Abstract: A light surface display for providing a three-dimensional image including a plurality of particles suspended within a volumetric display. A first projection system projects sequential slices of electromagnetic energy of one or more wavelengths along the length and width of the volumetric display energizing particles to form a two-dimensional image. A second projection system projects translational slices of electromagnetic energy of one or more wavelengths that intersect with the energized particles across the depth of the volumetric display. A control system synchronizes the projection of the image source and the activation source such that the two-dimensional image and the translational slices energize the particles for a pre-determined length of time so that the particles illuminate to form an illuminated three-dimensional image.

Abstract: A volumetric liquid crystal display for producing a three-dimensional image is disclosed. The volumetric liquid crystal display includes a volumetric image space having at least two layers of LCD sheeting wherein each layer of LCD sheeting is selectively energized to form image slices. At least one projection system projects at least one array of electromagnetic energy of one or more wavelengths to intersect the energized layer of LCD sheeting illuminating image slices. Successive illumination of image slices on the layers of LCD sheeting provides the appearance of a three-dimensional image. Embodiments and methods of controlling and fabricating a three-dimensional image are disclosed.

Abstract: The present invention relates to methods and systems for enhancing the traffic carrying capacity of telecommunication networks, in particular those involving optical networks and dense wavelength division multiplexing (DWDM).