Characterization of the properties of Mg-doped Al 0.15 Ga 0.85 N/GaN superlattices

J. K. Sheu; Cheng-Huang Kuo; C. C. Chen; G. C. Chi; M. J. Jou

doi:10.1016/S0038-1101(01)00010-7

Characterization of the properties of Mg-doped Al _0.15 Ga _0.85 N/GaN superlattices

J. K. Sheu^*, Cheng-Huang Kuo, C. C. Chen, G. C. Chi, M. J. Jou

^*此作品的通信作者

照明與能源光電研究所

研究成果: Article › 同行評審

2 引文斯高帕斯（Scopus）

摘要

Low resistivity Mg-doped Al _0.15 Ga _0.85 N/GaN strained-layer superlattices (SLs) were grown. In these SLs, the maximum hole concentration is 3 × 10 ¹⁸ cm ^-3 at room temperature, i.e., larger than those for Mg-doped Al _0.15 Ga _0.85 N and GaN bulk layers with the same Cp ₂ Mg flow rates during growth. Hall effect measurements indicate high conductivity of this structure in which the high activation efficiency is attributed to the strain-induced piezoelectric fields. In addition, photoluminescence measurements revealed a blue band at 2.9 eV in Mg-doped Al _0.15 Ga _0.85 N/GaN SLs, which could be attributed to a distant donor-to-acceptor transition feature. This work also fabricated InGaN/GaN blue light emitting diodes (LEDs) that consist of a Mg-doped Al _0.15 Ga _0.85 N/GaN SLs. Experimental results indicate that the LEDs can achieve a lower operation voltage of around 3 V, i.e., smaller than conventional devices which have an operation voltage of about 3.8 V.

原文	English
頁（從 - 到）	1665-1671
頁數	7
期刊	Solid-State Electronics
卷	45
發行號	9
DOIs	https://doi.org/10.1016/S0038-1101(01)00010-7
出版狀態	Published - 1 1月 2001

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10.1016/S0038-1101(01)00010-7

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@article{56b0c16b03534749b4746623e19fb017,

title = "Characterization of the properties of Mg-doped Al 0.15 Ga 0.85 N/GaN superlattices",

abstract = " Low resistivity Mg-doped Al 0.15 Ga 0.85 N/GaN strained-layer superlattices (SLs) were grown. In these SLs, the maximum hole concentration is 3 × 10 18 cm -3 at room temperature, i.e., larger than those for Mg-doped Al 0.15 Ga 0.85 N and GaN bulk layers with the same Cp 2 Mg flow rates during growth. Hall effect measurements indicate high conductivity of this structure in which the high activation efficiency is attributed to the strain-induced piezoelectric fields. In addition, photoluminescence measurements revealed a blue band at 2.9 eV in Mg-doped Al 0.15 Ga 0.85 N/GaN SLs, which could be attributed to a distant donor-to-acceptor transition feature. This work also fabricated InGaN/GaN blue light emitting diodes (LEDs) that consist of a Mg-doped Al 0.15 Ga 0.85 N/GaN SLs. Experimental results indicate that the LEDs can achieve a lower operation voltage of around 3 V, i.e., smaller than conventional devices which have an operation voltage of about 3.8 V.",

author = "Sheu, {J. K.} and Cheng-Huang Kuo and Chen, {C. C.} and Chi, {G. C.} and Jou, {M. J.}",

year = "2001",

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doi = "10.1016/S0038-1101(01)00010-7",

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T1 - Characterization of the properties of Mg-doped Al 0.15 Ga 0.85 N/GaN superlattices

AU - Sheu, J. K.

AU - Kuo, Cheng-Huang

AU - Chen, C. C.

AU - Chi, G. C.

AU - Jou, M. J.

PY - 2001/1/1

Y1 - 2001/1/1

N2 - Low resistivity Mg-doped Al 0.15 Ga 0.85 N/GaN strained-layer superlattices (SLs) were grown. In these SLs, the maximum hole concentration is 3 × 10 18 cm -3 at room temperature, i.e., larger than those for Mg-doped Al 0.15 Ga 0.85 N and GaN bulk layers with the same Cp 2 Mg flow rates during growth. Hall effect measurements indicate high conductivity of this structure in which the high activation efficiency is attributed to the strain-induced piezoelectric fields. In addition, photoluminescence measurements revealed a blue band at 2.9 eV in Mg-doped Al 0.15 Ga 0.85 N/GaN SLs, which could be attributed to a distant donor-to-acceptor transition feature. This work also fabricated InGaN/GaN blue light emitting diodes (LEDs) that consist of a Mg-doped Al 0.15 Ga 0.85 N/GaN SLs. Experimental results indicate that the LEDs can achieve a lower operation voltage of around 3 V, i.e., smaller than conventional devices which have an operation voltage of about 3.8 V.

AB - Low resistivity Mg-doped Al 0.15 Ga 0.85 N/GaN strained-layer superlattices (SLs) were grown. In these SLs, the maximum hole concentration is 3 × 10 18 cm -3 at room temperature, i.e., larger than those for Mg-doped Al 0.15 Ga 0.85 N and GaN bulk layers with the same Cp 2 Mg flow rates during growth. Hall effect measurements indicate high conductivity of this structure in which the high activation efficiency is attributed to the strain-induced piezoelectric fields. In addition, photoluminescence measurements revealed a blue band at 2.9 eV in Mg-doped Al 0.15 Ga 0.85 N/GaN SLs, which could be attributed to a distant donor-to-acceptor transition feature. This work also fabricated InGaN/GaN blue light emitting diodes (LEDs) that consist of a Mg-doped Al 0.15 Ga 0.85 N/GaN SLs. Experimental results indicate that the LEDs can achieve a lower operation voltage of around 3 V, i.e., smaller than conventional devices which have an operation voltage of about 3.8 V.

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SN - 0038-1101

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JO - Solid-State Electronics

JF - Solid-State Electronics

IS - 9

ER -

Characterization of the properties of Mg-doped Al 0.15 Ga 0.85 N/GaN superlattices

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Characterization of the properties of Mg-doped Al _0.15 Ga _0.85 N/GaN superlattices