Study on the effects of carrier transport and parasitic parameters on the modulation response of tunnel regenerated vertical-cavity surface-emitting lasers with double active regions

Wang Tong-Xi; Guan Bao-Lu; Guo Xia; Shen Guang-Di

doi:10.7498/aps.58.1694

Abstract
A rate equation model of multi-quantum wells and multi-active regions were presented. The effects of photon density and the carrier capture-escape-tunnel time on the frequency response of single active region vertical-cavity surface-emitting Laser （VCSEL） and tunnel-regenerated VCSEL with two active regions were simulated by the small signal analysis. The result of simulation shows that the modulate bandwidth of tunnel-regenerated VCSEL with two active regions is larger than that with single active region under the same drive current, then its causes are discussed. Moreover, we simulate the frequency response of the parasitic circuit of tunnel-regenerated internal-contact oxide-confined VCSEL with two active regions after analyzing its parasitic parameters.

Keywords:
vertical-cavity surface-emitting laser /

rate equations /

modulation response /

tunnel regenerated
Authors and contacts
Wang Tong-Xi,

Guan Bao-Lu,

Guo Xia,

Shen Guang-Di

1.
北京工业大学,北京市光电子技术实验室,北京 100124
References

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Vol. 58, Issue 3 - 2009-02-05

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Study on the effects of carrier transport and parasitic parameters on the modulation response of tunnel regenerated vertical-cavity surface-emitting lasers with double active regions

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Study on the effects of carrier transport and parasitic parameters on the modulation response of tunnel regenerated vertical-cavity surface-emitting lasers with double active regions

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