V. Kümmler scite author profile

V. Kümmler

5Publications

122Citation Statements Received

19Citation Statements Given

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OSRAM (Germany)

Publications

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Optical gain, carrier-induced phase shift, and linewidth enhancement factor in InGaN quantum well lasers

Schwarz

Sturm

Wegscheider

et al. 2003

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Articles you may be interested inAnalysis of linewidth enhancement factor for quantum well structures based on InGaAsN/GaAs material system Energy-band structure and optical gain in strained InAs(N)/GaSb/InAs(N) quantum well lasers.Excitonic signature in gain and carrier induced change of refractive index spectra of ( In , Al ) GaN quantum well lasers Appl.Comparison of the carrier induced refractive index, gain, and linewidth enhancement factor in quantum dot and quantum well lasers Adapting the Hakki Paoli method to group III nitrides, we measure gain, differential gain, carrier-induced change of refractive index, carrier-induced phase shift, and the antiguiding factor. Our measurements also cover the low-carrier-density regime, in which spontaneous and piezoelectric fields and Coulomb interaction are only partially screened. This regime is most interesting as a comparison with existing theoretical simulations, including many-body effects.

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Facet degradation of GaN heterostructure laser diodes

Schoedl

Schwarz

Kümmler

et al. 2005

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We investigated the degradation of cleaved facets of (Al,In)GaN laser diodes in different atmospheres. We found that operation in water-free atmospheres with sufficient oxygen shows a slow degradation. Operation in atmospheres with water vapor causes a fast degradation and an oxidation on the facet. This deposition is a permanent damage to the laser diode. If the laser diode is operated in pure nitrogen, we find a thick deposition on the facet, which shows high absorption. This deposition can be removed by either high optical output powers or by operation in atmospheres with sufficient oxygen. We also explain the influence of these coatings to the degradation behavior and see these coatings as the reason for unstable kinks in the L–I characteristics during operation.

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Gain spectra and current-induced change of refractice index in (In/Al)GaN diode lasers

Schwarz

Sturm

Wegscheider

et al. 2003

phys. stat. sol. (a)

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Adapting the Hakki–Paoli method for blue laser diodes we measure gain spectra for (In/Al)GaN on SiC substrate laser diodes in the low carrier density regime. From the measured longitudinal mode spacing we calculate the effective refractive index and can exclude a mode spacing ‘anomaly’. We demonstrate that the substrate has a considerable influence on the modal gain. (© 2003 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)

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True-blue InGaN laser for pico size projectors

Strauβ

Brüninghoff

Schillgalies

et al. 2008

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Gradual facet degradation of (Al,In)GaN quantum well lasers

Kümmler

Lell

Härle

et al. 2004

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In our study, III-nitride laser diodes with uncoated facets obtained by cleavage show a much faster degradation than coated ones. An increase in threshold current and drop of slope efficiency suggest increased absorption losses. Degradation experiments in different atmospheres prove the influence of the respective atmosphere and indicate the growth of an oxide film leading to increased absorption. Because the observed degradation is insensitive to the photon density we suggest nonradiative centers, which are saturated at low photon densities, to be at the origin of degradation. No evidence for photon enhanced degradation of coated laser diodes was found. A dielectric coating efficiently protects the facets.

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V. Kümmler

Optical gain, carrier-induced phase shift, and linewidth enhancement factor in InGaN quantum well lasers

Facet degradation of GaN heterostructure laser diodes

Gain spectra and current-induced change of refractice index in (In/Al)GaN diode lasers

True-blue InGaN laser for pico size projectors

Gradual facet degradation of (Al,In)GaN quantum well lasers

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