• Title/Summary/Keyword: 반배율

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Hardware Design for the Control Signal Generation of Electron Optic by Focal Length (Focal length에 의한 전자 렌즈의 제어 신호 생성을 위한 하드웨어 설계)

  • Lim, Sun-Jong;Lee, Chan-Hong
    • Transactions of the Korean Society of Machine Tool Engineers
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    • v.16 no.5
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    • pp.96-100
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    • 2007
  • Condenser lens and objective lens are used to demagnify the image of the crossover to the final spot size. In lens, electrons are focused by magnetic fields. This fields is fringing field. It is important in electron focusing. Electron focusing occurs the radial component field and axial component field. Radial component produces rotational force and axial component produces radial force. Radial force causes the electron's trajectory to curve toward the optic axis and corss it. Focal length decreases as the current of lens increases. In this paper, we use the focal length for desiging the hardware of lens current control and present the results.

Design of a Condenser Lens System using a Thin Lens Combination (얇은 렌즈 조합을 이용한 집속 렌즈 시스템 설계)

  • Lim, Sun-Jong;Choi, Ji-Yeon
    • Journal of the Korean Society of Manufacturing Technology Engineers
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    • v.20 no.5
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    • pp.517-522
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    • 2011
  • Most of SEM is double condenser lens system. Two condenser lenses are required to provide the high demagnification ratios necessary for forming nanometer probes. The thin lens concept provides a highly useful basis for preliminary calculations in a broad range of situations. It is an easy way to understand the electron beam paths in column. Demagnification is easily calculated by this method. In this paper, we present design processes for condenser lens's demagnification by using thin lens combination model. Also, we verify the reliability of our design processes by comparing the modeled demagnification with these of corrected condenser lens.

Optical Design of a Zoom Eyepiece (Zoom접안경에 대한 광설계)

  • 임천석;이상수;박충선;김재순
    • Korean Journal of Optics and Photonics
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    • v.5 no.3
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    • pp.356-363
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    • 1994
  • By Gaussian optics, a zoom eyepiece is analyzed, which has the diameter of exit pupil 0.5 em, eyerelief 1 em, and angular magnification $M_a=7~15$. The initial design is based on this analysis. Telescope objective which was previously designed has focal length($(f_u')$ 21.0 em, and its clear aperture is 6.2 em. Zoom telescope has half field angle $\beta=1.5^{\circ}$ at the entrance pupil and at exit pupil it is $\beta'=1.5^{\circ}\times(7~15)=10.5^{\circ}~22.5^{\circ}$. Zoom eyepiece consists of three groups, of which each one satisfies the Seidel 3,d order aplanatization. Final design is obtained by optimization for the finite ray aberration, and the zoom eyepiece is assessed on the basis of the resolution of eyes.f eyes.

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Development of Scope with Abbe-König Prism (아베-코닉 프리즘을 이용한 스코프 개발)

  • Lee, Dong-Hee;Park, Seung-Hwan
    • Journal of Korean Ophthalmic Optics Society
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    • v.18 no.4
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    • pp.509-517
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    • 2013
  • Purpose: The purpose of this study is developing the 2.6 ${\times}$ optical scope with a Abbe-K$\ddot{o}$nig prism. Methods: First, considering the size of the effective aperture and the focal length of the objective lens, we designed an Abbe-K$\ddot{o}$nig prism. Next, we calculated the optical and geometric distances of Abbe-K$\ddot{o}$nig prism designed in this way. After allocating the focal length of the objective lens and the eyepiece lens so as to satisfy the magnification and optical effective distance of the entire system by using this calculation result, we completed the entire system by optimizing this optical system. Results: We were able to complete the optical scope of about 2.6 ${\times}$ magnification by designing an objective lens with a focal length of 63.13 mm which was composed of two pieces, an eyepiece with a focal length of 24.3 mm which was composed of four pieces, and an Abbe-K$\ddot{o}$nig prism with a face length 11.5 mm. Conclusions: We designed and fabricated an optical scope with 2.6 ${\times}$ magnification employing an Abbe-K$\ddot{o}$nig prism. Then, this system became the compacted optical system with a barrel diameter of 31 mm, characterized by an effective aperture of 12.0 mm and an effective optical barrel length of 103 mm and a resolution of 200 cycles/rad at 50% MTF criterion within the half viewing field angle of $6.42^{\circ}$.

Optimal Electron Beam Characteristics by Lenses Analysis Using Scanning Electron Microscopy (주사전자현미경 렌즈의 해석을 통한 최적의 빔 특성 연구)

  • Bae, Jinho;Kim, Dong Hwan
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.39 no.1
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    • pp.1-9
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    • 2015
  • This paper presents a design method for optimizing the focused beam characteristics, which are mainly determined by the condenser lenses in a scanning electron microscopy (SEM) design. Sharply reducing the probe diameter of electron beams by focusing the condenser lens (i.e., the rate of condensation) is important because a small probe diameter results in high-performance demagnification. This study explored design parameters that contribute to increasing the SEM resolution efficiently using lens analysis and the ray tracing method. A sensitivity analysis was conducted based on those results to compare the effects of these parameters on beam focusing. The results of this analysis on the design parameters for the beam characteristics can be employed as basic key information for designing a column in SEM.

The Auto-adhesion of Fingerprint Powders (지문 분말의 자착성(auto-adhesion)에 관한 연구)

  • Kim, Chae-Won;Cho, Hyeong-Woo;Lee, Sang-A;Song, Dong-Ha;Yu, Je-Seol
    • The Journal of the Korea Contents Association
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    • v.17 no.8
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    • pp.579-585
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    • 2017
  • Powder method is one of the most commonly used techniques for developing latent fingerprints on non-porous surfaces. While fingerprint powders become more diverse, there is no standard for the number of stroking a brush. For this reason, crime scene investigators need to stroke a brush as they try to figure out how much latent fingerprints are developed. Also, results vary from individual to individual. According to the combination of material and manufacturing, there are various results that powder particles hold together. It is called auto-adhesion which means the interaction between powder particles. This study showed auto-adhesion of 13 kinds of fingerprint powders expanding the number of stroking time. Consequently, some fingerprint powders had strong auto-adhesive property and others had weak auto-adhesion. Furthermore, the others did not change.