involved with steering the ongoing environmental investigation.

Scientists use our magnets to explore semiconductors, superconductors, newly-grown crystals, buckyballs and materials from the natural world — research that reveals the secret workings of materials and empowers us to develop new technologies.

Scientists here are working to optimize petroleum refining, advance potential bio-fuels such as pine needles and algae, and fundamentally change the way we store and deliver energy by developing better batteries.

With the world’s strongest MRI magnet, scientists here study everything from living animals to individual cells, from proteins to disease-fighting molecules found in plants and animals — work that could improve treatment of AIDS, cancer, Alzheimer’s and other diseases.

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