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Abstract
A noncollinear acousto-optic tunable filter (AOTF) was designed with a comprehensive treatment of the properties of TeO2 as an acoustooptic (A-O) material. The results of optical testing validated that it predicted the performance of the designed AOTF. The bandwidth of the AOTF was very narrow in the visible light range. The high spectral resolution of AOTF was useful in practical applications to the hyperspectral imaging. The experimentally observed spectral pattern of the diffracted light was nearly the same as the theoretical result. The measured tuning relationship between the diffracted central optical wavelength and acoustic frequency was in accordance with the theoretical prediction. It demonstrates the accuracy of our design theory. Furthermore, by selecting the AOTF as the spectroscopic element, a hyperspectral microscopic imaging system was designed. The hyperspectral microscopic images of the rat skin tissue under the different optical center wavelength were acquired. The experimental results indicated that the imaging performance was satisfactory. The stratums of the rat skin can be clearly distinguished. The inner details of the epidermis and the corium can be shown on the hyperspectral microscopic images. Some differences also can be found by the comparison of the hyperspectal images under the different optical wavelengths. The study indicated the applicability and the advantage of our system on biomedicine area.
Highlights
acousto-optic tunable filter (AOTF) is a kind of all solid state optical filter with fast scan speed
The experimental results illuminated the good performance of the designed AOTF
The rat skin tissue was selected, and its hyperspectral microscopic images at s series of optical wavelengths were collected by running the system
Summary
AOTF is a kind of all solid state optical filter with fast scan speed. Its function is based on the acousto-optic interaction in the birefringent material and possesses many attractive features: real-time electronic tuning with wide tuning range, large throughput etc. The AOTF had been widely used in the tuning dye lasers, optical calculation, spectral analysis, hyperspectral imaging and other related areas [1]–[6]. Many kinds of AOTF (based on the crystal or optical fiber) were commercial available, scientists have been working hard on developing an AOTF with better performance. The perfect performance of an AOTF is of significance for keeping the good detection ability in the related applications. In these years, the TeO2 based noncollinear AOTF have been more and more attractive for the demonstrated good performance (high diffraction efficiency, large angular aperture, and etc.). The experimental results illuminated the good performance of the designed AOTF. Received May 26, 2014; revised ms. received July 25, 2014; published August 20, 2014
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