S. Juen scite author profile

We studied the lifetimes of photoexcited carriers in H+ bombarded InP for different damage doses by means of femtosecond luminescence spectroscopy. The lifetime decreases down to 95 fs for a dose of 1×1016 cm−2. To our knowledge this is the shortest decay time for spontaneous light emission ever observed. The luminescence spectrum of the most damaged sample is inverted, indicating nonthermalized carrier distributions.

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Electron-hole scattering in highly doped p-GaAs after femtosecond optical excitation

Rodrigues

Juen

Lamprecht

et al. 1994

Semicond. Sci. Technol.

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The ultrafast relaxation of minority electrons in highly doped p-GaAs (p = 1.0 x 10'9~m-3) has been investigated through femtosecond time-resolved luminescence. For low excitation densities the hole plasma temperature stays at 300 K and the transient luminescence spectra reveal the rapid cooling of the minority electrons within the first picoseconds. The electron-hole energy transfer is much larger (up to IO-'W) than the known electron-Lo phonon scattering rate, which allows the quantitative determination of the electron-hole energy transfer.

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Visusergebnisse bei diabetischer Makulopathie nach zentraler Photokoagulation

Kieselbach

Juen²

1989

Ophthalmologica

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Diabetic macular edema is shown to be treated successfully by central focal argon laser coagulation in most cases. Since February 1986, diabetic patients with macular edema were evaluated prospectively and treated by focal argon laser coagulation and/or grid pattern. A second group of diabetic patients with comparable macular edema and similar retinal changes was explored retrospectively. Visual acuity after treatment in relation to preoperative visual acuity was measured and statistically compared with visual acuity of the second group without laser treatment. The results show that laser treatment is important for stabilization of visual acuity but does not increase visual acuity beneath 0.2. Indications for treatment are discussed.

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Microcavity effects in the photoluminescence of GaAs microcrystals

Juen

Überbacher

Baldauf

et al. 1993

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S. Juen

Electrophysiological Changes in Juvenile Diabetics Without Retinopathy

Ultrashort carrier lifetimes in H+ bombarded InP

Electron-hole scattering in highly doped p-GaAs after femtosecond optical excitation

Visusergebnisse bei diabetischer Makulopathie nach zentraler Photokoagulation

Microcavity effects in the photoluminescence of GaAs microcrystals

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