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A realization method of a programmable light source system based on dmd

A realization method and technology of a light source system, applied in optics, optical components, instruments, etc., can solve the problems of light source energy attenuation, large light-emitting area, etc., and achieve the effects of improved monochromaticity, increased output intensity, and increased wavelength adjustment rate

Inactive Publication Date: 2018-01-12
FUZHOU UNIV
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  • Application Information

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Problems solved by technology

However, due to the large light-emitting area, the energy of this light source is rapidly attenuated after passing through the monochromator.

Method used

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  • A realization method of a programmable light source system based on dmd
  • A realization method of a programmable light source system based on dmd
  • A realization method of a programmable light source system based on dmd

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Embodiment Construction

[0035] The present invention will be further described below in conjunction with the accompanying drawings and embodiments.

[0036] Such as figure 1 As shown, this embodiment provides a method for implementing a DMD-based programmable light source system, which specifically includes the following steps:

[0037] Step S1: providing a supercontinuum light source 1, a first parabolic mirror 2, a first cylindrical convex lens 3, a cylindrical concave lens 4, a first dispersion prism 5, a second dispersion prism 6, a second cylindrical convex lens 7, a DMD chip 8, Inverted dispersion prism 9, second parabolic mirror 10 and collecting optical fiber 11;

[0038] Step S2: The supercontinuum light source 1 provides an ultra-broadband spectral output of 400nm-2400nm, and the first parabolic mirror 2 collects the ultra-broadband spectral output to form parallel light;

[0039] Step S3: adjust one dimension of the parallel light in step S2 through the first cylindrical convex lens 3 an...

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Abstract

The invention relates to a realization method of a programmable light source system based on a DMD, wherein an ultra wideband output of 400 nm-2400 nm is output by a super-continuous light source at first, and output light is collected by a paraboloid mirror to form parallel light; and the parallel light is split though a dispersing prism combination, the dispersed light is focused by a columnar convex lens, and the light with different wavelengths is projected to the DMD. A DMD control program selects the wavelength by selecting reversal of prisms on different rows. A to-be-output waveband is reflected by a micro mirror to one direction; and unselected wavebands are reflected to other directions. The to-be-collected light reflected by the DMD micro mirror passes through an inverted dispersing prism to offset original dispersing in order to reintegrate the reflected light into the parallel light, and then the parallel light is collected by the paraboloid mirror to an input end of a collection optical fiber. Finally, the whole system realizes rapid programmable outputting by controlling the reversal of the micro mirror on the DMD.

Description

technical field [0001] The invention relates to the field of optical engineering, in particular to a method for realizing a DMD-based programmable light source system. Background technique [0002] Broadband light sources include traditional mercury lamps, xenon lamps, deuterium lamps, QTH lamps, and SLEDs (Super Luminescent LEDs). Relatively new technologies include laser-pumped broadband light sources developed by Energetiq Corporation of the United States. These light sources emit light based on black body radiation or arc plasma discharge, which are incoherent light sources. It has the characteristics of large luminous area, not easy to collect and focus. To obtain a single wavelength output, a monochromator system is usually required. However, due to the large light-emitting area, the energy of this light source attenuates sharply after passing through the monochromator. [0003] With the development of ultrafast lasers, the Supercontinuum light source (Supercontinu...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G02B27/00
CPCG02B27/00
Inventor 王向峰冯涛姚立刚任志英
Owner FUZHOU UNIV
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