JPWO2018014036A5

JPWO2018014036A5 -

Info

Publication number: JPWO2018014036A5
Application number: JP2019501531A
Authority: JP
Publication date: 2023-01-31
Anticipated expiration: 2037-07-17

Claims

An energy directed device,
one or more energy positions;
a plurality of energy relay elements, each further comprising a first surface and a second surface;
said second surface of each energy relay element being arranged to form a single seamless energy surface;
The distance between the edges of any two adjacent second surfaces of said single seamless energy surface is the height of said single seamless energy surface from said single seamless energy surface, or said single is a predetermined distance indistinguishable to the human eye at a distance greater than the smaller of the widths of the seamless energy surface of
An energy directing device, wherein the plurality of energy relay elements are configured to direct energy along an energy propagation path extending between the one or more energy locations and the single seamless energy surface. and
The energy directed along the energy propagation path is
a) an acoustic voice;
b) an energy-directed device that is mechanical energy selected from the group consisting of: tactile pressure ;

2. The energy directing device of claim 1, wherein the single seamless energy surface is a virtual surface.

each energy relay element of the plurality of energy relay elements,
a) an optical element exhibiting lateral Anderson localization;
b) an optical fiber;
c) an image combiner;
d) a beam splitter;
e) an element configured to change the angular direction of energy passing therethrough.

4. The energy directing device of any one of claims 1-3, wherein energy is directed through the plurality of energy relay elements with zero magnification.

4. The energy directing device of any one of claims 1-3, wherein energy is directed through the plurality of energy relay elements with non-zero magnification.

4. The energy directing device of any one of claims 1-3, wherein energy is directed through the plurality of energy relay elements with non-zero reduction.

7. The energy directing device of any one of claims 1-6, wherein the single seamless energy surface is planar.

7. The energy directing device of any one of claims 1-6, wherein the single seamless energy surface is faceted.

7. The energy directing device of any one of claims 1-6, wherein the single seamless energy surface is curved.

10. The energy directing device of any one of claims 1-9, wherein the quantity of the plurality of energy relay elements and the quantity of the one or more energy positions define mechanical dimensions of the energy directing device.

at said one or more energy positions;
a) a liquid crystal display;
b) an organic light emitting diode display;
c) a cathode ray tube display;
11. An energy directing device according to any one of the preceding claims, comprising a display selected from the group consisting of: d) a projector.

The plurality of energy relay elements are configured to relay received focused light, the received focused light passing through the first surface having a first resolution and passing through the second surface. 12. The energy directing device of any of claims 1-11, wherein the received focused light passing through has a second resolution greater than or equal to 50% of the first resolution.

The energy directed along the energy propagation path is electromagnetic energy defined by a wavelength, said wavelength being:
a) visible light and
b) ultraviolet light;
c) infrared radiation;
and d) X-rays.

bonding the faceplate layer to the single seamless energy surface using adhesive, index matching oil, pressure, or gravity such that the single seamless energy surface adheres the faceplate layer to the energy relay element; extended by placing in direct contact,
14. Any one of claims 1 to 13 , wherein the faceplate layer consists of a single piece of energy relay material or of two or more pieces of energy relay material bonded or fused together. energy-directed device.

15. The claim 14 , wherein the addition of said faceplate layer increases the angle of emission of energy waves emanating from said single seamless energy surface composed of said energy relay elements with respect to the normal to said second surface. energy-directed device.

An energy directed device,
one or more energy positions;
a plurality of energy relay element stacks;
Each energy relay element stack comprises one or more energy relay elements, each energy relay element comprising a first surface and a second surface, each energy relay element configured to direct energy therethrough. is,
said second surfaces of terminal energy relay elements of said plurality of energy relay element stacks are arranged to form a single seamless energy surface;
said plurality of energy relay element stacks configured to direct energy along an energy propagation path extending between said one or more energy locations and said single seamless energy surface;
The distance between the edges of any two adjacent second surfaces of said terminal energy relay element is from said single seamless energy surface to the height of said single seamless energy surface, or An energy directing device , a predetermined distance indiscernible to the human eye at a distance greater than the lesser of the widths of the seamless energy surface, comprising:
The energy directed along the energy propagation path is
a) an acoustic voice;
b) an energy-directed device that is mechanical energy selected from the group consisting of: tactile pressure ;

17. The energy directing device of Claim 16 , wherein the single seamless energy surface is a virtual surface.

18. The energy directing device of claim 16 or 17 , wherein the energy relay elements of the plurality of energy relay element stacks are arranged in an end-to-end configuration.

any of the energy relay elements of the plurality of energy relay element stacks,
a) an energy element exhibiting lateral Anderson localization;
b) an optical fiber;
c) a beam splitter;
d) an image combiner;
e) an element configured to change the angular direction of energy passing therethrough , and an element selected from the group consisting of: Energy directed device.

20. The energy directing device of any one of claims 16-19 , wherein energy is directed through the one or more energy relay elements with zero magnification.

20. The energy directing device of any one of claims 16-19 , wherein energy is directed through the one or more energy relay elements with non-zero magnification.

20. The energy directing device of any one of claims 16-19 , wherein energy is directed through the one or more energy relay elements with non-zero reduction.

23. The energy directing device of any one of claims 16-22 , wherein the single seamless energy surface is planar.

23. The energy directing device of any one of claims 16-22 , wherein the single seamless energy surface is faceted.

23. The energy directing device of any one of claims 16-22 , wherein the single seamless energy surface is curved.

The energy directed along the energy propagation path is electromagnetic energy defined by a wavelength, said wavelength being:
a) visible light and
b) ultraviolet light;
c) infrared radiation;
26. The energy directing device of any one of claims 16-25 , selected from the group consisting of: d) X-rays.

Bonding the faceplate layers to the single seamless energy surface using adhesive, index matching oil, pressure, or gravity such that the single seamless energy surface adheres the faceplate layers to the energy relay element stack. extended by placing it in direct contact with
27. Any one of claims 16-26 , wherein the faceplate layer consists of a single piece of energy relay material or of two or more pieces of energy relay material bonded or fused together. energy-directed device.

28. The claim of claim 27 , wherein the addition of said faceplate layer increases the angle of emission of energy waves emanating from said single seamless energy surface composed of said energy relay elements with respect to normal to said second surface. energy-directed device.

an energy system,
one or more energy devices;
A plurality of energy relay components, each made of elements that induce lateral Anderson localization of energy transport through the energy relay component, each further comprising a first energy surface and a second energy surface. , a plurality of energy relay components, and
said second energy surfaces of said plurality of energy relay components arranged to form a single seamless energy surface;
said one or more energy devices are operable to at least emit or receive energy through said single seamless energy surface;
The distance between the edges of any two adjacent second energy surfaces of the plurality of energy relay components is from the single seamless energy surface to the height of the single seamless energy surface, or a predetermined distance that is indistinguishable to the human eye at distances greater than the smaller of the widths of the seamless energy surface of the energy system.

30. The energy system of claim 29 , wherein said single seamless energy surface is a virtual surface.

31. The energy system of claim 29 or 30 , wherein said single seamless energy surface is planar.

31. The energy system of any of claims 29-30 , wherein said single seamless energy surface is faceted.

31. The energy system of claim 29 or 30 , wherein said single seamless energy surface is curved.

the one or more energy devices;
a) an illumination source emitting focused light;
b) an acoustic emission device configured to provide immersive audio or volumetric sensations from a sound field integrated in said energy system;
c) a sensor for capturing energy within the energy spectrum;
34. The energy system of any one of claims 29-33 , comprising an element selected from the group consisting of: d) an acoustic receiver configured to provide sensory feedback to the energy system.

the energy emitted or received by said one or more energy devices is electromagnetic energy defined by a wavelength, said wavelength being:
a) visible light and
b) ultraviolet light;
c) infrared radiation;
and d ) X- rays .

energy emitted or received by said one or more energy devices,
a) an acoustic voice;
35. The energy system of any one of claims 29-34 , wherein b) mechanical energy selected from the group consisting of: tactile pressure;

bonding the faceplate layer to the single seamless energy surface using adhesive, index matching oil, pressure, or gravity such that the single seamless energy surface adheres the faceplate layer to the energy relay component; extended by placing in direct contact,
37. Any one of claims 29-36 , wherein the faceplate layer consists of a single piece of energy relay material or of two or more pieces of energy relay material bonded or fused together. energy system.

The addition of said faceplate layer may increase the angle of emission of energy waves exiting said single seamless energy surface composed of said plurality of energy relay components with respect to the normal to said second energy surface. Item 38. The energy system of Item 37 .