Coherent three-dimensional display device based on optical wave-front reconstruction

A three-dimensional, wavefront reconstruction technology, applied in optics, optical components, stereo systems, etc., can solve the problems of small viewing angle and impracticality, and achieve the effects of increasing stability, simplifying structure, and reducing the difficulty of production and assembly

Inactive Publication Date: 2012-11-07
李志扬
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In this way, although the size of the stereoscopic image is enlarged, the observer can only see a sm

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  • Coherent three-dimensional display device based on optical wave-front reconstruction
  • Coherent three-dimensional display device based on optical wave-front reconstruction
  • Coherent three-dimensional display device based on optical wave-front reconstruction

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[0047] Below in conjunction with accompanying drawing, the present invention is described in further detail:

[0048] A coherent three-dimensional display device based on optical wavefront reconstruction, comprising

[0049] The optical wavefront generator 1 is used to generate conjugate light waves, so that the generated conjugate light waves reach the first microlens array plate 2 based on the reversible propagation of the optical path, and are reconstructed after being focused and scattered by the first microlens array plate 2 3D stereoscopic image;

[0050] The first microlens array plate 2 receives the conjugated light waves generated by the optical wavefront generator 1, and each microlens focuses to generate a light cone, increasing the observation angle of the three-dimensional image reconstructed based on the principle of reversibility of the optical path.

[0051] The optical wavefront generator 1 is a digital optical phase conjugation device, and the digital optica...

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Abstract

The invention relates to a coherent three-dimensional display device based on optical wave-front reconstruction, comprising an optical wave-front generator and a first micro lens array plate. The optical wave-front generator is used for generating high-precision conjugate light waves in a small range so that the conjugate light waves are reversibly spread to the first micro lens array plate based on a light path and three-dimensional images are reconstructed in a big range in the sky after the conjugate light waves are focused and scattered by the first micro lens array plate. The first micro lens array plate is used for receiving the conjugate light waves generated by the optical wave-front generator; each micro lens focuses to generate a light cone to increase an observation angle of the three-dimensional images reconstructed based on a light path reversibility principle so that large-size and large-viewing angle three-dimensional display is realized.

Description

technical field [0001] The present invention relates to the fields of three-dimensional imaging and optical wavefront reconstruction, and more specifically relates to a coherent three-dimensional display device based on optical wavefront reconstruction, which is suitable for three-dimensional display, virtual reality, computer man-machine exchange, robot vision and other fields. Background technique [0002] Optical systems for 3D stereoscopic display can be classified into incoherent 3D stereoscopic display systems and coherent 3D stereoscopic display systems according to whether the light source used is an incoherent light source or a coherent light source. The two basic characteristics of light waves are amplitude and phase, where the amplitude reflects the brightness information, while the phase reflects the spatial position and shape information. The biggest difference between the incoherent 3D stereoscopic display system and the coherent 3D stereoscopic display syst...

Claims

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Application Information

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IPC IPC(8): G02B27/26G02B27/00H04N13/04G02B30/25
Inventor 李志扬
Owner 李志扬
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