• Title/Summary/Keyword: Refractive index compensation

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Analysis and compensation of Repeatability for Ultra-precision Stage (초정밀 스테이지의 반복정밀도 분석 및 보정)

  • 박종하;황주호;박천홍;홍준희
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2004.10a
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    • pp.800-803
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    • 2004
  • The refractive index of the laser interferometer is compensated using the simultaneously measured variations of room temperature and humidity in the method. In order to investigate the limit of compensation, the stationary test against two fixed reflectors mounted on the zerodur plate is performed firstly. From the experiment, it is confirmed that the measuring error of the laser interferometer can be improved from 0.12$\mu$m to 0.17$\mu$m by the application of the method. Secondly, for the verification of the compensating effect, it is applied to estimate the positioning accuracy of an ultra precision aerostatic stage. Two times of the refractive index compensation are performed to acquire the positioning error of the stage from the initially measured data, that is, to the initially measured positioning error and to the measured positioning error profile after the NC compensation. Although the positioning error of anaerostatic stage cannot be clarified perfectly, it is known that by the compensation method, the measuring error by the laser interferometer can be improved to within 0.15$\mu$m. English here.

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Improvement of the Laser Interferometer Error in the Positioning Accuracy Measurement (레이저간섭계의 위치결정정밀도 측정오차 개선)

  • 황주호;박천홍;이찬홍;김승우
    • Journal of the Korean Society for Precision Engineering
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    • v.21 no.9
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    • pp.167-173
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    • 2004
  • The heterodyne He-Ne laser interferometer is the most widely used sensing unit to measure the position error. It measures the positioning error from the displacement of a moving reflector in terms of the wave length. But, the wave length is affected by the variation of atmospheric temperature. Temperature variation of 1$^\circ C$ results in the measuring error of 1ppm. In this paper, for measuring more accurately the position error of the ultra precision stage, the refractive index compensation method is introduced. The wave length of the laser interferometer is compensated using the simultaneously measured room temperature variations in the method. In order to investigate the limit of compensation, the stationary test against two fixed reflectors mounted on the zerodur$\circledR$ plate is performed firstly. From the experiment, it is confirmed that the measuring error of the laser interferometer can be improved from 0.34${\mu}m$ to 0.11${\mu}m$ by the application of the method. Secondly, for the verification of the compensating effect, it is applied to estimate the positioning accuracy of an ultra precision aerostatic stage. Two times of the refractive index compensation are performed to acquire the positioning error of the stage from the initially measured data, that is, to the initially measured positioning error and to the measured positioning error profile after the NC compensation. Although the positioning error of an aerostatic stage cannot be clarified perfectly, it is known that by the compensation method, the measuring error by the laser interferometer can be improved to within 0.1${\mu}m$.

Analysis and compensation of positioning error for aerostatic stage (공기정합 스테이지의 위치결정오차 분석 및 보정)

  • 황주호;박천홍;이찬흥;김승우
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2002.05a
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    • pp.378-391
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    • 2002
  • A 250mm stroke aerostatic stage, which detects position with laser scale and is driven by linear motor, is made and analyzed positioning error in 20$\pm$ 0.5 $^{\circ}C$ controlled atmosphere, aiming at investigating positioning characteristic of ultra-precision stage. We prove this aerostatic stage has a 10nm micro step resolution by experiment. By means of analyzing laser interferometer system, the scale of measuring error is about 0.2-0.4$\mu\textrm{m}$ according to refractive index error from missing the temperature change. To improve laser interferometer system, compensate refractive index error using measuring data from thermocouple. And, confirm 0.10$\mu\textrm{m}$ repeatability and 0.13 $\mu\textrm{m}$ positioning accuracy using the compensating refractive index. Also, we confirm 0.07 ${\mu}{\textrm}{m}$ repeatability of the stage using capacitive displacement sensor.

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Study on the Compensation of Dielectric Constant in Dielectric Materials (절연박막에서 유전상수의 보상에 관한 연구)

  • Oh, Teresa
    • Journal of the Korean Vacuum Society
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    • v.18 no.6
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    • pp.435-439
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    • 2009
  • The reason of lowering the dielectric constant of SiOC film was studied using parameters obtained from C-V measurement and refractive index. SiOC film was formed by the force of ionic bonding during the recombination of dissociated gases. Generally, the dielectric constant was obtained from the square of the refractive index or C-V measurement using the metal/insulator/Si structure. The dielectric constant consists of the ionic and electronic elements. It was researched about the dielectric constant of SiOC film using the average of the ionic and electronic elements. The dielectric constant decreased after annealing process. As deposited films trended toward the dielectric constant consisted of most ionic elements, on the other hand, annealed films mostly consisted of electronic elements. Because the effect of ionic elements reduced after annealing. Consequently, it was found that the electronic effect of SiOC film increased and the ionic effect of SiOC film decreased by the after-annealing.

The characteristics of dispersion compensation in uniform fiber grating (일반광섬유격자의 분산보상 특성 분석)

  • Lee, J.H.;Song, J.H.;Lee, K.S.;Lee, Y.S.;Jeon, C.O.;Jeon, K.I.
    • Proceedings of the KIEE Conference
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    • 1998.07e
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    • pp.1834-1836
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    • 1998
  • The characteristics of dispersion compensation in uniform fiber grating is studied according to grating length, the refractive index modulation depth, and Gaussian window parameter(G). A 50cm-long uniform grating apodized by Gaussian function(G=10) with bandwidth of ${\sim}0.8nm$ and small noise is designed.

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Simulation Research on the Thermal Effects in Dipolar Illuminated Lithography

  • Yao, Changcheng;Gong, Yan
    • Journal of the Optical Society of Korea
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    • v.20 no.2
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    • pp.251-256
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    • 2016
  • The prediction of thermal effects in lithography projection objective plays a significant role in the real-time dynamic compensation of thermal aberrations. For the illuminated lithography projection objective, this paper applies finite element analysis to get the temperature distribution, surface deformation and stress data. To improve the efficiency, a temperature distribution function model is proposed to use for the simulation of thermal aberrations with the help of optical analysis software CODE V. SigFit is approved integrated optomechanical analysis software with the feature of calculating OPD effects due to temperature change, and it is utilized to prove the validation of the temperature distribution function. Results show that the impact of surface deformation and stress is negligible compared with the refractive index change; astigmatisms and 4-foil aberrations dominate in the thermal aberration, about 1.7 λ and 0.45 λ. The system takes about one hour to reach thermal equilibrium and the contrast of the imaging of dense lines get worse as time goes on.