Woei-Yun Ho scite author profile

Woei-Yun Ho

4Publications

79Citation Statements Received

98Citation Statements Given

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Affiliations

Chinese University of Hong Kong, The University of Texas at Austin, University of Hong Kong

Publications

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Observation of intervalley quantum interference in epitaxial monolayer tungsten diselenide

Liu

Chen

et al. 2015

Nat Commun

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The extraordinary electronic structures of monolayer transition metal dichalcogenides, such as the spin–valley-coupled band edges, have sparked great interest for potential spintronic and valleytronic applications based on these two-dimensional materials. In this work, we report the experimental observation of quasi-particle interference patterns in monolayer WSe2 using low-temperature scanning tunnelling spectroscopy. We observe intervalley quantum interference involving the Q valleys in the conduction band due to spin-conserving scattering processes, while spin-flipping intervalley scattering is absent. Our results establish unequivocally the presence of spin–valley coupling and affirm the large spin splitting at the Q valleys. Importantly, the inefficient spin-flipping scattering implies long valley and spin lifetime in monolayer WSe2, which is a key figure of merit for valley-spintronic applications.

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Nonequilibrium behavior and defect diffusion in laser heating of semiconductors

Chun

Walser

et al. 1993

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Transient laser-induced surface deformation of silicon in relation to damage

Chun

Walser

et al. 1993

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Transient thermal expansion, heat generation and conduction, and nonlinear laser heating of single crystal Si wafers below and above the damage onset has been investigated via a laser pump-probe configuration. The Transient Photothermal Deflection (TPD) technique that we employed consisted of a 10 ns Nd YAG pump source at 1064 nm with 10 Hz repetition rate. A cw HeNe probe beam was used to probe the localized time dependent slope change ofilluniinated surface. The deflection of the reflected probe beam, centered at the maximum slope of the irradiated spot, was detected by a fast bicell photodiode. The deformation signals were recorded by a digital camera system in conjunction with a high-speed oscilloscope. The waveforms were later analyzed for surface angular deflection and vertical displacement based on the geometry of the Gaussian irradiation profile. Vertical displacement down to a few nm could be detected and converted into instantaneous peak surface temperature by a first-order, approximate thermal modeL Measured displacement and surface temperature were then compared to computer simulations at different fluence levels. They were found to be in excellent agreement to each other. In addition, single and multiple shot experiments were performed to obtained their respective damage onsets and thresholds. Measurement of peak surface deformation at subthreshold fluences gives insight into the thermomechanical processes which may play an important role in multi-pulse damage.

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Surface effect on laser-induced damage in thin metal films

Ho¹,

Leung²,

Fung³

et al. 1976

Thin Solid Films

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Woei-Yun Ho

Observation of intervalley quantum interference in epitaxial monolayer tungsten diselenide

Nonequilibrium behavior and defect diffusion in laser heating of semiconductors

Transient laser-induced surface deformation of silicon in relation to damage

Surface effect on laser-induced damage in thin metal films

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