Four-channel monolithically integrated index-coupled distributed-feedback laser array has been fabricated using nanoimprint technology for 1.3 μm CWDM system.Selective lasing wavelength with 20 nm wavelength space is obtained.The present results show that the nanoimprint technology is mature and reliable in the fabrication of DFB laser array.
参考文献
| [1] | Darja J;Chan M J;Sugiyama M.Four channel DFB laser array with integrated combiner for 1.55 μm CWDM systems by MOVPE selective area[J].IEICE ELECTRONICS EXPRESS,20063(02):522. |
| [2] | Hou L P;Haji M;Akbar J.AlGaInAs/InP monolithically integrated DFB laser array[J].IEEE Journal of Quantum Electronics,201248(02):137. |
| [3] | Ma L;Zhu H L;Liang S.Four distributed feedback laser array integrated with multimode-interference and semiconductor optical amplifier[J].Chin Phys B,201322(05):054211. |
| [4] | Shen D X;Gu W Y;Xu D X.Analysis of distributed phase shift in distributed feedback semiconductor lasers[J].Chinese Physics Letters,199916(10):721. |
| [5] | Hatakeyama H;Kudo K;Yokoyama Y.Wavelengthselectable microarray light sources for wide-band DWDM applications[J].IEEE Journal of Selected Topics in Quantum Electronics,20028(06):1341. |
| [6] | Li G P;Makio T;Sarangan A.16-wavelength gain-coupled DFB laser array with fine tunability[J].IEEE Photonics Technology Letters,19968(01):22. |
| [7] | Kudo K;Morimoto T;Yashiki K.Wavelength-selectable microarray light sources of multiple ranges simultaneously fabricated on single wafer[J].Electronics Letters,200036(08):745. |
| [8] | Li J;Wang H;Chen X.Experimental demonstration of distributed feedback semiconductor lasers based on reconstruction equivalent chirp technology[J].Opt Erpress,200917(07):5240. |
| [9] | Li J S;Chen X F;Zhou N.Monolithically integrated 30-wavelength DFB laser array[J].Proc SPIE,20097631:763104. |
| [10] | Wang C L;Wu J;Lin J T.Single mode rate equations for two sections self-pulsating DFB laser[J].Chin Phys B,200312(05):528. |
| [11] | Xie H Y;Wang L;Zhao L J.Optical microwave generation using two parallel DFB lasers integrated with Y-branch waveguide coupler[J].Chin Phys B,200716(05):1459. |
| [12] | Chou S Y;Krauss P R;Renstrom P J.Imprint of sub-25 nrn vias and trenches in polymers[J].Applied Physics Letters,199567(21):3114. |
| [13] | Viheriala J;Viljanen M R;Kontio J.Soft stamp ultraviolet nanoimprint lithography for fabrication of laser diodes[J].Proc SPIE,20097271:72711O. |
| [14] | Xia Q;Keimel C;Ge H.Ultrafast patterning of nanostructures in polymers using laser assisted nanoimprint lithography[J].Applied Physics Letters,200383(21):4117. |
| [15] | Chang A S P;Tan H;Bai S.Tunable external cavity laser with a liquid-crystal subwavelength resonant grating filter as wavelength-selective mirror[J].IEEE Photonics Technology Letters,200719(14):1099. |
| [16] | Peng J;Xu Z M;Wu X F.A study of LED with surface photonic crystal structure fabricated by the nanoimprint lithography[J].Acta Phys Sin,201362(03):036104. |
| [17] | Akiba S;Usami M;Utaka K.1.5-μm λ/4-shifted InGaAsP/InP DFB lasers[J].IEEE Journal of Lightwave Technology,19875(11):1564. |
| [18] | Coldren L A;Corzine S W.Diode lasers and photonic integrated circuits[M].New York:John Wiley & Sons,1995 |
| [19] | Ghafouri Shiraz H.Distributed feedback laser diodes and optical tunable filters[M].New York:John Wiley & Sons,2003 |
| [20] | Yee H H;Hsu H T;Chang J Y.New self-consistent method for determining the coupling coefficient and the grating losses of DBR lasers using MATLAB[J].Proc SPIE,20014216:103. |
| [21] | Hou J;Chen X F;Wang L X.A method of adjusting wavelengths of distributed feedback laser arrays by injection current tuning[J].IEEE Photonics J,20124(06):2189. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%