K. Hisham, H. (2016). Design Methodology for Reducing RIN Level in DFB Lasers. Alustath, 12(2), 207-213. doi: 10.33762/eeej.2016.118379
Hisham K. Hisham. "Design Methodology for Reducing RIN Level in DFB Lasers". Alustath, 12, 2, 2016, 207-213. doi: 10.33762/eeej.2016.118379
K. Hisham, H. (2016). 'Design Methodology for Reducing RIN Level in DFB Lasers', Alustath, 12(2), pp. 207-213. doi: 10.33762/eeej.2016.118379
K. Hisham, H. Design Methodology for Reducing RIN Level in DFB Lasers. Alustath, 2016; 12(2): 207-213. doi: 10.33762/eeej.2016.118379

Design Methodology for Reducing RIN Level in DFB Lasers

Iraqi Journal for Electrical And Electronic Engineering
Article 1, Volume 12, Issue 2, December 2016, Pages 207-213    PDF (0 K)
DOI: 10.33762/eeej.2016.118379
Author
Hisham K. Hisham
Abstract
The relative intensity noise (RIN) characteristics in distributed feedback (DFB) lasers are analyzed theoretically by proposing a new methodology. In addition to temperature variation (T), the effect of other model parameters such as injection current (Iinj), active layer volume (V), spontaneous emission (βsp) and gain compression (ε) factors on RIN characteristics is investigated. The numerical simulations shows, the peak RIN level can be reduced to around –150 dB/Hz, while relaxation oscillation frequency (ROF) is shifted towards 5.6 GHz. In addition, the RIN level is increased with temperature by the rate of 0.2 dB/ºC and ROF is reduced by the rate of 0.018 GHz/ºC. Results show, the low RIN level can be obtained by selecting model parameters reasonably
Keywords
Distributed feedback; relative intensity noise; semiconductor diode lasers
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