Chol-Man Ri scite author profile

Chol-Man Ri

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22Citation Statements Received

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Immediate estimation of feedback factor and linewidth enhancement factor from measured self-mixing signals under moderate or strong regime

Ri¹,

Kim²,

Oh³

et al. 2020

Meas. Sci. Technol.

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The estimation of self-mixing interferometry (SMI) parameters such as optical feedback factor C and linewidth enhancement factor α is essential to self-mixing (SM) displacement sensors with sub-wavelength resolution. We propose a new method, which is a very simple and fast method to estimate C and α when C > 1 based on an analysis of self-mixing signals (SMSs) in a laser diode. The proposed method is extremely simple, because it takes advantage of analytic relations which enable one to obtain C and α from the simple algebraic operations of the data from SMSs. The simplicity of the method is a great help to developing a compact and low-cost self-mixing (SM) displacement sensor with sub-wavelength resolution which cannot ensure complex operation such as optimization. And the proposed method is highly effective in developing real-time and fast algorithm for the C estimation. This method is applicable when the sensor operates under a moderate or strong feedback regime. The estimation accuracy of C and α are comparable to the results of Yu et al 2004 IEEE Photon. Technol. Lett. 16 990-2; Zabit 2010 PhD Thesis Toulouse; and Fan 2011 MS Thesis University of Wollongong, respectively, and the estimation time of the C parameter is over 30 times faster than Zabit and Fan.

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The first Brillouin zone of the hexagonal close-packed structure and study on the properties of vacancies and phonon dispersions by the improved ones of the modified analytic embedded atom method potentials for Ru, Sc, Ti, Y, and Zr

Jon¹,

Jin²,

Ri³

et al. 2019

Philosophical Magazine

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Chol-Man Ri

Immediate estimation of feedback factor and linewidth enhancement factor from measured self-mixing signals under moderate or strong regime

The first Brillouin zone of the hexagonal close-packed structure and study on the properties of vacancies and phonon dispersions by the improved ones of the modified analytic embedded atom method potentials for Ru, Sc, Ti, Y, and Zr

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