N. Finger scite author profile

We report on the realization of second-order distributed feedback quantum-cascade lasers at λ=9.35 μm, where the active region consists of GaAs, AlGaAs, and strained InGaAs grown on GaAs. A metal-stripe surface grating structure allows a high surface emission efficiency for the TM-polarized light. The emitted power via the surface is in the range of 100 mW and exceeds the emitted power from one facet. A double-lobed surface-emission far-field pattern is obtained for the lasing mode. The single-mode emission wavelength is continuously tunable by the heat sink temperature.

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Optimization of the emission characteristics of light emitting diodes by surface plasmons and surface waveguide modes

Gianordoli

Hainberger

Köck

et al. 2000

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In this letter, the influence of metal films and dielectric waveguides on the radiation characteristics of light emitting diodes (LEDs) is investigated. Cross and hexagonal surface grating structures are used to excite surface plasmons and waveguide modes in these media. A beam divergence as small as 17° is achieved for a hexagonal grating coated with a 40 nm Ag film. The maximum quantum efficiency is found for a hexagonal grating with a 10-nm-thick Au film and a 250-nm-thick dielectric layer. The optical power emitted by this LED into the solid angle from −30° to 30° is 10% higher than that of an LED without metal film and dielectric layer.

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Finite element simulation of bulk- and surface acoustic wave (SAW) interaction in SAW devices

Hofer

Finger²,

Kovacs³

et al.

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N. Finger

Finite-element simulation of wave propagation in periodic piezoelectric SAW structures

Analysis of TM-polarized DFB laser structures with metal surface gratings

Surface-emitting distributed feedback quantum-cascade lasers

Optimization of the emission characteristics of light emitting diodes by surface plasmons and surface waveguide modes

Finite element simulation of bulk- and surface acoustic wave (SAW) interaction in SAW devices

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