Yung-Chin Yeh scite author profile

Yung-Chin Yeh

4Publications

38Citation Statements Received

48Citation Statements Given

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Affiliations

National Tsing Hua University, Industrial Technology Research Institute, Missouri University of Science and Technology

Publications

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Bright single photons for light-matter interaction

Yeh

et al. 2017

Phys. Rev. A

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Single photons of subnatural linewidth and high spectral brightness are necessary for efficient lightmatter interaction at the single photon level, which lies at the heart of many quantum photonic technologies. Here we demonstrate a bright source of single photons with subnatural linewidth, controllable waveforms, and a high spectral brightness of 3.67 × 10 5 s −1 mW −1 MHz −1 . The interaction between the single photons and atoms is demonstrated by the controlled absorption of the single photons in an atomic vapor. Our work has potential applications in quantum information technologies.

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Preparation of solar selective absorbing coatings by magnetron sputtering from a single stainless steel target

et al. 2010

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Plasma polymerization by magnetron glow discharge. III. Effect of magnetic field on sputtering characteristics of electrode materials

Cho

Yeh

Yasuda

1989

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The sputtering of metal in a magnetron glow discharge polymerization reactor system is investigated as a function of magnetic field. A pair of planar electrodes with circular arrangement of permanent magnets is used with a 10-kHz electric power source. The sputtering of metal from the electrode is investigated for argon (nonpolymer-forming gas) and methane (polymer-forming gas) plasmas. In the case of the argon plasma, the sputtering rate is measured by the rate of deposition of metal upon the surface of quartz crystal. In the case of the methane plasma, the sputtering rate is estimated from the polymer deposition rate and the metal content in the deposited polymer determined by electron spectroscopy for chemical analysis (ESCA). In both cases, no appreciable deposition of metal (Cu or Al used as the electrode) is observed if the maximum parallel component of the magnetic field (with respect to the electric field) is <100 G. The sputtering rate by argon plasma is much greater than methane plasma, and the rate increases with the magnetic field strength of a magnetron. The sputtering rate in a methane plasma is related to the deposition of polymer on the electrode surfaces.

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Ultrabright Single Photon Source with Subnatural Linewidth

Yeh

et al. 2017

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Yung-Chin Yeh

Bright single photons for light-matter interaction

Preparation of solar selective absorbing coatings by magnetron sputtering from a single stainless steel target

Plasma polymerization by magnetron glow discharge. III. Effect of magnetic field on sputtering characteristics of electrode materials

Ultrabright Single Photon Source with Subnatural Linewidth

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