Freeform Optics (Freeform)
07 - 11 June 2015
07 June 2015
Renaissance Arlington Capital View Hotel, Arlington,
Freeform Optics explores the evolving impact of freeform optical surfaces on optical systems for both imaging and illumination. New fabrication techniques that create optical surfaces that are not surfaces of revolution open an expansive new space for optical systems. Particularly enabled systems include illumination systems, head-worn displays and mid- and long-wave pervasive surveillance systems. But optical testing methods for these new surfaces are lacking, and the theory and implementation of an aberration theory as a basis for optical design of these surfaces was only unraveled in 2012. The scope features work on the optical design of imaging systems with freeform surfaces, evolving methods for surface representation for illumination system optimization and a perspective on the new challenges these surface present to optical testing.
With the ever expanding successes from the introduction of freeform surfaces into both imaging and nonimaging (illumination) optical systems, there is innovative work being done in both academia and industry in all areas of optical system evolution including,
Optical system simulation
Optical system assembly
Invited speakers from both industry and academia will speak to the latest developments in these topics and more.
View the complete list of topic categories.
John Mather, NASA Goddard Space Flight Center, USA
Nobel Prize Winner in Physics 2006
W.E. Moerner, Stanford University, USA
Nobel Prize Winner in Chemistry 2014
Shree Nayar, Columbia University
View the plenary page for talk titles and abstracts.