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Dielectric distributed Bragg reflectors (DDBRs) with SiO2/Si3N4 are grown by PECVD alternately. For the etching of DDBR, dry and wet etching methods are both used. The reflectivity of DDBR is calculated by transfer matrix method, and the high performance DDBR structure is fabricated to obtain optimal reliability, we find that the enhancement factor along the cavity axis and the integrated emission enhancement factor of RCLED with 1.5 RC DDBR are 1.058 and 1.5 respectively, a full width at half maximum is 10.5 nm by PL analysis. Then, high performance RCLEDs are fabricated by using an optimal DDBR structure. The devices with DDBR show many advantages: a lower turn-on voltage of 1.78 V, under 20 mA injection current, the output power and the luminous efficiency of the device with/without DDBR gain the improvements of 27.7% and 26.8% respectively, under 0-100 mA injection current, the output power has unconspicuous downtrend, better characteristic saturation of optical power and temperature stability.
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Keywords:
- light emitting diode /
- resonant cavity /
- dielectric distributed Bragg reflectors /
- enhanced emission intensity
[1] Li J J, Yang Z, Han J, Deng J, Zou D S, Kang Y Z, Ding L, Shen G D 2009 Acta Phys. Sin. 58 6304 (in Chinese) [李建军, 杨臻, 韩军, 邓军, 邹德恕, 康玉柱, 丁亮, 沈光地 2009 58 6304]
[2] Baets R G, Delbeke D 2003 Proc. SPIE 4996 74
[3] Lei P Yang C D 2008 Sciencedirect Solid-State Electronics 52 227
[4] Wei J Y, Huang B B, Qin X Y, Zhang X Y, Zhang K, Yao S S, Zhu B F, Li X Y 2005 J. Optoelectron. Laser 16 1304 (in Chinese) [尉吉勇, 黄柏标, 秦晓燕, 张晓阳, 张琦, 姚书山, 朱宝富, 李宪林 2005 光电子cdot激光 16 1304]
[5] Cui B F, Li J J, Zou D S, Lian P, Han J R, Wang D F, Du J Y, Liu Y, Zhao H M, Shen G D 2004 Acta Phys. Sin. 53 2150 (in Chinese) [崔碧峰, 李建军, 邹德恕, 廉鹏, 韩金茹, 王东风, 杜金玉, 刘莹, 赵慧敏, 沈光地 2004 53 2150]
[6] Xu M, Zhang Y H, Shen W Z 2007 Acta Phys. Sin. 56 2415 (in Chinese) [徐敏, 张月蘅, 沈文忠 2007 56 2415]
[7] Schubert E F,Wang Y H, Cho A Y, Tu LW, Zydzik G J 1992 Appl. Phys. Lett. 60 921
[8] Schubert E F, Hunt N E J, Micovic M, Malik R J, Sivco D L, Cho A Y, Zydzik G J 1994 Science 265 943
[9] Blondelle J, De Neve H, Borghs G, van Daele P, Demeester P, Baets R 1996 IEE Colloquium on Semiconductor Optical Microcavity Devices and Photonic Bandgaps, United Kingdam 1201
[10] Wierer J J, Kellogg D A, Holonyak N 1999 Appl. Phys. Lett. 74 926
[11] Ghawana K, Delbeke D, Christiaens I 2002 Proc. SPIE 4947
[12] Anni M, Giglia G, Patane S, Arena A, Allegrini M, Cingolani R 2002 Physica E 13 451
[13] Wang X D, Wu X M, Wang Q, Cao Y L, He G R, Tan M Q 2006 Acta Phys. Sin. 55 4983 (in Chinese) [王小东, 吴旭明, 王青, 曹玉莲, 何国荣, 谭满清 2006 55 4983]
[14] Stoffel A, Kovacs A, Kronast W 1996 J. Micromech. Microeng. 16 1
[15] Chen Y S, Gao X Y, Gu J H, Lu J X, Wang J H, Yang S E, Zhao S L, Zheng W 2008 Chin. Phys. B 17 1394
[16] Coldren L A, Thibeault B J, Hegbloom E R 1996 Appl. Phys. Lett. 68 313
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[1] Li J J, Yang Z, Han J, Deng J, Zou D S, Kang Y Z, Ding L, Shen G D 2009 Acta Phys. Sin. 58 6304 (in Chinese) [李建军, 杨臻, 韩军, 邓军, 邹德恕, 康玉柱, 丁亮, 沈光地 2009 58 6304]
[2] Baets R G, Delbeke D 2003 Proc. SPIE 4996 74
[3] Lei P Yang C D 2008 Sciencedirect Solid-State Electronics 52 227
[4] Wei J Y, Huang B B, Qin X Y, Zhang X Y, Zhang K, Yao S S, Zhu B F, Li X Y 2005 J. Optoelectron. Laser 16 1304 (in Chinese) [尉吉勇, 黄柏标, 秦晓燕, 张晓阳, 张琦, 姚书山, 朱宝富, 李宪林 2005 光电子cdot激光 16 1304]
[5] Cui B F, Li J J, Zou D S, Lian P, Han J R, Wang D F, Du J Y, Liu Y, Zhao H M, Shen G D 2004 Acta Phys. Sin. 53 2150 (in Chinese) [崔碧峰, 李建军, 邹德恕, 廉鹏, 韩金茹, 王东风, 杜金玉, 刘莹, 赵慧敏, 沈光地 2004 53 2150]
[6] Xu M, Zhang Y H, Shen W Z 2007 Acta Phys. Sin. 56 2415 (in Chinese) [徐敏, 张月蘅, 沈文忠 2007 56 2415]
[7] Schubert E F,Wang Y H, Cho A Y, Tu LW, Zydzik G J 1992 Appl. Phys. Lett. 60 921
[8] Schubert E F, Hunt N E J, Micovic M, Malik R J, Sivco D L, Cho A Y, Zydzik G J 1994 Science 265 943
[9] Blondelle J, De Neve H, Borghs G, van Daele P, Demeester P, Baets R 1996 IEE Colloquium on Semiconductor Optical Microcavity Devices and Photonic Bandgaps, United Kingdam 1201
[10] Wierer J J, Kellogg D A, Holonyak N 1999 Appl. Phys. Lett. 74 926
[11] Ghawana K, Delbeke D, Christiaens I 2002 Proc. SPIE 4947
[12] Anni M, Giglia G, Patane S, Arena A, Allegrini M, Cingolani R 2002 Physica E 13 451
[13] Wang X D, Wu X M, Wang Q, Cao Y L, He G R, Tan M Q 2006 Acta Phys. Sin. 55 4983 (in Chinese) [王小东, 吴旭明, 王青, 曹玉莲, 何国荣, 谭满清 2006 55 4983]
[14] Stoffel A, Kovacs A, Kronast W 1996 J. Micromech. Microeng. 16 1
[15] Chen Y S, Gao X Y, Gu J H, Lu J X, Wang J H, Yang S E, Zhao S L, Zheng W 2008 Chin. Phys. B 17 1394
[16] Coldren L A, Thibeault B J, Hegbloom E R 1996 Appl. Phys. Lett. 68 313
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