• Korean Journal of Optics and Photonics
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• v.17 no.4
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• pp.335-341
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• 2006

A modified Michelson interferometer type digital holography microscopy system is developed. There is a problem about recording and numerical reconstruction area at the microscopy application of Michelson type interferometer structure in the digital holography field. In this paper, to overcome this problem, we developed a new reflection type digital holography microscope system and increased recording and numerical reconstruction area of target object.

• Transactions of the Korean Society of Mechanical Engineers
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• v.16 no.9
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• pp.1728-1735
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• 1992

Holographic interferometry technique has been used for the measurement of whole-field deformation with high sensitivity. However there are some difficulties in quantitatively analyzing the holographic fringes. Recently, quantitative and automatic fringe analysis by using phase shifting method in interferometry has been studied in many fields. In this paper, a real time holographic interferometry system and a phase shifting method combined with digital image processing technique are employed to record and quantitatively analyze holographic fringe patterns. To evaluate our system and analyze errors, comparison of measured deformation with theoretical deformation of cantilever beam was carried out. The accuracy of 4.5% in our system was verified We have tried to apply this method to quantitatively measure the deformation of turbine blade under the bending force.

• Journal of the Korean Society for Precision Engineering
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• v.24 no.3 s.192
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• pp.7-15
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• 2007

• Proceedings of the Korean Society of Precision Engineering Conference
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• 1995.10a
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• pp.371-374
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• 1995

The real-time holographic interferometer with a digital high-speed camera is applied to the visualization of transient temperature field. Collimated and diffused laser beams are used to the object beam according to the shape and transmittance of the phase object. Also, ESPI(Electronic Speckle Speckle Pattern Interferometer) technique is used to the visualization and quantitatie measurement of slow-varying temperature field. The experimental results obtained form these two techniques are discussed.

• Korean Journal of Optics and Photonics
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• v.8 no.4
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• pp.267-276
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• 1997

We set up a four-wave holographic interferometer using a symmetric dual-beam illumination which is to measure in-plane and out-of-plane displacement simultaneously. In order to acquire the displacement phase map we applied the phase-shifting method and removed the noise of the phase map with least-squares fitting. In this approach the access to information relative to both the difference and sum of phases existing in the two arms of four-wave holographic interferometer was allowed. As a result, in-plane and out-of-plane displacement was measured to the accuracy of λ/40 and λ/100, respectively at λ=632.8nm

• Transactions of the Korean Society of Mechanical Engineers
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• v.16 no.5
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• pp.864-872
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• 1992

Two double-exposure holograms are made in the different view angle at the same time, using laser, by overlapping before and after the static deformation. These images are transfered to the computer. The fringe patterns of holograms are recognized by image processing and each component of the displacement and strain at each point of the specimen is obtained by vector analysis, and the results were presented in the graphical form. For the verification of all the ment process, the two experimental cases, the in-plane displacement by tension load and the out-of-plane displacement by bending load, are measured. These results are compared with the exact solution.

• Proceedings of the Korean Society of Broadcast Engineers Conference
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• 2020.07a
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• pp.561-562
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• 2020

기하학적 위상렌즈를 활용한 광시야각 홀로그램 합성을 위한 시스템을 제안하고 설계하여 제작하였다. 광시야각 홀로그램은 실시간 홀로그램 영상을 녹화하는 과정에서 동시에 물체의 다른 파면을 기록할 수 있기 때문에 물체의 3 차원 정보를 일련의 알고리즘을 통해 데이터화 시키는 과정을 가능하게 한다. 본 논문에서는 기하학적 위상렌즈와 편광 이미지 센서를 결합해 비간섭성 광원의 홀로그램을 기록할 수 있는 자가 간섭 디지털 홀로그래피 시스템을 이용하여 관찰하고자 하는 물체의 파면을 다각도에서 기록하는 광시야각 홀로그램 촬영 시스템을 개발하였다.

• Journal of the Korean Institute of Illuminating and Electrical Installation Engineers
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• v.15 no.1
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• pp.22-27
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• 2001

We presented a modified triangular interlerorreter as an incoherent holography, which can eliminate bias and conjugate image problems of the conventional one. Also, to demonstrate the feasibility of incoherent holograrphy, the formation of an incoherent hologram using a mercury lamp and its numerical and optical reconstructions were presented.sented.

• Broadcasting and Media Magazine
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• v.16 no.2
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• pp.63-72
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• 2011

디지털 홀로그래피는 가간섭성 광원을 이용하여 광파의 위상 정보를 기록 또는 재생하는 기술이다. 이러한 홀로그래피 방식의 광파 재생은 광파를 산란시키는 3차원 대상물을 정확하게 표현할 수 있어서 이상적인 디스플레이 방법으로 여겨진다. 디지털 홀로그래피에서 광파의 샘플링 영역과 그 대역폭의 곱은 공간 대역폭으로 정의되며, 이러한 공간 대역폭은 디지털 홀로그래픽 시스템의 능력을 나타내는 가장 기본적인 수치이다. 공간 대역폭은 샘플링 개수로 이해될 수 있으며 이는 focal plane array (FPA)나 spatial light modulator (SLM)의 픽셀 개수와 일치한다. 디지털 홀로그래피 기술로 기존의 디스플레이가 가지는 크기와 시야각 수준의 광파를 표현하고자 한다면 매우 큰 공간 대역폭이 요구된다. 따라서 디지털 홀로그래픽 디스플레이 시스템의 공간 대역폭을 늘리기 위한 방법은 꾸준히 연구되어 오고 있으며 최근 주목할 만한 시스템들이 제안되었다. 공간 대역폭에 대한 이해를 바탕으로 SLM을 이용한 홀로그래픽 디스플레이에서 가시 부피와 해상도에 대해 논하고, 최근 주목 받고 있는 홀로그래픽 디스플레이의 공간 대역폭을 정리하였다.

• Korean Journal of Optics and Photonics
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• v.8 no.2
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• pp.99-106
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• 1997

In this paper, we demonstrated, through experiment and numerical reconstruction, that the bias and the conjugate image, which are main drawbacks in incoherent holography, can be removed. By using wave plates of the modified triangular interferometer, which was made by adding simple passive devices to the conventional triangular interferometer, we adjusted the relative phase differences of two optical waves traveling in clockwise and counterclockwise. In this way, we obtained four intensity patterns, and then by manipulating the four intensity patterns electronically we obtained the complex hologram without bias and the conjugate image. Comparing numerical reconstruction results of the complex hologram with numerical reconstruction results of the hologram obtained from the conventional triangular interferometer, we demonstrated that bias and the conjugate image can be removed using the modified triangular interferometer.