Optical gain improvement in type-II InGaN/GaNSb/GaN quantum well structures composed of InGaN/and GaNSb layers

Park, Seoung-Hwan; Ahn, Doyeol; Koo, Bun-Hei; Oh, Jae-Eung

doi:10.1063/1.3300840

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Research Article| February 02 2010

Optical gain improvement in type-II InGaN/GaNSb/GaN quantum well structures composed of InGaN/and GaNSb layers

Seoung-Hwan Park;

Seoung-Hwan Park ^a)

1Department of Electronics Engineering,

Catholic University of Daegu

, Hayang, Kyeongsan, Kyeongbuk 712-702,

Republic of Korea

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Doyeol Ahn;

Doyeol Ahn

2Department of Electrical and Computer Engineering,

University of Seoul

, Seoul 130-743,

Republic of Korea

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Bun-Hei Koo;

Bun-Hei Koo

3

Wooree LST Corporation

, Ansan-shi, Kyungki-do 425-833,

Republic of Korea

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Jae-Eung Oh

Jae-Eung Oh ^b)

4Department of Electrical and Computer Engineering,

Hanyang University

, 1271 Sa1-dong, Sangnok-ku, Ansan, Kyungki-do 425-791,

Republic of Korea

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Author & Article Information

Seoung-Hwan Park ^1,a)

,

Doyeol Ahn ²

,

Bun-Hei Koo ³

,

Jae-Eung Oh ^4,b)

1Department of Electronics Engineering,

Catholic University of Daegu

, Hayang, Kyeongsan, Kyeongbuk 712-702,

Republic of Korea

2Department of Electrical and Computer Engineering,

University of Seoul

, Seoul 130-743,

Republic of Korea

3

Wooree LST Corporation

, Ansan-shi, Kyungki-do 425-833,

Republic of Korea

4Department of Electrical and Computer Engineering,

Hanyang University

, 1271 Sa1-dong, Sangnok-ku, Ansan, Kyungki-do 425-791,

Republic of Korea

^a)

Electronic mail: [email protected]. FAX: +82-53-850-2704.

^b)

Also at Wooree LST Corporation, Ansan-shi, Kyungki-do 425-833, Korea.

Appl. Phys. Lett. 96, 051106 (2010)

https://doi.org/10.1063/1.3300840

Optical gain characteristics of type-II InGaN/GaNSb quantum well (QW) structure are investigated by using the multiband effective mass theory. These results are compared with those of conventional InGaN/GaN QW structures. The transition wavelength rapidly increases with increasing the Sb composition in GaNSb layer while it is less sensitive to the In composition in InGaN layer. Hence, longer wavelength QW structures with a relatively lower In composition can be easily obtained by controlling Sb composition, compared to the conventional type-I InGaN/GaN QW structures. The optical gain and the differential gain $(d g / d n)$ of a type-II QW structure are shown to be much larger than that of a conventional QW structure in an investigated range of carrier densities. This is due to the reduction in the effective well width, in addition to the increase in the optical matrix element.

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Optical gain improvement in type-II InGaN/GaNSb/GaN quantum well structures composed of InGaN/and GaNSb layers