WAVEGUIDES GUIDING LIGHT WAVES
| Brand | Owner | Address | Description |
|---|---|---|---|
| KENVIS | CARL ZEISS JENA GMBH | Carl-Zeiss-Promenade 10 Jena 07745 Germany | Waveguides for guiding light waves, namely, transparent waveguides, transparent holographic waveguides, and transparent holographic waveguides made of glass, a glass-polymer sandwich or a polymer-polymer sandwich, said waveguides comprising at least one holographic optical element; waveguide assemblies comprising a transparent waveguide for guiding light waves and a light-sensitive sensor, light emitting diodes (LEDs) as a light source and/or a non-medical imaging device for the recording, transmission and reproduction of light distributions or images; waveguide assemblies comprising a transparent holographic waveguide for guiding light waves and a light-sensitive sensor, light emitting diodes (LEDs) as a light source and/or a non-medical imaging device for the recording, transmission and reproduction of light distributions or images; smart device displays featuring a transparent waveguide, namely, smart glasses displays, head-up displays for automobile drivers and aircraft pilots, television screen displays, computer screen displays, smartphone screen displays, and head-mounted displays; smart device displays comprising a transparent holographic waveguide for guiding light waves, namely, smart glasses displays, head-up displays for automobile drivers and aircraft pilots, television screen displays, computer screen displays, smartphone screen displays, and head-mounted displays; smart device display devices comprising a transparent waveguide for guiding light waves and a light-sensitive sensor, a light source and/or a non-medical imaging device for the recording, transmission and reproduction of light distributions or images, namely, smart glasses displays, head-up displays for automobile drivers and aircraft pilots, television screen displays, computer screen displays, smartphone screen displays, and head-mounted displays; smart device display devices featuring a transparent holographic waveguide and a light-sensitive sensor, a light source and/or an imaging device, namely, smart glasses displays, head-up displays for automobile drivers and aircraft pilots, television screen displays, computer screen displays, smartphone screen displays, and head-mounted displays; head-up display devices for use in vehicles or general aviation comprising a transparent holographic waveguide for guiding light waves and a light-sensitive sensor, a light source and/or a non-medical imaging device for the recording, transmission and reproduction of light distributions or images; head mounted display devices, namely, smart glasses featuring a transparent holographic waveguide and a light-sensitive sensor, a light source and/or an imaging device; spectacle lenses featuring a transparent holographic waveguide; data glass devices, namely, smart glasses featuring a transparent holographic waveguide and a light-sensitive sensor, a light source and/or an imaging device; holographic optical elements in the nature of optical devices, namely, optical lenses; reflective holographic optical elements in the nature of optical devices, namely, optical lenses; transmissive holographic optical elements in the nature of optical devices, namely, optical lenses;Window panes featuring a transparent holographic waveguide; window pane assemblies featuring a transparent holographic waveguide and a light-sensitive sensor, a light source and/or an imaging device;The name(s), portrait(s), and/or signature(s) shown in the mark does not identify a particular living individual.;KEN VIS;Land vehicle parts, namely, windshields featuring a transparent holographic waveguide;Design of waveguides; design of transparent waveguides that comprise at least one holographic optical element; design of waveguide assemblies that comprise a transparent waveguide and a light-sensitive sensor, a light source and/or an imaging device; design of displays comprising a transparent holographic waveguide; design of display devices comprising a transparent holographic waveguide; design of windowpanes comprising a transparent holographic waveguide; design of windowpane assemblies comprising a transparent holographic waveguide; design of windshields comprising a transparent holographic waveguide; design of spectacle glasses comprising a transparent holographic waveguide; design of data glass devices comprising a transparent holographic waveguide; design of holographic optical elements; |
Where the owner name is not linked, that owner no longer owns the brand |
Technical Examples
- An optical delay circuit includes a plurality of defect waveguides arranged in parallel and including a line-shaped defect in a periodic refractive-index distribution structure of a photonic crystal. The defect waveguides include a multiplexing/demultiplexing portion in which the defect waveguides are arranged close to each other to multiplex and demultiplex light; and an optical delay portion extending from the multiplexing/demultiplexing portion, in which the defect waveguides are arranged with a predetermined distance therebetween so that light propagating in any of the defect waveguides does not interfere with light propagating in the other defect waveguides. Each of the waveguides has a different configuration.