E. Hall scite author profile

We demonstrate a lattice-matched 1.55 μm vertical-cavity surface-emitting laser operating continuous wave up to 88 °C. The laser employs AlAsSb-based mirrors, which provide high reflectivity and lattice matching to InP. The poor electrical and thermal conductivity of these mirrors is circumvented by utilizing an InP double-intracavity contacted structure. Benefits of the intracavity contacts are addressed by comparing the characteristics with the alternative contact scheme where current is injected through the Sb-based mirrors. Current and optical confinement is provided by an undercut aperture. The device shows a threshold current of 800 μA, a differential efficiency of 23%, and a maximum output power of over 1 mW at 20 °C.

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Epitaxially-stacked multiple-active-region 1.55μm lasers for increased differential efficiency

Kim

Hall

Sjolund

et al. 1999

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Semiconductor lasers emitting at 1.55 μm with external differential efficiencies >1 have been created by monolithically connecting several active regions in series within a single optical waveguide. This is accomplished by epitaxially stacking a number of p–i–n multiquantum well active regions with intermediate n++–p++ back diodes, which enable the entire terminal current to flow through each active region stages in series. Such lasers should also improve the impedance match as well as provide for low-noise, high-efficiency microwave links.

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1.55-μm InP-lattice-matched VCSELs with AlGaAsSb-AlAsSb DBRs

Nakagawa

Hall

Almuneau

et al. 2001

IEEE J. Select. Topics Quantum Electron.

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E. Hall

Photonic Switching for Data Center Applications

The Rainbow-II gigabit optical network

88 °C, continuous-wave operation of apertured, intracavity contacted, 1.55 μm vertical-cavity surface-emitting lasers

Epitaxially-stacked multiple-active-region 1.55μm lasers for increased differential efficiency

1.55-μm InP-lattice-matched VCSELs with AlGaAsSb-AlAsSb DBRs

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