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Ga0.62In0.38N0.023As0.95Sb0.027/GaN0.025As0.975 quantum wells (QWs) used in standard GaAs-based GaInNAsSb/GaNAs vertical-cavity surface-emitting diode lasers (VCSELs) exhibit at room temperature (RT) the highest optical gain for the 1422 nm wavelength. Its RT continuous-wave threshold current for the 5 m device is as low as only 0.68 mA. An increase in the QW active region temperature by about 100 K has been found to be followed by a shift of the gain spectrum of the above QW to the 1500 nm range. Therefore, a comprehensive computer simulation has been used to verify a possibility to highly detune GaAs-based GaInNAsSb/GaNAs VCSELs from the wavelength of 1422 nm to 1500 nm, closer to the wavelength used in the third generation of the fibre optical communication. Such a temperatureenhanced RT CW lasing operation of the 1500 nm VCSEL, with an active region identical to that of the 1422 nm one and the cavity properly re-designed for the 1500 nm wavelength, has been found to be reached at the threshold current as many as 17 times higher than that of the 1422 nm VCSEL.
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Tom
Strony
459--467
Opis fizyczny
Bibliogr. 12 poz.
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autor
autor
- Laboratory of Computer Physics, Institute of Physics, Technical University of Łódź, ul. Wólczańska 219, 93-005 Łódź, Poland
Bibliografia
- [1] KONDOW M., UOMI K., NIWA A., KITATANI T., WATAHIKI S., YAZAWA Y., Jpn. J. Appl. Phys., 35 (1996), 1273.
- [2] HA W., GAMBIN V., WISTEY M., BANK S., YUEN H., KIM S., HARRIS J.S., Electron. Lett., 38 (2002), 277.
- [3] WISTEY M.A., Growth of 1.5 μm vertical cavity surface emitting lasers by molecular beam epitaxy, Doctoral Thesis, Stanford University (2005).
- [4] VOLZ K., GAMBIN V., HA W., WISTEY M.A., YUEN H., BANK S., HARRIS J.S., J. Cryst. Growth, 251 (2003), 360.
- [5] SARZAŁA R.P., NAKWASKI W., J. Phys.: Condens. Matter, 16 (2004), S3121.
- [6] SARZAŁA R.P., MENDLA P., WASIAK M., MAĆKOWIAK P., BUGAJSKI M., NAKWASKI W., Opt. Quant. Electron., 36 (2004), 331.
- [7] SARZAŁA R.P., IEEE J. Quant. Electron., 40 (2004), 629.
- [8] SARZAŁA R.P., Semicond. Sci. Tech., 19 (2004), 1122.
- [9] SARZAŁA R.P., Diode Lasers for 2nd Generation of Fibre Optical Communication: Physical Simulation of an Operation and Optimization of Selected Laser Structure, DSc Dissertation, Technical University of Łódź, Łódź, 2004
- [10] OSIŃSKI M., NAKWASKI W., Chapter 5 [in:] Vertical-Cavity Surface-Emitting Laser Devices, Berlin, Springer, 2003, p. 135.
- [11] WENZEL H.AND WÜNSCHE H.-J., IEEE J. Quant. Electron., 33 (1997), 1156.
- [12] GODDARD L.L., BANK S.R., WISTEY M.A., YUEN H.B., EAO Z.L., HARRIS J.S., J. Appl. Phys., 97 (2005), 83101.
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Bibliografia
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bwmeta1.element.baztech-article-BPW7-0007-0165