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766 results on '"Grahn, H."'

1. Enhanced radiative efficiency in GaN nanowires grown on sputtered TiN$_{\boldsymbol{x}}$: effects of surface electric fields

Author

Auzelle, T., Azadmand, M., Flissikowski, T., Ramsteiner, M., Morgenroth, K., Stemmler, C., Fernández-Garrido, S., Sanguinetti, S., Grahn, H. T., Geelhaar, L., and Brandt, O.

Subjects
Physics - Applied Physics, Condensed Matter - Materials Science
Abstract

GaN nanowires grown by molecular beam epitaxy generally suffer from dominant nonradiative recombination, which is believed to originate from point defects. To suppress the formation of these defects, we explore the synthesis of GaN nanowires at temperatures up to 915 ${\deg}C$ enabled by the use of thermally stable TiN$_x$/Al$_2$O$_3$ substrates. These samples exhibit indeed bound exciton decay times approaching those measured for state-of-the-art bulk GaN. However, the decay time is not correlated with the growth temperature, but rather with the nanowire diameter. The inverse dependence of the decay time on diameter suggests that the nonradiative process in GaN nanowires is not controlled by the defect density, but by the field ionization of excitons in the radial electric field caused by surface band bending. We propose a unified mechanism accounting for nonradiative recombination in GaN nanowires of arbitrary diameter.

Published
2020

3. Absence of quantum-confined Stark effect in GaN quantum disks embedded in (Al,Ga)N nanowires grown by molecular beam epitaxy

Author

Sinito, C., Corfdir, P., Pfüller, C., Gao, G., Vílchez, J. Bartolomé, Kölling, S., Doblado, A. Rodil, Jahn, U., Lähnemann, J., Auzelle, T., Zettler, J. K., Flissikowski, T., Koenraad, P., Grahn, H. T., Geelhaar, L., Fernández-Garrido, S., and Brandt, O.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Physics - Applied Physics
Abstract

Several of the key issues of planar (Al,Ga)N-based deep-ultraviolet light emitting diodes could potentially be overcome by utilizing nanowire heterostructures, exhibiting high structural perfection and improved light extraction. Here, we study the spontaneous emission of GaN/(Al,Ga)N nanowire ensembles grown on Si(111) by plasma-assisted molecular beam epitaxy. The nanowires contain single GaN quantum disks embedded in long (Al,Ga)N nanowire segments essential for efficient light extraction. These quantum disks are found to exhibit intense emission at unexpectedly high energies, namely, significantly above the GaN bandgap, and almost independent of the disk thickness. An in-depth investigation of the actual structure and composition of the nanowires reveals a spontaneously formed Al gradient both along and across the nanowire, resulting in a complex core/shell structure with an Al deficient core and an Al rich shell with continuously varying Al content along the entire length of the (Al,Ga)N segment. This compositional change along the nanowire growth axis induces a polarization doping of the shell that results in a degenerate electron gas in the disk, thus screening the built-in electric fields. The high carrier density not only results in the unexpectedly high transition energies, but also in radiative lifetimes depending only weakly on temperature, leading to a comparatively high internal quantum efficiency of the GaN quantum disks up to room temperature., Comment: This document is the unedited Author's version of a Submitted Work that was subsequently accepted for publication in Nano Letters (2019), copyright (C) American Chemical Society after peer review. To access the final edited and published work see https://doi.org/10.1021/acs.nanolett.9b01521, the supporting information is available (free of charge) under the same link

Published
2019
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4. Ga-polar (In,Ga)N/GaN quantum wells vs. N-polar (In,Ga)N quantum disks in GaN nanowires: Comparative analysis of carrier recombination, diffusion, and radiative efficiency

Author

Feix, F., Flissikowski, T., Sabelfeld, K. K., Kaganer, V. M., Wölz, M., Geelhaar, L., Grahn, H. T., and Brandt, O.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We investigate the radiative and nonradiative recombination processes in planar (In,Ga)N/GaN(0001) quantum wells and (In,Ga)N quantum disks embedded in GaN$(000\bar{1})$ nanowires using photoluminescence spectroscopy under both continuous-wave and pulsed excitation. The photoluminescence intensities of these two samples quench only slightly between 10 and 300 K, which is commonly taken as evidence for high internal quantum efficiencies. However, a side-by-side comparison shows that the absolute intensity of the Ga-polar quantum wells is two orders of magnitude higher than that of the N-polar quantum disks. A similar difference is observed for the initial decay time of photoluminescence transients obtained by time-resolved measurements, indicating the presence of a highly efficient nonradiative decay channel for the quantum disks. In apparent contradiction to this conjecture, the decay of both samples is observed to slow down dramatically after the initial rapid decay. Independent of temperature, the transients approach a power law for longer decay times, reflecting that recombination occurs between individual electrons and holes with varying spatial separation. Employing a coupled system of stochastic integro-differential equations taking into account both radiative and nonradiative Shockley-Read-Hall recombination of spatially separate electrons and holes as well as their diffusion, we obtain simulated transients matching the experimentally obtained ones. The results reveal that even dominant nonradiative recombination conserves the power law decay for (In,Ga)N/GaN{0001} quantum wells and disks.

Published
2017
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5. Ethische Aspekte im Rahmen von extrakorporalen Herz-Kreislauf-Unterstützungssystemen (ECLS): Konsensuspapier der DGK, DGTHG und DGAI.

Author

Dutzmann, J., Grahn, H., Boeken, U., Jung, C., Michalsen, A., Duttge, G., Muellenbach, R., Schulze, P. C., Eckardt, L., Trummer, G., and Michels, G.

Subjects
PSYCHOLOGY of cardiac patients, CONSENSUS (Social sciences), EXTRACORPOREAL membrane oxygenation, PROFESSIONAL ethics, INTERPROFESSIONAL relations, INTENSIVE care units, LIFE support systems in critical care, INFORMED consent (Medical law), CARDIOPULMONARY resuscitation
Abstract

Copyright of Anaesthesiologie & Intensivmedizin is the property of DGAI e.V. - Deutsche Gesellschaft fur Anasthesiologie und Intensivmedizin e.V. and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2024
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6. Crystal-phase quantum dots in GaN quantum wires

Author

Corfdir, P., Hauswald, C., Marquardt, O., Flissikowski, T., Zettler, J. K., Fernández-Garrido, S., Geelhaar, L., Grahn, H. T., and Brandt, O.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We study the nature of excitons bound to I1 basal plane stacking faults in ensembles of ultrathin GaN nanowires by continuous-wave and time-resolved photoluminescence spectroscopy. These ultrathin nanowires, obtained by the thermal decomposition of spontaneously formed GaN nanowire ensembles, are tapered and have tip diameters down to 6 nm. With decreasing nanowire diameter, we observe a strong blue shift of the transition originating from the radiative decay of stacking fault-bound excitons. Moreover, the radiative lifetime of this transition in the ultrathin nanowires is independent of temperature up to 60 K and significantly longer than that of the corresponding transition in as-grown nanowires. These findings reveal a zero-dimensional character of the confined exciton state and thus demonstrate that I1 stacking faults in ultrathin nanowires act as genuine quantum dots.

Published
2016
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9. Stacking faults as quantum wells in nanowires: Density of states, oscillator strength and radiative efficiency

Author

Corfdir, P., Hauswald, C., Zettler, J. K., Flissikowski, T., Lähnemann, J., Fernández-Garrido, S., Geelhaar, L., Grahn, H. T., and Brandt, O.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We investigate the nature of excitons bound to I1 basal-plane stacking faults [(I1;X)] in GaN nanowire ensembles by continuous-wave and time-resolved photoluminescence spectroscopy. Based on the linear increase of the radiative lifetime of these excitons with temperature, they are demonstrated to exhibit a two-dimensional density of states, i. e., a basal-plane stacking fault acts as a quantum well. From the slope of the linear increase, we determine the oscillator strength of the (I1;X) and show that the value obtained reflects the presence of large internal electrostatic fields across the stacking fault. While the recombination of donor-bound and free excitons in the GaN nanowire ensemble is dominated by nonradiative phenonema already at 10 K, we observe that the (I1;X) recombines purely radiatively up to 60 K. This finding provides important insight into the nonradiative recombination processes in GaN nanowires. First, the radiative lifetime of about 6 ns measured at 60 K sets an upper limit for the surface recombination velocity of 450 cm/s considering the nanowires mean diameter of 105 nm. Second, the density of nonradiative centers responsible for the fast decay of donor-bound and free excitons cannot be higher than 2x10^16 cm^-3. As a consequence, the nonradiative decay of donor-bound excitons in these GaN nanowire ensembles has to occur indirectly via the free exciton state.

Published
2014
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10. Wave fronts, pulses and wave trains in photoexcited superlattices behaving as excitable or oscillatory media

Author

Arana, J. I., Bonilla, L. L., and Grahn, H. T.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Mathematical Physics
Abstract

Undoped and strongly photoexcited semiconductor superlattices with field-dependent recombination behave as excitable or oscillatory media with spatially discrete nonlinear convection and diffusion. Infinitely long, dc-current-biased superlattices behaving as excitable media exhibit wave fronts with increasing or decreasing profiles, whose velocities can be calculated by means of asymptotic methods. These superlattices can also support pulses of the electric field. Pulses moving downstream with the flux of electrons can be constructed from their component wave fronts, whereas pulses advancing upstream do so slowly and experience saltatory motion: they change slowly in long intervals of time separated by fast transitions during which the pulses jump to the previous superlattice period. Photoexcited superlattices can also behave as oscillatory media and exhibit wave trains., Comment: 21 pages, 12 figures

Published
2011
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11. Photo-excited semiconductor superlattices as constrained excitable media: Motion of dipole domains and current self-oscillations

Author

Arana, J. I., Bonilla, L. L., and Grahn, H. T.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

A model for charge transport in undoped, photo-excited semiconductor superlattices, which includes the dependence of the electron-hole recombination on the electric field and on the photo-excitation intensity through the field-dependent recombination coefficient, is proposed and analyzed. Under dc voltage bias and high photo-excitation intensities, there appear self-sustained oscillations of the current due to a repeated homogeneous nucleation of a number of charge dipole waves inside the superlattice. In contrast to the case of a constant recombination coefficient, nucleated dipole waves can split for a field-dependent recombination coefficient in two oppositely moving dipoles. The key for understanding these unusual properties is that these superlattices have a unique static electric-field domain. At the same time, their dynamical behavior is akin to the one of an extended excitable system: an appropriate finite disturbance of the unique stable fixed point may cause a large excursion in phase space before returning to the stable state and trigger pulses and wave trains. The voltage bias constraint causes new waves to be nucleated when old ones reach the contact., Comment: 19 pages, 8 figures, to appear in Phys. Rev. B

Published
2009
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13. Electrically tunable GHz oscillations in doped GaAs-AlAs superlattices

Author

Kastrup, J., Hey, R., Ploog, K. H., Grahn, H. T., Bonilla, L. L., Kindelan, M., Moscoso, M., and Wacker, A.

Subjects
Condensed Matter
Abstract

Tunable oscillatory modes of electric-field domains in doped semiconductor superlattices are reported. The experimental investigations demonstrate the realization of tunable, GHz frequencies in GaAs-AlAs superlattices covering the temperature region from 5 to 300 K. The orgin of the tunable oscillatory modes is determined using an analytical and a numerical modeling of the dynamics of domain formation. Three different oscillatory modes are found. Their presence depends on the actual shape of the drift velocity curve, the doping density, the boundary condition, and the length of the superlattice. For most bias regions, the self-sustained oscillations are due to the formation, motion, and recycling of the domain boundary inside the superlattice. For some biases, the strengths of the low and high field domain change periodically in time with the domain boundary being pinned within a few quantum wells. The dependency of the frequency on the coupling leads to the prediction of a new type of tunable GHz oscillator based on semiconductor superlattices., Comment: Tex file (20 pages) and 16 postscript figures

Published
1997
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14. Polarization anisotropy in GaN films for different nonpolar orientations studied by polarized photoreflectance spectroscopy

Author

Misra, P, Behn, U, Brandt, O, Grahn, H T, Imer, B, Nakamura, S, DenBaars, S P, and Speck, J S

Abstract

We use photoreflectance (PR) spectroscopy to study the electronic band structure modification of GaN films grown along different nonpolar orientations due to biaxial, anisotropic in-plane strain. The exciton transition energies of an unstrained, high-quality C-plane GaN film are used to accurately determine the crystal-field and spin-orbit splitting energies. For films with a nonpolar orientation, the resonant features observed in the PR spectra exhibit a strong in-plane polarization anisotropy and different transition energies from the ones measured in the C-plane GaN film. The deformation potential D-5 is accurately determined from four GaN films with a nonpolar orientation using the measured energies together with the polarization properties and out-of-plane strain. (c) 2006 American Institute of Physics.

Published
2006

15. Nonpolar InxGa1-xN/GaN(1(1)over-bar00) multiple quantum wells grown on gamma-LiAlO2(100) by plasma-assisted molecular-beam epitaxy

Author

Sun, Y J, Brandt, O, Cronenberg, S, Dhar, S, Grahn, H T, Ploog, K H, Waltereit, P, and Speck, J S

Abstract

M-plane In0.1Ga0.9N(1 (1) over bar 00) multiple quantum wells were grown on gamma-LiAlO2(100) by plasma-assisted molecular-beam epitaxy. The high brightness of the photoluminescence of these multiple quantum wells and the observation of band-edge emission from the barriers are consistent with the expected absence of spontaneous and piezoelectric polarization fields along the growth direction. Despite this fact, the recombination dynamics observed is rather complex and is shown to originate from the superposition of exciton relaxation towards a band of localized states and simultaneous recombination.

Published
2003

22. Enhanced Radiative Efficiency in GaN Nanowires Grown on Sputtered TiNx: Effects of Surface Electric Fields

Author

Auzelle, T, Azadmand, M, Flissikowski, T, Ramsteiner, M, Morgenroth, K, Stemmler, C, Fernandez-Garrido, S, Sanguinetti, S, Grahn, H, Geelhaar, L, Brandt, O, Auzelle T., Azadmand M., Flissikowski T., Ramsteiner M., Morgenroth K., Stemmler C., Fernandez-Garrido S., Sanguinetti S., Grahn H. T., Geelhaar L., Brandt O., Auzelle, T, Azadmand, M, Flissikowski, T, Ramsteiner, M, Morgenroth, K, Stemmler, C, Fernandez-Garrido, S, Sanguinetti, S, Grahn, H, Geelhaar, L, Brandt, O, Auzelle T., Azadmand M., Flissikowski T., Ramsteiner M., Morgenroth K., Stemmler C., Fernandez-Garrido S., Sanguinetti S., Grahn H. T., Geelhaar L., and Brandt O.

Abstract

GaN nanowires grown by molecular beam epitaxy generally suffer from dominant nonradiative recombination, which is believed to originate from point defects. To suppress the formation of these defects, we explore the synthesis of GaN nanowires at temperatures up to 915 °C enabled by the use of thermally stable TiNx/Al2O3 substrates. These samples exhibit indeed bound exciton decay times approaching those measured for state-of-the-art bulk GaN. However, the decay time is not correlated with the growth temperature, but rather with the nanowire diameter. The inverse dependence of the decay time on diameter suggests that the nonradiative process in GaN nanowires is not controlled by the defect density, but by the field ionization of excitons in the radial electric field caused by surface band bending. We propose a unified mechanism accounting for nonradiative recombination in GaN nanowires of arbitrary diameter.

Published
2021

26. Current Self-Oscillations and Chaos in Semiconductor Superlattices

Author

Grahn, H. T., Beig, R., editor, Ehlers, J., editor, Frisch, U., editor, Hepp, K., editor, Hillebrandt, W., editor, Imboden, D., editor, Jaffe, R. L., editor, Kippenhahn, R., editor, Lipowsky, R., editor, Löhneysen, H., editor, Ojima, I., editor, Weidenmüller, H. A., editor, Wess, J., editor, Zittartz, J., editor, Reguera, David, editor, Rubí, José Miguel, editor, Platero, Gloria, editor, and Bonilla, Luis López, editor

Published
2000
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31. Combining Repeated VT Ablations with Axillary Transaortic Microaxial Left Ventricular Assist Device Support to Successfully Bridge to Heart Transplantation in a Patient with Recurrent Electrical Storm - A Case Report

Author

Volgmann, C., primary, Barten, M.J., additional, Grahn, H., additional, Metzner, A., additional, Tönnis, T., additional, Kirchhof, P., additional, Kluge, S., additional, Doll, S., additional, Doll, N., additional, Reichenspurner, H., additional, and Bernhardt, A.M., additional

Published
2022
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32. Terahertz quantum-cascade lasers for high-resolution spectroscopy of sharp absorption lines.

Author

Röben, B., Lü, X., Biermann, K., Schrottke, L., and Grahn, H. T.

Subjects
QUANTUM cascade lasers, HIGH resolution spectroscopy, QUANTUM well lasers, SPECTRUM analysis, RESONATORS
Abstract

Terahertz (THz) quantum-cascade lasers (QCLs) are currently unparalleled for high-resolution spectroscopy of very sharp absorption lines (linewidths below 100 MHz) in the range between 2 and 5.4 THz. Since the frequency range accessible by a single QCL is determined by its typically very limited tuning range, a particular QCL has to be fabricated for each specific application. We quantitatively analyze the frequencies of the modes in THz QCLs with a Fabry–Pérot resonator as a function of its length taking into account waveguide dispersion. Based on these results, we develop a process based on mechanical polishing of the front facet to adjust the emission frequency with a precision of 1 GHz. The demonstrated process makes it possible to reliably fabricate THz QCLs for the spectroscopy of very sharp absorption lines. [ABSTRACT FROM AUTHOR]

Published
2019
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38. Magneto-Tunneling Between 2-Dimensional Systems

Author

Grahn, H. T., Cardona, Manuel, editor, Fulde, Peter, editor, von Klitzing, Klaus, editor, Queisser, Hans-Joachim, editor, Lotsch, Helmut K. V., editor, Bauer, Günther, editor, Kuchar, Friedemar, editor, and Heinrich, Helmut, editor

Published
1992
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40. Intraband Coherence after Energy Relaxation

Author

Wolter, F., Bartels, G., Martini, R., Haring Bolivar, P., Roskos, H. G., Hey, R., Grahn, H. T., Kurz, H., Schäfer, F. P., editor, Toennies, J. P., editor, Zinth, Wolfgang, editor, Elsaesser, Thomas, Fujimoto, James G., and Wiersma, Douwe A.

Published
1998
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41. Intrinsic frequency tuning of terahertz quantum-cascade lasers.

Author

Schrottke, L., Lü, X., Röben, B., Biermann, K., Wienold, M., Richter, H., Hübers, H.-W., and Grahn, H. T.

Subjects
TERAHERTZ technology, QUANTUM cascade lasers, REDSHIFT, COMPUTER simulation, RESONATORS, FREQUENCY tuning
Abstract

We have studied the intrinsic frequency tuning of several terahertz (THz) quantum-cascade lasers (QCLs) based on a hybrid design. With increasing driving current, most QCLs exhibit either a redshift or a blueshift, while some QCLs show both. An oscillator model describes the observed behavior. The accuracy of the model is affected by the complexity of the current-dependent gain spectra of the THz QCLs. Numerical simulations demonstrate a cavity pulling effect insofar as the tuning behavior depends on the resonator losses and on the width of the gain spectra. [ABSTRACT FROM AUTHOR]

Published
2018
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43. Energy-aware very fast decision tree

Author

García-Martín, E., Lavesson, Niklas, Grahn, H., Casalicchio, E., Boeva, V., García-Martín, E., Lavesson, Niklas, Grahn, H., Casalicchio, E., and Boeva, V.

Abstract

Recently machine learning researchers are designing algorithms that can run in embedded and mobile devices, which introduces additional constraints compared to traditional algorithm design approaches. One of these constraints is energy consumption, which directly translates to battery capacity for these devices. Streaming algorithms, such as the Very Fast Decision Tree (VFDT), are designed to run in such devices due to their high velocity and low memory requirements. However, they have not been designed with an energy efficiency focus. This paper addresses this challenge by presenting the nmin adaptation method, which reduces the energy consumption of the VFDT algorithm with only minor effects on accuracy. nmin adaptation allows the algorithm to grow faster in those branches where there is more confidence to create a split, and delays the split on the less confident branches. This removes unnecessary computations related to checking for splits but maintains similar levels of accuracy. We have conducted extensive experiments on 29 public datasets, showing that the VFDT with nmin adaptation consumes up to 31% less energy than the original VFDT, and up to 96% less energy than the CVFDT (VFDT adapted for concept drift scenarios), trading off up to 1.7 percent of accuracy.

Published
2021
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47. Representative image selection for data efficient word spotting

Author

Westphal, F., Grahn, H., Lavesson, Niklas, Westphal, F., Grahn, H., and Lavesson, Niklas

Abstract

This paper compares three different word image representations as base for label free sample selection for word spotting in historical handwritten documents. These representations are a temporal pyramid representation based on pixel counts, a graph based representation, and a pyramidal histogram of characters (PHOC) representation predicted by a PHOCNet trained on synthetic data. We show that the PHOC representation can help to reduce the amount of required training samples by up to 69% depending on the dataset, if it is learned iteratively in an active learning like fashion. While this works for larger datasets containing about 1,700 images, for smaller datasets with 100 images, we find that the temporal pyramid and the graph representation perform better.

Published
2020
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50. Correction to Absence of Quantum-Confined Stark Effect in GaN Quantum Disks Embedded in (Al,Ga)N Nanowires Grown by Molecular Beam Epitaxy

Author

Sinito, C., primary, Corfdir, P., additional, Pfüller, C., additional, Gao, G., additional, Bartolomé, J., additional, Kölling, S., additional, Doblado, A. Rodil, additional, Jahn, U., additional, Lähnemann, J., additional, Auzelle, T., additional, Zettler, J. K., additional, Flissikowski, T., additional, Koenraad, P., additional, Grahn, H. T., additional, Geelhaar, L., additional, Fernández-Garrido, S., additional, and Brandt, O., additional

Published
2020
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