C. H. Lee scite author profile

C. H. Lee

3Publications

6Citation Statements Received

31Citation Statements Given

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Affiliations

Korea Atomic Energy Research Institute

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Quantitative phase analysis of strongly textured alloy mixtures using neutron diffraction

et al. 2002

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Based on the Rietveld profile refinement of neutron diffraction patterns and a new texture analysis method, a quantitative phase analysis (QPA) method is proposed and examined in the case of artificially produced multiphase alloys having strong textures. The preferred‐orientation factors (POFs) of the diffraction peaks were extracted from the inverse pole figure calculated from the orientation distribution function (ODF) that was computed from the averaged pole figures measured by the rotating sample stage, providing a faster and simpler texture measurement. The reliability of this method was examined using binary alloy mixtures of known fractions of zirconium and aluminium. In addition, the fraction of unknown phases in an artificially produced aluminium matrix composite was determined by introducing a standard zirconium sample. QPA of the binary mixtures successfully predicted the weight fraction of each component with an absolute error of less than 0.3 wt%. This method also provided appropriate results on the calculation of the weight fraction of unknown phases in the aluminium matrix composite.

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In-situ compact³He neutron spin polarizer based on a magneto-static cavity with built-in NMR coils

Lee

Moon

Kim

et al. 2016

J. Phys.: Conf. Ser.

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Abstract. A polarized3 He neutron polarizer for in-situ neutron beam line operation was developed based on a compact magneto-static cavity with a dimension of 280×270×300 mm 3 and a fiber-coupled VBG (Volume Bragg Grating) diode laser with a narrow spectral bandwidth of 25 GHz. Built-in NMR coils of the neutron spin polarizer designed for NMR signal measurements were described in detail and their performances were tested for monitoring the progress of in-situ 3 He polarization.

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Incorporation of a New Spectral History Correction Method into Local Power Reconstruction for Nodal Methods

Lee

Kim

Song

et al. 1996

Nuclear Science and Engineering

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C. H. Lee

Quantitative phase analysis of strongly textured alloy mixtures using neutron diffraction

In-situ compact³He neutron spin polarizer based on a magneto-static cavity with built-in NMR coils

Incorporation of a New Spectral History Correction Method into Local Power Reconstruction for Nodal Methods

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C. H. Lee

Quantitative phase analysis of strongly textured alloy mixtures using neutron diffraction

In-situ compact3He neutron spin polarizer based on a magneto-static cavity with built-in NMR coils

Incorporation of a New Spectral History Correction Method into Local Power Reconstruction for Nodal Methods

Contact Info

Product

Resources

About

In-situ compact³He neutron spin polarizer based on a magneto-static cavity with built-in NMR coils