Welcome to LLE

The Laboratory for Laser Energetics (LLE) of the University of Rochester is a unique national resource for research and education in science and technology. LLE was established in 1970 as a center for the investigation of the interaction of intense radiation with matter. The National Nuclear Security Administration funds LLE as part of its Stockpile Stewardship Program.

Target being shot by a laser
Office of the Director

Laser's 50th Anniversary

SPIE interview with LLE Director
Dr. Robert L. McCrory

Road Construction Near LLE

Construction on I-390 and I-590 near the lab continues (shown in orange here). Updates available from the NYS Department of Transportation Road Construction Near LLE


Quick Shot

Visit by the National Academies Committee

The National Academy of Sciences Committee on Opportunities in the Science, Applications, and Technology of Ultrafast Lasers met at LLE. Presentations included an overview of LLE's mission, capabilities, partnership culture, and users facility. Specifics on LLE's ultrahigh-intensity science and laser technology were also provided.

Past Quick Shots

Around the Lab

Computational Chemistry Modeling and Design of Photoswitchable Alignment Materials for Optically Addressable Liquid Crystal Devices

Photoalignment technology, based on optically switchable "command surfaces," has been receiving increasing interest for liquid crystal optics and photonics device applications. Azobenzene compounds in the form of low-molar-mass, water-soluble salts deposited either directly on the substrate surface or after dispersion in a polymer binder have been almost exclusively employed for these applications. Ongoing research in the area follows a largely empirical materials design and development approach. This process is time consuming, labor intensive, and wasteful of costly, and potentially scarce, materials resources because of the need to synthesize a large number of compounds to establish trends in physical properties.

Here, Emily Sekera (B.S. Chemistry, Rochester Institute of Technology 2015) and Research Chemist, Kenneth Marshall, are shown in front of a computationally generated molecular model of an azobenzene photoswitchable alignment material being investigated for use in an optically addressable liquid crystal beam shaper.

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