Quantum well and quantum dot lasers: From strained-layer and self-organized epitaxy to high-performance devices |
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| Authors: | Bhattacharya Pallab |
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| Institution: | (1) Solid State Electronics Laboratory, Department of Electrical Engineering and Computer Science, University of Michigan, Ann Arbor, MI 48109-2122, USA |
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| Abstract: | Strained heterostructures are now widely used to realize high-performance lasers. Highly mismatched epitaxy also produces defect-free quantum dots via an island growth mode. The characteristics of high-speed strained quantum well and quantum dot lasers are described. It is seen that substantial improvements in small-signal modulation bandwidth are obtained in both 1  m (48 GHz) and 1.55 m (26 GHz) by tunneling electrons directly into the lasing sub-band. In quantum dots the small-signal modulation bandwidth is limited by electron-hole scattering to  7 GHz at room temperature and 23 GHz at 80 K. The properties of these devices are described. |
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| Keywords: | electron-hole scattering hot-carrier effects performance quantum dot laser quantum well laser tunneling injection |
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