Liang-Yu Hsia scite author profile

Liang-Yu Hsia

2Publications

7Citation Statements Received

12Citation Statements Given

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National Chung Hsing University, GlobalFoundries (Singapore)

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π-Extended Coumarins Derived with Nonhydrolyzable Iminophosphoranes as Two-Photon-Excited Fluorophores

et al. 2020

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Novel coumarin–iminophosphorane (IPP) fluorophores that have stable resonance contributions from aza-ylides were formed by using the nonhydrolysis Staudinger reaction. The NP formation reaction kinetics obey the conventional Staudinger reaction. The absorption and emission profiles of the coumarin–IPP derivatives can be fine-tuned: an electron-donating group at PPh3 enhances absorption and fluorescence, whereas an electron-withdrawing group at C-3 drives absorption and emission peaks toward blue-light wavelengths. Two-photon adsorption, accompanied by anti-Stokes fluorescence, is achieved under near-infrared femtosecond laser excitation.

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Tester-Driven Dynamic Laser Stimulation for Hard Functional Failure

Goh

Chan

Zheng

et al. 2010

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Dynamic Laser Stimulation (DLS) fault isolation techniques involve using an Automated Test Equipment (ATE) to run the device under certain test patterns together and a scanning laser beam to localize sites sensitive to laser stimulation. Such techniques are proven effective for localizing soft failures. In this paper, we demonstrate the feasibility of using such dynamic techniques for functional hard failures and design debug applications. We illustrate experimentally the significance of achieving sufficient signal to noise ratio (SNR) before such applications can be realized effectively, due to the large irregular noise that couples through as the functional pattern is run. We adopted a combination of hardware noise reduction and test program modification to overcome this challenge.

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Liang-Yu Hsia

π-Extended Coumarins Derived with Nonhydrolyzable Iminophosphoranes as Two-Photon-Excited Fluorophores

Tester-Driven Dynamic Laser Stimulation for Hard Functional Failure

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