• 제목/요약/키워드: ATOM technique

검색결과 71건 처리시간 0.033초

A Brief Comment on Atom Probe Tomography Applications

  • Seol, Jae-Bok;Kim, Young-Tae;Park, Chan-Gyung
    • Applied Microscopy
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    • 제46권3호
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    • pp.127-133
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    • 2016
  • Atom probe tomography is a time-of-flight mass spectrometry-based microanalysis technique based on the field evaporation of surface atoms of a tip-shaped specimen under an extremely high surface electric field. It enables three-dimensional characterization for deeper understanding of chemical nature in conductive materials at nanometer/atomic level, because of its high depth and spatial resolutions and ppm-level sensitivity. Indeed, the technique has been widely used to investigate the elemental partitioning in the complex microstructures, the segregation of solute atoms to the boundaries, interfaces, and dislocations as well as following of the evolution of precipitation staring from the early stage of cluster formation to the final stage of the equilibrium precipitates. The current review article aims at giving a comment to first atom probe users regarding the limitation of the techniques, providing a brief perspective on how we correctly interprets atom probe data for targeted applications.

단원자 포획을 위한 원자분수 (Atomic Fountain towards a single atom trap)

  • H. S. Rawat;S. H. Kwon;Kim, J. B.;K. An
    • 한국광학회:학술대회논문집
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    • 한국광학회 2000년도 하계학술발표회
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    • pp.74-75
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    • 2000
  • The past few decades have witnessed the development of very robust technique, known as magneto-optical trap(MOT), for cooling and trapping of neutral atoms using lasers and magnetic fields. This technique can easily produce cooled atoms to a temperature range of nano-kelvin $s^{(1)}$ . These laser cooled and trapped atoms have found applications in various fields, such as ultrahigh resolution spectroscopy, precision atomic clocks, very cold atomic collision physics, Bose-Einstein Condensation, the Atom laser, etc. Particularly, a few isolated atoms of very low temperature are needed in the cavity QED studies in the optical regime. One can obtain such atoms from a MOT using the atomic fountain technique. The widely used technique for atomic fountain is, first to cool and trap the neutral atoms in MOT. And then launch them in the vertical (1, 1, 1) direction with respect to cooling beams, using moving molasses technique. Recently, this technique combined with the cavity-QED has opened an active area of basic research. This way atoms can be strongly coupled to the optical radiation in the cavity and leads to various new effects. Trapping of single atom after separating it from MOT in the high Q-optical cavity is actively initiated presentl $y^{(2.3)}$. This will help to sharpen our understanding of atom-photon interaction at quantum level and may lead to the development of single-atom laser. Our efforts to develop an $^{85}$ Rb-atomic fountain is in progress. (omitted)

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Atom Probe Tomography: A Characterization Method for Three-dimensional Elemental Mapping at the Atomic Scale

  • Choi, Pyuck-Pa;Povstugar, Ivan
    • 한국분말재료학회지
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    • 제19권1호
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    • pp.67-71
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    • 2012
  • The present paper gives an overview about the Atom Probe Tomography technique and its application to powder materials. The preparation of needle-shaped Atom Probe specimens from a single powder particle using focused-ion-beam milling is described. Selected experimental data on mechanically alloyed (and sintered) powder materials are presented, giving insight into the atomic-scale elemental redistribution occurring under powder metallurgical processing.

A Brief Overview of Atom Probe Tomography Research

  • Gault, Baptiste
    • Applied Microscopy
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    • 제46권3호
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    • pp.117-126
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    • 2016
  • Atom probe tomography (APT) has been fast rising in prominence over the past decade as a key tool for nanoscale analytical characterization of a range of materials systems. APT provides three-dimensional mapping of the atom distribution in a small volume of solid material. The technique has evolved, with the incorporation of laser pulsing capabilities, and, combined with progress in specimen preparation, APT is now able to analyse a very range of materials, beyond metals and alloys that used to be its core applications. The present article aims to provide an overview of the technique, providing a brief historical perspective, discussing recent progress leading to the state-of-the-art, some perspectives on its evolution, with targeted examples of applications.

Focused Ion Beam-Based Specimen Preparation for Atom Probe Tomography

  • Lee, Ji Yeong;Ahn, Jae-Pyoung
    • Applied Microscopy
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    • 제46권1호
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    • pp.14-19
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    • 2016
  • Currently, focused ion beams (FIB) are widely used for specimen preparation in atom probe tomography (APT), which is a three-dimensional and atomic-scale compositional analysis tool. Specimen preparation, in which a specific region of interest is identified and a sharp needle shape created, is the first step towards successful APT analysis. The FIB technique is a powerful tool for site-specific specimen preparation because it provides a lift-out technique and a controllable manipulation function. In this paper, we demonstrate a general procedure containing the crucial points of FIB-based specimen preparation. We introduce aluminum holders with moveable pin and an axial rotation manipulator for specimen handling, which are useful for flipping and rotating the specimen to present the backside and the perpendicular direction. We also describe specimen preparation methods for nanowires and nanopowders, using a pick-up method and an embedding method by epoxy resin, respectively.

Simulation of Atom Focusing for Nanostructure Fabrication

  • Lee, Chang-Jae
    • Bulletin of the Korean Chemical Society
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    • 제24권5호
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    • pp.600-604
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    • 2003
  • The light pressure force from an optical standing wave (SW) can focus an atomic beam to submicrometer dimensions. To make the best of this technique it is necessary to find a set of optimal experimental parameters. In this paper we consider theoretically the chromium atoms focusing and demonstrate that the focusing performance depends not only on the strength of but also on the time atoms take to traverse the force field. The general conclusions drawn can easily be applied to other atoms. To analyze the problem we numerically integrate a coupled time-dependent $Schr{\"{o}}dinger$ equation over a wide range of experimental parameters. It is found that an optimal atomic beam speed-laser intensity pair does exist, which could give substantially improved focusing over the one with the experimental parameters given in the literature. It is also shown that the widely used classical particle optics approach can lead to erroneous predictions.

ATOM technique: Anatomic reduction using screw-wire Traction for Open reduction and internal fixation of Mandibular fractures

  • Ingole, Pranav D.;Rajguru, Jignesh G.;Budhraja, Nilima J.;Shenoi, Ramakrishna S.;Karmarkar, Jui S.;Dahake, Rahul N.
    • Journal of the Korean Association of Oral and Maxillofacial Surgeons
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    • 제48권2호
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    • pp.122-124
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    • 2022
  • Various techniques are well documented to obtain anatomic reduction, such as reduction forceps, manual reduction, or a combination of these methods. However, these techniques have inherent drawbacks. We propose a new intra-operative technique for anatomic reduction using screw-wire traction for open reduction and internal fixation of mandibular fractures.

Atom Probe Tomography를 이용한 나노 스케일의 조성분석: II. 전자소자 및 나노재료에서의 응용 (Nano Scale Compositional Analysis by Atom Probe Tomography: II. Applications on Electronic Devices and Nano Materials)

  • 정우영;방찬우;장동현;구길호;박찬경
    • Applied Microscopy
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    • 제41권2호
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    • pp.89-98
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    • 2011
  • Atom Probe Tomography는 원자 수준의 분해능으로 원소의 위치 및 조성 정보를 3차원으로 제공해 주는 분석 장비이다. APT의 우수한 성능에도 불구하고 반도체 등, 저전도성 물질 분석에는 그 동안 적용이 어려웠다. 그러나 특정 시료 내 위치의 시편을 가공할 수 있는 FIB 시편 제조법과 laser펄스를 이용한 전계증발법의 개발로 APT의 분석 영역이 반도체에서 절연체까지 크게 확대 되고 있다. 본 논문에서는 최근에 적용되기 시작한 MOS-FET, GaN LED, Si-Nanowire 등 전자소자에서의 APT분석 응용사례에 대하여 살펴보았다.

Atom Probe Tomography를 이용한 나노 스케일의 조성분석: I. 이론과 설비 (Nano Scale Compositional Analysis by Atom Probe Tomography: I. Fundamental Principles and Instruments)

  • 정우영;방찬우;구길호;박찬경
    • Applied Microscopy
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    • 제41권2호
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    • pp.81-88
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    • 2011
  • 최근 나노 영역에서의 구조분석과 조성분석의 중요성이 증대되고 있으나, 기존의 분석장비들은 한계에 부딪히고 있다. 최근 개발된 APT는 nm 이하의 공간분해능과 수십 ppm수준의 detection limit으로 원소의 3차원분포와 조성정보를 제공해 주는 분석장비로서, 이러한 기존 분석의 한계를 극복할 수 있는 새로운 분석장비이다. 그러나 국내에는 아직 잘 알려지지 않아 활용이 미비한 실정이다. 따라서, 본 논문에서는 APT에 대한 이해를 돕기 위해 APT분석의 원리와 시편준비에 대해 소개하였다.

3차원 원자 침 분석기 (3-DAPT)와 이차이온 질량분석기 (SIMS)을 이용한 보론 첨가 강의 미세구조와 보론의 원자 단위 분석 (3-D Atom Probe Tomography and Secondary ion Mass Spectroscopy techniques for the microstructure and atomic scale investigation on the state of Boron in Steels)

  • 설재복;강주석;양요셉;박찬경
    • 한국소성가공학회:학술대회논문집
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    • 한국소성가공학회 2008년도 추계학술대회 논문집
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    • pp.91-94
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    • 2008
  • Newly developed Atom Probe Tomography (APT) technique can provide the highest available spatial resolution, 3D tomography imaging and quantitative chemical analysis in a sub-nm scale. As a complementary technique to APT, Nano-secondary ion Mass Spectroscopy (SIMS) also provides the boron distribution in micro-scale. Therefore, the exact behavior of boron at either grain boundary or grain interior in steels can be investigated by the combination of APT and SIMS techniques from the sub-nanometer scale to the micrometer scale. The results obtained by both APT and SIMS revealed that the boron atoms were mainly segregated to the grain boundaries rather than to the grain interior in the steels containing 50ppm and 100ppm boron. It also found that carbon atoms were segregated at the boron enriched regions, which were thought to be retained austenite phase due to the chemical composition of carbon atoms.

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