Cheng-Huan Chen scite author profile

We report the demonstration of the continuous wave laser action on GaN-based vertical cavity surface emitting lasers at room temperature. The laser structure consists of a ten-pair Ta2O5/SiO2 distributed Bragg reflector (DBR), a 7λ-thick optical cavity, ten-pairs InGaN/GaN multiquantum wells with an AlGaN electron blocking layer, and a 29-pair AlN/GaN DBR. The laser has a threshold current of about 9.7 mA corresponding to the current density of about 12.4 kA/cm2 and a turn-on voltage about 4.3 V at 300 K. The lasing wavelength was 412 nm with a linewidth of about 0.5 nm. A spontaneous emission coupling efficiency factor of about 5×10−3 and the degree of polarization of about 55% were measured, respectively. The laser beam has a narrow divergence angle of about 8°.

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Patterned structure of REMOTE PHOSPHOR for phosphor-converted white LEDs

Kuo¹,

et al. 2011

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High efficiency white light-emitting diodes with superior color-mixing have been investigated. It is suggested that the patterned remote phosphor structure could improve the uniformity of angular-dependent correlated color temperature (CCT) and achieve high chromatic stability in wider operating current range, as compared to the conventional remote phosphor coating structure. In this experiment, we employed a pulse spray coating method to place the patterned phosphor on the package and to leave a window region. The window area, a clear space without coating of the phosphor not only increases the extraction efficiency of blue rays at large angle, but also improves the stability of angular-dependent CCT. Moreover, the CCT deviation could be reduced from 1320 K to 266 K by this patterned remote phosphor method, and the stray blue/yellow light within the package can be effectively reduced and controlled. The design was verified both experimentally and theoretically.

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Employing intergroup competition in multitouch design-based learning to foster student engagement, learning achievement, and creativity

Chen

Chiu

2016

Computers & Education

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Collaboration Scripts for Enhancing Metacognitive Self-regulation and Mathematics Literacy

Chen

Chiu

2015

Int J of Sci and Math Educ

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Exploring the Effectiveness and Moderators of Augmented Reality on Science Learning: a Meta-analysis

et al. 2022

J Sci Educ Technol

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Improved carrier injection in GaN-based VCSEL via AlGaN/GaN multiple quantum barrier electron blocking layer

Hsieh¹,

Tzou²,

Kao³

et al. 2015

Opt. Express

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In this report, the improved lasing performance of the III-nitride based vertical-cavity surface-emitting laser (VCSEL) has been demonstrated by replacing the bulk AlGaN electron blocking layer (EBL) in the conventional VCSEL structure with an AlGaN/GaN multiple quantum barrier (MQB) EBL. The output power can be enhanced up to three times from 0.3 mW to 0.9 mW. In addition, the threshold current density of the fabricated device with the MQB-EBL was reduced from 12 kA/cm2 (9.5 mA) to 10.6 kA/cm2 (8.5 mA) compared with the use of the bulk AlGaN EBL. Theoretical calculation results suggest that the improved carrier injection efficiency can be mainly attributed to the partial release of the strain and the effect of quantum interference by using the MQB structure, hence increasing the effective barrier height of the conduction band.

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Liquid crystal panel for high efficiency barrier type autostereoscopic three-dimensional displays

et al. 2009

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An autostereoscopic display with parallax barrier attached onto a liquid crystal panel suffers from the trade-off between brightness and crosstalk. One approach for making improvement by modifying the layout of light blocking components, such as thin film transistor, storage capacitor, and protrusion, in the liquid crystal pixel has been proposed. Ray tracing simulation shows that the aperture of the slanted barrier can be significantly increased, hence increasing efficiency, while keeping the same crosstalk level if those light blocking components can be shifted to the corner of the pixel. A six-view 2.83 in. (7.19 cm) prototype has shown improvement on both brightness and crosstalk compared to its counterpart using a traditional liquid crystal panel, which demonstrates an effective approach for a high-efficiency barrier-type autostereoscopic 3D display with a liquid crystal panel.

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Cheng-Huan Chen

Revisiting the effects of project-based learning on students’ academic achievement: A meta-analysis investigating moderators

Continuous wave operation of current injected GaN vertical cavity surface emitting lasers at room temperature

Patterned structure of REMOTE PHOSPHOR for phosphor-converted white LEDs

Employing intergroup competition in multitouch design-based learning to foster student engagement, learning achievement, and creativity

Collaboration Scripts for Enhancing Metacognitive Self-regulation and Mathematics Literacy

Exploring the Effectiveness and Moderators of Augmented Reality on Science Learning: a Meta-analysis

Improved carrier injection in GaN-based VCSEL via AlGaN/GaN multiple quantum barrier electron blocking layer

Liquid crystal panel for high efficiency barrier type autostereoscopic three-dimensional displays

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