Your search keyword '"Kushimoto, Maki"' showing total 8 results

1. Impact of unintentionally formed compositionally graded layer on carrier injection efficiency in AlGaN-based deep-ultraviolet laser diodes.

Author

Zhang, Ziyi, Yoshikawa, Akira, Kushimoto, Maki, Aoto, Koji, Sasaoka, Chiaki, and Amano, Hiroshi

Subjects

DEBYE temperatures, SEMICONDUCTOR lasers, ACTIVE medium

Abstract

Increasing the injection efficiency, a critical factor constraining the reduction in threshold current in AlGaN-based deep-ultraviolet laser diodes, represents one of the paramount remaining technical challenges. In this study, the impact of compositionally graded layers that were unintentionally formed at the interface between the p-cladding and the core layer on carrier injection efficiency was analyzed. Experimental evaluations using laser diodes have shown that the elimination of an unintentionally formed layer increases the injection efficiency above the threshold current, from the conventional 3% to 13%. It has been postulated that the electron overflow toward the p-side exerts a substantial deleterious effect on the injection efficiency. An improvement in this aspect is achieved by increasing the electron-blocking capability due to the improved interface abruptness between the p-cladding layer and the core layer. The lasing threshold was strongly reduced, and characteristic temperature increased from 76 to 107 K for the improved devices. [ABSTRACT FROM AUTHOR]

Published

2024

2. Using low-temperature growth to resolve the composition pulling effect of UV-C LEDs.

Author

Yoshikawa, Akira, Zhang, Ziyi, Kushimoto, Maki, Aoto, Koji, Sasaoka, Chiaki, and Amano, Hiroshi

Subjects

LIGHT emitting diodes, LOW temperatures

Abstract

One approach to improving the output power of ultraviolet (UV-C) light-emitting diodes (LEDs) is to adopt an electron-blocking layer (EBL) with a high barrier. However, the intended effect may not be realized because of the composition pulling effect, which is the unintended occurrence of a gradient layer at an AlGaN/AlGaN hetero-interface with substantial differences in the Al composition. Here, we demonstrate that low-temperature growth (i.e., <1000 °C) can be used to control the unintentional gradient layer at an AlN/AlGaN hetero-interface between a barrier layer and AlN-EBL with a difference in Al compositions of more than 30%. LEDs with an emission wavelength of 265 nm were fabricated, and an AlN-EBL was grown at low temperature to realize an abrupt interface. At an applied current of 100 mA, growing the EBL under low-temperature conditions improved the forward voltage by 0.5 V and remarkably improved the peak luminous intensity by 1.4–1.6 times. Our results can be used to realize UV-C LEDs with a steep EBL and further improve their device characteristics. [ABSTRACT FROM AUTHOR]

Published

2023

3. Local stress control to suppress dislocation generation for pseudomorphically grown AlGaN UV-C laser diodes.

Author

Kushimoto, Maki, Zhang, Ziyi, Yoshikawa, Akira, Aoto, Koji, Honda, Yoshio, Sasaoka, Chiaki, Schowalter, Leo J., and Amano, Hiroshi

Subjects

*SHEARING force, *STRESS concentration, *OPTOELECTRONIC devices, *EPITAXIAL layers, *RESIDUAL stresses, *SEMICONDUCTOR lasers, *STRIPES

Abstract

Previously reported UV-C laser diode (LD) structures have been subject to design constraints owing to dark line defects at the edge of the mesa stripe after device fabrication. To address this issue, a detailed analysis revealed that the dark line defects were dislocations generated by local residual shear stresses associated with mesa formation on highly strained epitaxial layers. A technique for controlling the local concentration of shear stress using a sloped mesa geometry was proposed based on insight gained by modeling the stress distribution at the edge of the mesa stripe. Experimental results showed that this technique succeeded in completely suppressing the emergence of dark-line defects. This technique will be useful in improving the performance of pseudomorphic AlGaN/AlN-based optoelectronic devices, including UV-C LDs. [ABSTRACT FROM AUTHOR]

Published

2022

4. Key temperature-dependent characteristics of AlGaN-based UV-C laser diode and demonstration of room-temperature continuous-wave lasing.

Author

Zhang, Ziyi, Kushimoto, Maki, Yoshikawa, Akira, Aoto, Koji, Sasaoka, Chiaki, Schowalter, Leo J., and Amano, Hiroshi

Subjects

*QUANTUM cascade lasers, *THRESHOLD voltage, *SEMICONDUCTOR lasers, *HIGH voltages

Abstract

Although the pulsed operation of AlGaN-based laser diodes at UV-C wavelengths has been confirmed in the previous studies, continuous oscillation without cooling is difficult because of the high operating voltage. In this study, the temperature dependence of key parameters was investigated and their impact on achieving continuous-wave lasing was discussed. A reduction in the threshold voltage was achieved by tapering the sides of the laser diode mesa and reducing the lateral distance between the n- and p-electrodes. As a result, continuous-wave lasing at room temperature was demonstrated at a threshold current density of 4.2 kA / cm 2 and a threshold voltage of 8.7 V. [ABSTRACT FROM AUTHOR]

Published

2022

5. Space charge profile study of AlGaN-based p-type distributed polarization doped claddings without impurity doping for UV-C laser diodes.

Author

Zhang, Ziyi, Kushimoto, Maki, Horita, Masahiro, Sugiyama, Naoharu, Schowalter, Leo J., Sasaoka, Chiaki, and Amano, Hiroshi

Subjects

*SPACE charge, *FORECASTING, *SEMICONDUCTOR lasers

Abstract

The space charge density profile of the nondoped AlGaN-based p-type cladding layer for UV-C laser diodes realized by distributed polarization doping is examined theoretically and experimentally. The analysis of the capacitance-voltage measurement revealed that the average effective acceptor density of 4.2 × 1017 cm–3 is achieved even without impurity doping, and it is in good agreement with the theoretical prediction from the measured Al composition profile. This result suggests that the cladding layer is ideal for UV-C LDs because it provides sufficient hole injection while potentially avoiding internal losses due to impurity doping. [ABSTRACT FROM AUTHOR]

Published

2020

6. On-wafer fabrication of etched-mirror UV-C laser diodes with the ALD-deposited DBR.

Author

Sakai, Tadayoshi, Kushimoto, Maki, Zhang, Ziyi, Sugiyama, Naoharu, Schowalter, Leo J., Honda, Yoshio, Sasaoka, Chiaki, and Amano, Hiroshi

Subjects

*DISTRIBUTED Bragg reflectors, *ATOMIC layer deposition, *PLASMA etching, *SEMICONDUCTOR lasers, *MIRRORS, *OPTOELECTRONICS

Abstract

We have demonstrated an on-wafer fabrication process for AlGaN-based UV-C laser diodes (LDs) with etched mirrors and have achieved lasing for 100 ns pulsed current injection at room temperature. A combined process of dry and wet etching was employed to achieve smooth and vertical AlGaN (1 1 ¯ 00) facets. These etched facets were then uniformly coated with a distributed Bragg reflector by atomic layer deposition. A remarkable reduction of the lasing threshold current density to 19.6 kA / cm 2 was obtained owing to the high reflectivity of the etched and coated mirror facets. The entire laser diode fabrication process was carried out on a whole 2-in. wafer. We propose this mirror fabrication process as a viable low-cost AlGaN-based UV-C LD production method that is also compatible with highly integrated optoelectronics based on AlN substrates. [ABSTRACT FROM AUTHOR]

Published

2020

7. V-shaped dislocations in a GaN epitaxial layer on GaN substrate.

Author

Tanaka, Atsushi, Nagamatsu, Kentaro, Usami, Shigeyoshi, Kushimoto, Maki, Deki, Manato, Nitta, Shugo, Honda, Yoshio, Bockowski, Michal, and Amano, Hiroshi

Subjects

EPITAXIAL layers, DISLOCATIONS in crystals, GALLIUM nitride films, HAMBURGERS

Abstract

In this study, V-shaped dislocations in a GaN epitaxial layer on a free-standing GaN substrate were observed. Our investigation further revealed that the V-shaped dislocations were newly generated at the interface in the epilayer rather than propagated from the GaN substrate. V-shaped dislocations consist of two straight parts. The straight parts of the V-shaped dislocations were separated from each other in the m-direction and tilted toward the step-flow direction of the GaN epitaxial layer. The V-shaped dislocations are continuous single dislocations having a Burgers vector component of 1a and an intrinsic stacking fault between their straight parts. [ABSTRACT FROM AUTHOR]

Published

2019

8. Correlation between dislocations and leakage current of p-n diodes on a free-standing GaN substrate.

Author

Usami, Shigeyoshi, Ando, Yuto, Tanaka, Atsushi, Nagamatsu, Kentaro, Deki, Manato, Kushimoto, Maki, Nitta, Shugo, Honda, Yoshio, Amano, Hiroshi, Sugawara, Yoshihiro, Yao, Yong-Zhao, and Ishikawa, Yukari

Subjects

LIGHT emitting diodes, CATHODOLUMINESCENCE, TRANSMISSION electron microscopy, ELECTRIC potential, GALLIUM nitride

Abstract

Dislocations that cause a reverse leakage current in vertical p-n diodes on a GaN free-standing substrate were investigated. Under a high reverse bias, dot-like leakage spots were observed using an emission microscope. Subsequent cathodoluminescence (CL) observations revealed that the leakage spots coincided with part of the CL dark spots, indicating that some types of dislocation cause reverse leakage. When etch pits were formed on the dislocations by KOH etching, three sizes of etch pits were obtained (large, medium, and small). Among these etch pits, only the medium pits coincided with leakage spots. Additionally, transmission electron microscopy observations revealed that pure screw dislocations are present under the leakage spots. The results revealed that 1c pure screw dislocations are related to the reverse leakage in vertical p-n diodes. [ABSTRACT FROM AUTHOR]

Published

2018