High-efficiency and flexible generation of vector vortex optical fields by a reflective phase-only spatial light modulator

Abstract Multidimensional photography can capture optical fields beyond the capability of conventional image sensors that measure only two-dimensional (2D) spatial distribution of light. By mapping a high-dimensional datacube of incident light onto a 2D image sensor, multidimensional photography resolves the scene along with other information dimensions, such as wavelength and time. However, the application of current multidimensional imagers is fundamentally restricted by their static optical architectures and measurement schemes—the mapping relation between the light datacube voxels and image sensor pixels is fixed. To overcome this limitation, we propose tunable multidimensional photography through active optical mapping. A high-resolution spatial light modulator, referred to as an active optical mapper, permutes and maps the light datacube voxels onto sensor pixels in an arbitrary and programmed manner. The resultant system can readily adapt the acquisition scheme to the scene, thereby maximising the measurement flexibility. Through active optical mapping, we demonstrate our approach in two niche implementations: hyperspectral imaging and ultrafast imaging.

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Research on Image Identification of D.Huoshanense with Joint Transform Correlation Using the Electronic-Addressing Spatial Light Modulator

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.226-228.1858 ◽

2012 ◽

Vol 226-228 ◽

pp. 1858-1865

Author(s):

Yong Sheng Bao ◽

Rong De Lu ◽

Y.X. Ren ◽

Quan Zhang ◽

X.Y. Ding

Keyword(s):

Liquid Crystal ◽

Spatial Light Modulator ◽

High Efficiency ◽

Focal Length ◽

Processing Technique ◽

Reference Image ◽

Light Modulator ◽

Correlation Algorithm ◽

Correlation Image ◽

Joint Transform Correlation

The optical joint transform correlation based on liquid crystal spatial light modulator is a fast and parallel processing technique with high efficiency, which electronic correlation processing techniques can not match with. Similar to the correlation techniques in electronics, the sampling in optical joint transform correlation is of great importance for correlation algorithm. This paper discusses the space bandwidth problem in joint transform correlation identification experiment realized by electronic-addressing liquid crystal spatial light modulator (ELC-SLM) and CCD, and analyses the relation between focal length of Fourier lens and the resolution of lockport community television (LCTV) and charge-coupled device (CCD). Using double slit, the leaves of Dendrobium huoshanense(D.huoshanense) and so on as primary signal of correlation algorithm, it discusses the lineament and size of suitable joint transform correlation (JTC) using an object image and a reference image. In the experiment nonlinear exposure of power spectrum enhances the diffraction efficiency of correlation image. Using the joint transform correlation image recognition platform in experiment, there are leading in recognition to make quantization of recognition results. This research has certain significance to the joint correlation problem about the leaf image processing of D.huoshanense.

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