Your search keyword '"injected current"' showing total 20 results

1. Enhancement of traveling wave semiconductor optical amplifier approach for DWDM communication system

Author

Ahmed A. Amer, Ahmed Abdulelah, Alaa A. Mashkor, and Adnan Sabbar

Subjects

Control and Optimization, Computer Networks and Communications, Hardware and Architecture, Injected current, Signal Processing, DWDM, Q-factor, Data rate, TW-SOA, Electrical and Electronic Engineering, Information Systems

Abstract

In this study, the high performance of dense wavelength division multiplexing (DWDM) by using a traveling wave semiconductor optical amplifier (TW-SOA) at a channel spacing of 100 GHz is investigated, in terms of (Q-factor, injected current, transmitted power, gain). The Optisystem software is employed to send the different range of input power over the different ranges of the TW-SOA injected current with optimized TW-SOA parameters. The data rate of trans- mission optical signal up to 300 Gb/s at -35 dB input signal power have been investigated. The better results have been measured of the information signal with high quality and gain, when the range of input power is corresponding to the optimized range of injected current for the signal to be transmitted effec- tively. The present communication also supports various numbers of users with the same data rate of 5 Gb/s which is used to check the high quality of the signal in the receiver.

Published

2022

2. Prediction of the dynamic contact resistance of circuit breaker based on the kernel partial least squares.

Author

Liu, Yakui, Zhang, Guogang, Qin, Hao, Geng, Yingsan, Wang, Jianhua, Yang, Jinggang, and Zhao, Ke

Abstract

In order to diagnose the ablation characteristics of circuit breakers, the dynamic contact resistance measurement (DRM) has been proposed for almost 20 years. The dynamic resistance curves are easily influenced by two factors: injected current and opening velocity. The two factors are greatly affected the curves and may led a wrong diagnosis in DRM tests. Through analysis of the influence factors, an experimental model is used to simulate the opening process of the breaker in this study. The effective contact area of contact finger which is used in the experimental model under different velocities and current are measured by using the laser scanning microscope. The measurement proves that the changing of effective contact area plays determinative roles in the influencing of injected current and opening velocity. Then, the kernel partial least squares regression method is used to establish the model formula between influencing parameters and the dynamic contact resistance to realise the prediction of the dynamic contact resistance curves. Furthermore, the prediction model also can be used in other current carrying dry sliding friction conditions. [ABSTRACT FROM AUTHOR]

Published

2018

3. The Mathematical Model of Contact Resistance and Injected Current in DRM Tests of SF6 Circuit Breaker.

Author

Liu, Yakui, Zhang, Guogang, Yang, Jinggang, Zhao, Ke, and Gao, Shan

Subjects

*CONTACT resistance (Materials science), *ELECTRIC resistance, *MATHEMATICAL models, *HIGH voltages, *ELECTRICAL resistivity

Abstract

Dynamic contact resistance measurement (DRM) has been widely used in evaluating the contact condition of circuit breakers from 20 years ago. With the increasing of the injected current, the contact resistance is lower than it was. It is considered that the contact hardness, contact force, and specific resistivity are affected by the injected current. SF6 circuit breaker with self-elastic contact is studied in this paper because of its widely used in high-voltage power system. First, the parameters of the dynamic curves are discussed, and the contact resistance in arcing contact part is concerned because of its susceptibility. Second, the mathematical model of contact force is discussed and calculated, and the change of contact force under a different injected current can be ignored. Finally, the mathematical model of contact resistance and injected current is established, when the breaker contact speed is stable. The mathematical model is proven effective by DRM tests. [ABSTRACT FROM AUTHOR]

Published

2018

4. Boosting Polarization Switching-Induced Current Injection by Mechanical Force in Ferroelectric Thin Films

Author

David Edwards, Brian J. Rodriguez, Fengyuan Zhang, Yudong Zhu, Zhen Fan, Xingsen Gao, Deyang Chen, Amit Kumar, Xiong Deng, Bing Han, and Hua Fan

Subjects

injected current, Materials science, Orders of magnitude (temperature), 02 engineering and technology, mechanical force, 03 medical and health sciences, Materials Science(all), General Materials Science, Polarization (electrochemistry), 030304 developmental biology, BiFeO, FeRAM, 0303 health sciences, business.industry, Displacement current, Conductive atomic force microscopy, 021001 nanoscience & nanotechnology, Ferroelectricity, BiFeO3, Ferroelectric RAM, ferroelectric, Optoelectronics, Current (fluid), 0210 nano-technology, business, Order of magnitude, Research Article

Abstract

When scaling the lateral size of a ferroelectric random access memory (FeRAM) device down to the nanometer range, the polarization switching-induced displacement current becomes small and challenging to detect, which greatly limits the storage density of FeRAM. Here, we report the observation of significantly enhanced injection currents, much larger than typical switching currents, induced by polarization switching in BiFeO3 thin films via conductive atomic force microscopy. Interestingly, this injected current can be effectively modulated by applying mechanical force. As the loading force increases from ∼50 to ∼750 nN, the magnitude of the injected current increases and the critical voltage to trigger the current injection decreases. Notably, changing the loading force by an order of magnitude increases the peak current by 2-3 orders of magnitude. The mechanically boosted injected current could be useful for the development of high-density FeRAM devices. The mechanical modulation of the injected current may be attributed to the mechanical force-induced changes in the barrier height and interfacial layer width.

Published

2021

5. Loss allocation in radial distribution networks with different load models and distributed generations.

Author

Jagtap, Kushal Manoharrao and Khatod, Dheeraj Kumar

Abstract

Under deregulation and competitive environment, equitable allocation of losses with increasing loads and participation of new generations is a challenging task. This study proposes a solution to loss allocation problem for radial distribution network with various load models and distributed generation (DG). The location, rating and time evolution of the loads and DGs connected to the network are considered in this problem. It traces not only real but also reactive power to identify the actual contribution of loads and DGs into the total network losses. It develops a direct relation between injected current/power of consumers/DGs and network losses. To allocate the fair losses, the proposed method assigns the cross‐terms by employing the geometric scheme of allocation. To show the effectiveness of the proposed method, it has been tested on 33‐node radial network. To validate the proposed method, it has been compared with other methods. [ABSTRACT FROM AUTHOR]

Published

2015

6. New Grid-Connected Multilevel Boost Converter Topology with Inherent Capacitors Voltage Balancing Using Model Predictive Controller

Author

Shalchi Alishah, Rasoul, Bertilsson, Kent, Blaabjerg, F., Sathik, M. A. J., Rezaee, Ali, Shalchi Alishah, Rasoul, Bertilsson, Kent, Blaabjerg, F., Sathik, M. A. J., and Rezaee, Ali

Abstract

This paper presents a new grid-connected multilevel boost converter topology. The proposed multilevel boost converter includes several switched-capacitor units along with a developed H-bridge. The capability of voltage boosting, inherent voltage balancing of capacitors, reduction of power electronic elements, and voltage on switches are the merits of proposed topology compared to other topologies. All required mathematical analysis related to the suggested topology is presented. The proposed topology is verified by experimental results for grid-connected applications using model predictive controller.

Published

2020

7. Optical Gain, Phase, and Refractive Index Dynamics in Photonic Crystal Quantum-Dot Semiconductor Optical Amplifiers.

Author

Taleb, Hussein and Abedi, Kambiz

Subjects

*REFRACTIVE index, *PHOTONIC crystals, *QUANTUM dots, *SEMICONDUCTORS, *OPTICAL amplifiers

Abstract

In this paper, the gain, phase, and refractive index dynamics of photonic crystal quantum-dot semiconductor optical amplifiers (PC-QDSOAs) are investigated for the first time. For this purpose, we establish a comprehensive nonlinear state space model with 1088 state variables to simulate the carrier dynamics of the inhomogeneously broadened InAs/GaAs QD active region embedded in a flat-band slow-light photonic crystal waveguide. The gain and phase recovery responses are monitored during the amplification of an ultrashort pump pulse. Simulation results show that changes in refractive index in the PC-QDSOA active region are much stronger than the index changes in the conventional QDSOAs. In addition, the gain and phase recovery time in PC-QDSOAs are similar to those in the conventional QDSOAs based on ridge waveguide structures. Also, we found that the injected current and the consumed power in PC-QDSOAs can be two orders of magnitude less than those values in the conventional QDSOAs. [ABSTRACT FROM AUTHOR]

Published

2014

8. Gradient Trigger Mechanisms Related to Bistability Regimes in a Leech Heartbeat Model.

Author

Guan, Y., Liu, Sh., and Zeng, Y.

Subjects

*LEECH physiology, *HEART beat measurement, *MEMBRANE potential, *BIFURCATION theory, *CENTRAL pattern generators, *BIOLOGICAL neural networks

Abstract

We studied bursting patterns underlying bifurcation phenomena and chaotic spiking in a computational leech heartbeat model. We observed the gradient physical properties of the ISI series and amplitude (shift of the membrane potential) when the parameter g was mildly changed and found different bistable areas. The resulting computation implies that (i) classification of the intensity of the input information is feasible in this regime, (ii) a neuron's working level can be marked by its range in a typical bifurcation, and (iii) there are invisible triggers underlying subtle mechanisms in the model. [ABSTRACT FROM AUTHOR]

Published

2014

9. New Grid-Connected Multilevel Boost Converter Topology with Inherent Capacitors Voltage Balancing Using Model Predictive Controller

Author

Mohd. Ali Jagabar Sathik, Rasoul Shalchi Alishah, Ali Yahya Rezaee, Frede Blaabjerg, and Kent Bertilsson

Subjects

injected current, Computer science, Multilevel Converter, 020209 energy, 020208 electrical & electronic engineering, Topology (electrical circuits), 02 engineering and technology, Grid, Network topology, Topology, law.invention, Power (physics), Reduction (complexity), Capacitor, law, Boost converter, 0202 electrical engineering, electronic engineering, information engineering, model predictive, Grid-Connected, Voltage

Abstract

This paper presents a new grid-connected multilevel boost converter topology. The proposed multilevel boost converter includes several switched-capacitor units along with a developed H-bridge. The capability of voltage boosting, inherent voltage balancing of capacitors, reduction of power electronic elements, and voltage on switches are the merits of proposed topology compared to other topologies. All required mathematical analysis related to the suggested topology is presented. The proposed topology is verified by experimental results for grid-connected applications using model predictive controller.

Published

2020

10. Analysis of the dynamic behavior and short-pulse modulation scheme for laterally coupled diode lasers.

Author

Lamela, H., Leones, M., Carpintero, G., Simmendinger, C., and Hess, O.

Abstract

A theoretical investigation of the high-speed coupling phenomena of two laterally coupled diode lasers (LCDL) is presented. The analysis is centered on the spatiotemporal dynamics of the LCDL when coupling between emitters is varied, We have obtained the dynamic behavior of these devices showing high resonance frequencies beyond the well-known resonance frequency of a single diode laser. In this paper, we have presented a new modulation scheme by asymmetric switching of the injected current in both stripes, showing short optical output pulse modulation with a high repetition rate [ABSTRACT FROM PUBLISHER]

Published

2001

11. Investigação dos inversores de ponto neutro grampeado em sistemas fotovoltaicos conectados à rede elétrica

Author

Joaquim Henrique Reis, Coelho, Ernane Antônio Alves, Chaves, Eric Nery, and Lima, Gustavo Brito de

Subjects

Grid Connected, Injected Current, Photovoltaic Systems, Conexão à Rede, Sistemas Fotovoltaicos, ENGENHARIAS::ENGENHARIA ELETRICA::ELETRONICA INDUSTRIAL, SISTEMAS E CONTROLES ELETRONICOS::CONTROLE DE PROCESSOS ELETRONICOS, RETROALIMENTACAO [CNPQ], Desacoplamento da Tensão, Voltage Decoupling, ENGENHARIAS::ENGENHARIA ELETRICA::SISTEMAS ELETRICOS DE POTENCIA::GERACAO DA ENERGIA ELETRICA [CNPQ], Corrente Injetada, Inversor NPC, NPC Inverter

Abstract

CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior CNPq - Conselho Nacional de Desenvolvimento Científico e Tecnológico FAPEMIG - Fundação de Amparo a Pesquisa do Estado de Minas Gerais Este trabalho trata de sistemas fotovoltaicos conectados à rede elétrica. Mais especificamente, do aproveitamento de energias renováveis e controle da corrente injetada. Ao longo da proposta, inicia-se por uma breve apresentação da estrutura da conversão fotovoltaica, do estado da arte de inversores de potência, suas topologias básicas e estruturas de modulação, justificando a escolha do inversor NPC - 3 níveis (Neutral Point Clamped Inverter) e do filtro passivo indutivo. Na abordagem do processo de conexão à rede, detalham-se as estruturas de controle da tensão CC, o algoritmo de sincronismo de fase (PLL - Phase Locked Loop), o compensador de corrente e as rotinas de proteção, que atuam no domínio da tensão CC, da corrente CA, bem como do estado da rede CA (tensão e frequência) e os mecanismos de proteção das variáveis envolvidas. Em conjunção ao estado da arte, são apresentados elementos e métodos que tornaram possível a implementação prática, situando a característica física de alguns componentes, com enfoque na unidade de processamento (DSP), sensores e circuitos de auxílio à comutação, que efetuam o controle digital. Ao final, uma amostra dos resultados obtidos apresenta alguns sinais internos ao controle, como a operação em malha aberta, tensão e corrente sobre os semicondutores, ganho estático e sincronismo. Na conexão à rede, o destaque deve-se à comparação entre as técnicas de compensação terminal do ganho de modulação, em que as tensões CA e CC, que compõem a ação de controle, são apresentadas sob a forma do valor de referência, ou da respectiva medida (variável sensoriada). O desempenho é visto em termos de aproveitamento de potência, qualidade das formas de onda, destacando desafios e aspectos potenciais do projeto. This work presents a photovoltaic energy system connected to the grid. More specifically, the renewable energy and injected current conditioning. Initially, it is presented a brief description about photovoltaic structures, as solar resource, cell's technologies, I-V curves and MPPT algorithms. Then, it follows a state-of-art review about most common topologies and modulation techniques, in which it is stressed the choice of NPC-3L associated with an inductive filter. The control of grid connected systems includes outer voltage loop, Phase Locked Loop, in order to synchronization, inner current loop and protection schemes design. In this case, the under and overvoltage at DC bus , AC overload and anti-islanding strategies are mentioned. About the prototype, it is showed physical components and their limitations, as well as the methods applied, which they became feasible the experimental analysis: DSP, sensors and gate drivers. At last, the results present some internal open-loop signals, as static gain curve, voltage and current waveforms in semiconductors and PLL dynamics. About grid connected systems, it compares the terminal compensation previously to the modulation. In other words, it refers to AC and DC voltage signals that it evaluates control action signal at output current loop. In this case, if the DC voltage is the reference or the instantaneous value, with AC component, the dynamics is not the same. Moreover, there are differences if the AC voltage is the PLL output, without harmonics, or a grid measurement. So, the efficiency, power quality, and steady state waveforms highlight about the potential aspects and limitations of this research. Dissertação (Mestrado)

Published

2019

12. Simulation of electrically induced vortical flows

Author

Dzelme, V., Jakovics, A., Chudnovsky, A., Baake, E., Dzelme, V., Jakovics, A., Chudnovsky, A., and Baake, E.

Abstract

In this work, we study electrically induced flows numerically using open-source software and experimentally. Two systems are considered - single and multiphase (free surface) flows driven by axisymmetric DC and AC current injection. We investigate characteristic velocity and free surface deformation dependence on the injected current and validate it with experimental data. Results show that maximum axial velocity is a linear function of injected current, but free surface deformations are approximately proportional to current squared.

Published

2018

13. Dynamics of a green high-power tunable external-cavity broad-area GaN diode laser

Author

Chi, Mingjun, Jensen, Ole Bjarlin, Hansen, Anders Kragh, Petersen, Paul Michael, Chi, Mingjun, Jensen, Ole Bjarlin, Hansen, Anders Kragh, and Petersen, Paul Michael

Abstract

Although external-cavity feedback with a grating is widely used to achieve a tunable high-power narrow-linewidth broad-area diode laser (BAL) system, the dynamics of such a system is seldom studied. In this paper, the temporal dynamics of a tunable high-power green external-cavity diode laser system based on a GaN BAL and Littrow external-cavity is investigated experimentally. The regular pulse package oscillation (PPO) is observed just above the threshold. The oscillating period of the pulse package decreases with the increasing injected current. As the current increases further, the pulse package oscillates irregularly, and finally changes to a chaotic state. The PPO is observed, for the first time to our knowledge, in a BAL with an external-cavity grating feedback.

Published

2018

14. Simulation of electrically induced vortical flows

Author

Egbert Baake, A. Chudnovsky, V. Dzelme, and Andris Jakovics

Subjects

Materials science, Injected current, Axial velocity, Free surface deformations, Open source software, Mechanics, Deformation (meteorology), simulation, Deformation, Characteristic velocities, Magnetohydrodynamics, ddc:530, Vortical flows, Dewey Decimal Classification::500 | Naturwissenschaften::530 | Physik, Magnetic materials, Open systems, Linear functions, electrovortex

Abstract

In this work, we study electrically induced flows numerically using open-source software and experimentally. Two systems are considered - single and multiphase (free surface) flows driven by axisymmetric DC and AC current injection. We investigate characteristic velocity and free surface deformation dependence on the injected current and validate it with experimental data. Results show that maximum axial velocity is a linear function of injected current, but free surface deformations are approximately proportional to current squared.

Published

2018

15. Boosting Polarization Switching-Induced Current Injection by Mechanical Force in Ferroelectric Thin Films.

Author

Zhang F, Fan H, Han B, Zhu Y, Deng X, Edwards D, Kumar A, Chen D, Gao X, Fan Z, and Rodriguez BJ

Abstract

When scaling the lateral size of a ferroelectric random access memory (FeRAM) device down to the nanometer range, the polarization switching-induced displacement current becomes small and challenging to detect, which greatly limits the storage density of FeRAM. Here, we report the observation of significantly enhanced injection currents, much larger than typical switching currents, induced by polarization switching in BiFeO 3 thin films via conductive atomic force microscopy. Interestingly, this injected current can be effectively modulated by applying mechanical force. As the loading force increases from ∼50 to ∼750 nN, the magnitude of the injected current increases and the critical voltage to trigger the current injection decreases. Notably, changing the loading force by an order of magnitude increases the peak current by 2-3 orders of magnitude. The mechanically boosted injected current could be useful for the development of high-density FeRAM devices. The mechanical modulation of the injected current may be attributed to the mechanical force-induced changes in the barrier height and interfacial layer width.

Published

2021

16. Analysis and optimization of intensity noise reduction in spectrum-sliced WDM systems using a saturated semiconductor optical amplifier.

Author

Zhao, M., Morthier, G., and Baets, R.

Abstract

Theoretical and experimental results on the reduction of the intensity noise in spectrum-sliced wavelength-division-multiplexing systems using a saturated semiconductor optical amplifier (SOA) are presented. The influence of the injected current and the input power to the saturated SOA on the noise reduction and its bandwidth are studied. The optimum condition for a high noise suppression ratio and a large bandwidth is derived. For the optimum operation of the SOA, an increase of 13.5 dB in the intensity-noise-limited signal-to-noise ratio for a bitrate of 2.488 Gb/s and of 17.5 dB for a bitrate of 622 Mb/s are obtained experimentally in a single-stage SOA [ABSTRACT FROM PUBLISHER]

Published

2002

17. Fourier transform magnetic resonance current density imaging (FT-MRCDI) from one component of magnetic flux density

Author

Ozlem Birgul, Yusuf Ziya Ider, L. Tugan Muftuler, Orhan Arikan, Omer Faruk Oran, Mark J Hamamura, and Arıkan, Orhan

Subjects

3D object, Effect of measurements, Current density imaging, Magnetics, symbols.namesake, Nuclear magnetic resonance, Image processing, Image Processing, Computer-Assisted, Humans, Computer Simulation, Radiology, Nuclear Medicine and imaging, Current distribution, Image resolution, Magnetic flux, Laplacians, Physics, Spatial resolution, Models, Statistical, Observational error, Fourier Analysis, Radiological and Ultrasound Technology, Injected current, Three dimensional, Resonance current, Magnetism, Divergence free, Computer simulation, Current density reconstruction, Magnetic Resonance Imaging, Fourier analysis, Computational physics, Magnetic field, Algorithm, Fourier transform, Magnetic resonance, 3-D problems, symbols, Current (fluid), Laplace operator, Current density, Algorithms, Human

Abstract

Fourier transform (FT)-based algorithms for magnetic resonance current density imaging (MRCDI) from one component of magnetic flux density have been developed for 2D and 3D problems. For 2D problems, where current is confined to the xy-plane and z-component of the magnetic flux density is measured also on the xy-plane inside the object, an iterative FT-MRCDI algorithm is developed by which both the current distribution inside the object and the z-component of the magnetic flux density on the xy-plane outside the object are reconstructed. The method is applied to simulated as well as actual data from phantoms. The effect of measurement error on the spatial resolution of the current density reconstruction is also investigated. For 3D objects an iterative FT-based algorithm is developed whereby the projected current is reconstructed on any slice using as data the Laplacian of the z-component of magnetic flux density measured for that slice. In an injected current MRCDI scenario, the current is not divergence free on the boundary of the object. The method developed in this study also handles this situation.

Published

2010

18. Dynamics of a green high-power tunable external-cavity broad-area GaN diode laser

Author

Paul Michael Petersen, Anders Kragh Hansen, Ole B. Jensen, and Mingjun Chi

Subjects

Narrow-line width, III-V semiconductors, Materials science, Physics::Optics, Gallium nitride, 02 engineering and technology, Grating, 01 natural sciences, Semiconductor laser theory, law.invention, 010309 optics, chemistry.chemical_compound, law, External cavity feedback, 0103 physical sciences, Temporal dynamics, Littrow external cavities, Diode, Semiconductor lasers, External cavity diode laser systems, Oscillation, business.industry, Injected current, Statistical and Nonlinear Physics, 021001 nanoscience & nanotechnology, Laser, Diodes, Regular pulse packages, Atomic and Molecular Physics, and Optics, Dynamics, Power (physics), Pulse (physics), chemistry, Optoelectronics, Broad area diode lasers, 0210 nano-technology, business

Abstract

Although external-cavity feedback with a grating is widely used to achieve a tunable high-power narrow-linewidth broad-area diode laser (BAL) system, the dynamics of such a system is seldom studied. In this paper, the temporal dynamics of a tunable high-power green external-cavity diode laser system based on a GaN BAL and Littrow external-cavity is investigated experimentally. The regular pulse package oscillation (PPO) is observed just above the threshold. The oscillating period of the pulse package decreases with the increasing injected current. As the current increases further, the pulse package oscillates irregularly, and finally changes to a chaotic state. The PPO is observed, for the first time to our knowledge, in a BAL with an external-cavity grating feedback.

Published

2018

19. Large-signal analysis of all-optical wavelength conversion using two-mode injection-locking in semiconductor lasers

Author

J. Horer, E. Patzak, and Publica

Subjects

bandwidth, injected current, dispersive switching, resonator length, operation modes, inverting conversion, Optical communication, Physics::Optics, relaxation oscillation frequency, Optical power, semiconductor lasers, output extinction ratio, data rates, optical switches, noninverting conversion, 20 Gbit/s, Optical switch, Semiconductor laser theory, law.invention, dc-biased fabry-perot laser, Optics, law, injected power, threshold, multigigabit range, Electrical and Electronic Engineering, optical injection, input signals, laser cavity resonators, laser modes, all-optical wavelength conversion, Physics, Extinction ratio, business.industry, optical frequency conversion, injection-locking, large-signal analysis, modulated signal, Condensed Matter Physics, Laser, Atomic and Molecular Physics, and Optics, Injection locking, Mode-locking, conversion mechanism, fabry-perot resonators, cw signal, two-mode injection-locking, business

Abstract

A large-signal analysis is presented for a DC-biased Fabry-Perot laser locked by simultaneous strong optical injection of a CW signal and a modulated signal into different modes. The model is based on the description of injection-locking by Lang (1982) which is shown to hold even under the condition of strong injection and large detuning of the input signals. The following results are obtained: the configuration allows all-optical wavelength conversion in the multigigabit range, and both logically noninverting and inverting conversion is possible. In both operation modes, the conversion mechanism is mainly attributed to dispersive switching which is shown to be very fast above threshold due to injection-locking. Operation up to data rates of 20 Gb/s is possible with reasonable output extinction ratio. The bandwidth is determined by the relaxation oscillation frequency of the laser. It will be extended by decreasing the resonator length, increasing the injected current, and increasing the injected optical power. The output signal is nearly chirp-free. The model is able to explain the main results of previously published experiments.

Published

1997

20. Field dependence of the carrier injection mechanisms in InGaN Quantum wells: Its effect on the luminescence properties of blue light emitting diodes

Author

Maura Pavesi, Manfredo Manfredi, Giancarlo Salviati, Francesca Rossi, Ulrich Zehnder, Enrico Zanoni, and Matteo Meneghini

Subjects

Materials science, InGaN, business.industry, Injected current, LED, radiative recombination, Wide-bandgap semiconductor, General Physics and Astronomy, Cathodoluminescence, cathodoluminescence, LED efficiency, light emitting diodes, GaN, law.invention, law, Band diagram, Physics::Accelerator Physics, Optoelectronics, Spontaneous emission, Luminescence, business, Quantum well, Diode, Light-emitting diode

Abstract

Carrier injection and radiative recombination processes in InGaN∕GaN blue light emitting diodes are investigated by bias-dependent cathodoluminescence. The samples are designed with a single-quantum-well (SQW) light emitter and an adjacent multi-quantum-well (MQW) carrier injector of lower In content. In unbiased samples, the MQW emission dominates over the SQW at high temperatures (T>160K) or low beam currents (IB

Published

2008