Title :
Temperature-Dependent Impedance Characteristics of Temperature-Stable High-Speed 980-nm VCSELs
Author :
Hui Li ; Lott, James A. ; Wolf, Philip ; Moser, Philip ; Larisch, Gunter ; Bimberg, Dieter
Author_Institution :
Center for Nanophotonics, Tech. Univ. of Berlin, Berlin, Germany
Abstract :
The temperature dependence of the impedance characteristics of high bit rate, highly temperature-stable 980-nm oxide-aperture vertical-cavity surface-emitting lasers (VCSELs) is investigated. A small-signal equivalent circuit model is fitted to measured small-signal reflection S11 and S21 scattering parameters across a large range of operating bias currents, temperatures, and oxide-aperture diameters to extract the circuit elements, -3 dB modulation bandwidth, relaxation resonance frequency, and parasitic cutoff frequency for each particular operating condition. The parasitic cutoff frequency of our small oxide-aperture diameter VCSELs is highly temperature insensitive from room temperature up to 85 °C, and does not limit our VCSELs´ maximum data transmission rate. Finally, the dependence of the impedance characteristics and modulation bandwidth of our VCSELs on the oxide-aperture diameter is analyzed at 25 °C and 85 °C. The larger capacitance is the main reason of our larger aperture VCSELs, compared with smaller aperture VCSELs, have a lower parasitic cutoff frequency.
Keywords :
capacitance; data communication; electric impedance; laser variables measurement; optical interconnections; optical modulation; surface emitting lasers; VCSEL maximum data transmission rate; capacitance; modulation bandwidth; parasitic cutoff frequency; relaxation resonance frequency; small-signal equivalent circuit model; small-signal reflection parameter measurement; small-signal scattering parameter measurement; temperature 25 degC; temperature 293 K to 298 K; temperature 85 degC; temperature-dependent impedance characteristics; temperature-stable oxide-aperture vertical-cavity surface-emitting lasers; wavelength 980 nm; Capacitance; Cutoff frequency; Frequency measurement; Impedance; Resistance; Temperature measurement; Vertical cavity surface emitting lasers; Vertical-cavity surface-emitting lasers; data communications; optical interconnects; semiconductor lasers; vertical-cavity surface-emitting lasers;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2015.2393863
