Single-mode temperature and polarisation-stable high-speed 850nm vertical cavity surface emitting lasers

A new intracavity-contacted design to realize temperature and polarization-stable high-speed single-mode 850 nm vertical cavity surface emitting lasers (VCSELs) grown by molecular-beam epitaxy is proposed. Temperature dependences of static and dynamic characteristics of the 4.5 pm oxide aperture InG...

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Published inJournal of physics. Conference series Vol. 572; no. 1; pp. 12036 - 6
Main Authors Nazaruk, D E, Blokhin, S A, Maleev, N A, Bobrov, M A, Kuzmenkov, A G, Vasil'ev, A P, Gladyshev, A G, Pavlov, M M, Blokhin, A A, Kulagina, M M, Vashanova, K A, Zadiranov, Yu M, Fefelov, A G, Ustinov, V M
Format Journal Article
LanguageEnglish
Published Bristol IOP Publishing 01.01.2014
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Summary:A new intracavity-contacted design to realize temperature and polarization-stable high-speed single-mode 850 nm vertical cavity surface emitting lasers (VCSELs) grown by molecular-beam epitaxy is proposed. Temperature dependences of static and dynamic characteristics of the 4.5 pm oxide aperture InGaAlAs VCSEL were investigated in detail. Due to optimal gain-cavity detuning and enhanced carrier localization in the active region the threshold current remains below 0.75 mA for the temperature range within 20-90°C, while the output power exceeds 1 mW up to 90°C. Single-mode operation with side-mode suppression ratio higher than 30 dB and orthogonal polarization suppression ratio more than 18 dB was obtained in the whole current and temperature operation range. Device demonstrates serial resistance less than 250 Ohm, which is rather low for any type of single-mode short- wavelength VCSELs. VCSEL demonstrates temperature robust high-speed operation with modulation bandwidth higher than 13 GHz in the entire temperature range of 20-90°C. Despite high resonance frequency the high-speed performance of developed VCSELs was limited by the cut-off frequency of the parasitic low pass filter created by device resistances and capacitances. The proposed design is promising for single-mode high-speed VCSEL applications in a wide spectral range.
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ISSN:1742-6588
1742-6596
DOI:10.1088/1742-6596/572/1/012036