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123 results on '"Dery H"'

1. Brightened emission of dark trions in transition-metal dichalcogenide monolayers

Author

Jindal, V., Mourzidis, K., Balocchi, A., Robert, C., Li, P., Van Tuan, D., Lombez, L., Lagarde, D., Renucci, P., Taniguchi, T., Watanabe, K., Dery, H., and Marie, X.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The optical emission spectra of semiconducting transition-metal dichalcogenide monolayers highlight fascinating recombination processes of charged excitons (trions). When charge tunable WSe2 monolayers are moderately doped with electrons, a strong luminescence peak emerges just below the well-understood spectral lines associated with the recombination of negatively charged bright and dark trions. Despite previous investigations, its origin remains elusive. Here, we demonstrate that this luminescence peak is the result of electron-electron assisted recombination that brightens the dark trion emission. Supporting evidence for this second-order recombination process comes from identifying the equivalent brightened emission of positively charged dark trions when the monolayer is electrostatically doped with holes. Remarkably, the discovered hole-hole assisted luminescence peak emerges in the near infrared, about 500 meV below the well-studied spectral region of excitons and trions. In addition to identifying new recombination channels of these excitonic complexes, our findings accurately determine the spin-split energies of the conduction and valence bands. Both of which play crucial roles in understanding the optical properties of WSe2 based homo- and hetero-structures., Comment: 13 pages, 4 figures

Published
2024

2. Emergence of 6-particle 'hexciton' states in WS$_2$ and MoSe$_2$ monolayers

Author

Choi, J., Li, J., Van Tuan, D., Dery, H., and Crooker, S. A.

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

When doped with a high density of mobile charge carriers, monolayer transition-metal dichalcogenide (TMD) semiconductors can host new types of composite many-particle exciton states that do not exist in conventional semiconductors. Such multi-particle bound states arise when a photoexcited electron-hole pair couples to not just a single Fermi sea that is quantum-mechanically distinguishable (as for the case of conventional charged excitons or trions), but rather couples simultaneously to \textit{multiple} Fermi seas, each having distinct spin and valley quantum numbers. Composite six-particle ``hexciton'' states were recently identified in electron-doped WSe$_2$ monolayers, but under suitable conditions they should also form in all other members of the monolayer TMD family. Here we present spectroscopic evidence demonstrating the emergence of many-body hexcitons in charge-tunable WS$_2$ monolayers (at the A-exciton) and MoSe$_2$ monolayers (at the B-exciton). The roles of distinguishability and carrier screening on the stability of hexcitons are discussed., Comment: 7 pages, 3 figs

Published
2023
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3. Experimental Demonstration of xor Operation in Graphene Magnetologic Gates at Room Temperature

Author

Wen, H, Dery, H, Amamou, W, Zhu, T, Lin, Z, Shi, J, Žutić, I, Krivorotov, I, Sham, LJ, and Kawakami, RK

Subjects
cond-mat.mes-hall, Physical Sciences, Engineering
Abstract

We report the experimental demonstration of a magnetologic gate built on graphene at room temperature. This magnetologic gate consists of three ferromagnetic electrodes contacting a single-layer graphene spin channel and relies on spin injection and spin transport in the graphene. We utilize electrical bias tuning of spin injection to balance the inputs and achieve "exclusive or" (xor) logic operation. Furthermore, a simulation of the device performance shows that substantial improvement towards spintronic applications can be achieved by optimizing the device parameters such as the device dimensions. This advance holds promise as a basic building block for spin-based information processing.

Published
2016

4. Spin and energy relaxation in germanium studied by spin-polarized direct-gap photoluminescence

Author

Pezzoli, F., Qing, L., Giorgioni, A., Isella, G., Grilli, E., Guzzi, M., and Dery, H.

Subjects
Condensed Matter - Materials Science
Abstract

Spin orientation of photoexcited carriers and their energy relaxation is investigated in bulk Ge by studying spin-polarized recombination across the direct band gap. The control over parameters such as doping and lattice temperature is shown to yield high polarization degree, namely larger than 40%, as well as a fine-tuning of the angular momentum of the emitted light with a complete reversal between right- and left-handed circular polarization. By combining the measurement of the optical polarization state of band-edge luminescence and Monte Carlo simulations of carrier dynamics, we show that these very rich and complex phenomena are the result of the electron thermalization and cooling in the multi-valley conduction band of Ge. The circular polarization of the direct-gap radiative recombination is indeed affected by energy relaxation of hot electrons via the X valleys and the Coulomb interaction with extrinsic carriers. Finally, thermal activation of unpolarized L valley electrons accounts for the luminescence depolarization in the high temperature regime.

Published
2013
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5. Optical spin injection and spin lifetime in Ge heterostructures

Author

Pezzoli, F., Bottegoni, F., Trivedi, D., Ciccacci, F., Giorgioni, A., Li, P., Cecchi, S., Grilli, E., Song, Y., Guzzi, M., Dery, H., and Isella, G.

Subjects
Condensed Matter - Materials Science
Abstract

We demonstrate optical orientation in Ge/SiGe quantum wells and study their spin properties. The ultrafast electron transfer from the center of the Brillouin zone to its edge allows us to achieve high spin-polarization efficiencies and to resolve the spin dynamics of holes and electrons. The circular polarization degree of the direct-gap photoluminescence exceeds the theoretical bulk limit, yielding ~37% and ~85% for transitions with heavy and light holes states, respectively. The spin lifetime of holes at the top of the valence band is found to be ~0.5 ps and it is governed by transitions between heavy and light hole states. Electrons at the bottom of the conduction band, on the other hand, have a spin lifetime that exceeds 5 ns below 150 K. Theoretical analysis of the electrons spin relaxation indicates that phonon-induced intervalley scattering dictates the spin lifetime., Comment: 5 pages, 3 figures

Published
2011
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6. Electrical expression of spin accumulation in ferromagnet/semiconductor structures

Author

Cywinski, L., Dery, H., Dalal, P., and Sham, L. J.

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

We treat the spin injection and extraction via a ferromagnetic metal/semiconductor Schottky barrier as a quantum scattering problem. This enables the theory to explain a number of phenomena involving spin-dependent current through the Schottky barrier, especially the counter-intuitive spin polarization direction in the semiconductor due to current extraction seen in recent experiments. A possible explanation of this phenomenon involves taking into account the spin-dependent inelastic scattering via the bound states in the interface region. The quantum-mechanical treatment of spin transport through the interface is coupled with the semiclassical description of transport in the adjoining media, in which we take into account the in-plane spin diffusion along the interface in the planar geometry used in experiments. The theory forms the basis of the calculation of spin-dependent current flow in multi-terminal systems, consisting of a semiconductor channel with many ferromagnetic contacts attached, in which the spin accumulation created by spin injection/extraction can be efficiently sensed by electrical means. A three-terminal system can be used as a magnetic memory cell with the bit of information encoded in the magnetization of one of the contacts. Using five terminals we construct a reprogrammable logic gate, in which the logic inputs and the functionality are encoded in magnetizations of the four terminals, while the current out of the fifth one gives a result of the operation., Comment: A review to appear in Mod. Phys. Lett. B

Published
2007
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7. Spin extraction theory and its relevance to spintronics

Author

Dery, H. and Sham, L. J.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Extraction of electrons from a semiconductor to a ferromagnet as well as the case of injection in the reverse direction may be formulated as a scattering theory. However, the presence of bound states at the interface arising out of doping on the semiconductor side must be taken into account in the scattering theory. Inclusion of the interface states yields an explanation of a recent result of spin imaging measurement which contradicts the current understanding of spin extraction. The importance of an extraction theory to spintronics is illustrated by an application to a spin switch., Comment: 4 two column pages, 3 figures, major revisions to improve the presentation. in addition, the new version includes an electrically controlled spin switch

Published
2006
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8. Electric readout of magnetization dynamics in a ferromagnet-semiconductor system

Author

Cywinski, L., Dery, H., and Sham, L. J.

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

We apply an analysis of time-dependent spin-polarized current in a semiconductor channel at room temperature to establish how the magnetization configuration and dynamics of three ferromagnetic terminals, two of them biased and third connected to a capacitor, affect the currents and voltages. In a steady state, the voltage on the capacitor is related to spin accumulation in the channel. When the magnetization of one of the terminals is rotated, a transient current is triggered. This effect can be used for electrical detection of magnetization reversal dynamics of an electrode or for dynamical readout of the alignment of two magnetic contacts., Comment: Revised version, 8 pages, 3 figures

Published
2006
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9. Spintronics for electrical measurement of light polarization

Author

Dery, H., Cywinski, L., and Sham, L. J.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The helicity of a circularly polarized light beam may be determined by the spin direction of photo-excited electrons in a III-V semiconductor. We present a theoretical demonstration how the direction of the ensuing electron spin polarization may be determined by electrical means of two ferromagnet/semiconductor Schottky barriers. The proposed scheme allows for time-resolved detection of spin accumulation in small structures and may have a device application., Comment: Revised version, 8 two-column pages, 5 figures; Added: a comprehensive time dependent analysis, figures 3b-3c & 5, equations 6 & 13-16 and 3 references. submitted to Phys. Rev. B

Published
2005
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10. Lateral diffusive spin transport in layered structures

Author

Dery, H., Cywinski, L., and Sham, L. J.

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

A one dimensional theory of lateral spin-polarized transport is derived from the two dimensional flow in the vertical cross section of a stack of ferromagnetic and paramagnetic layers. This takes into account the influence of the lead on the lateral current underneath, in contrast to the conventional 1D modeling by the collinear configuration of lead/channel/lead. Our theory is convenient and appropriate for the current in plane configuration of an all-metallic spintronics structure as well as for the planar structure of a semiconductor with ferromagnetic contacts. For both systems we predict the optimal contact width for maximal magnetoresistance and propose an electrical measurement of the spin diffusion length for a wide range of materials., Comment: 4 pages, 3 figures

Published
2005
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11. Spin extraction theory and its relevance to spintronics

Author

Dery, H and Sham, L J

Abstract

Extraction of electrons from a semiconductor to a ferromagnet as well as the case of injection in the reverse direction may be formulated as a scattering theory. However, the presence of bound states at the interface arising out of doping on the semiconductor side must be taken into account in the scattering theory. Inclusion of the interface states yields an explanation of a recent result of spin-imaging measurement which contradicts the current understanding of spin extraction. The importance of an extraction theory to spintronics is illustrated by an application to a spin switch.

Published
2007

12. Spintronics for electrical measurement of light polarization

Author

Dery, H, Cywinski, L, and Sham, L J

Abstract

The helicity of a circularly polarized light beam may be determined by the spin direction of photoexcited electrons in a III-V semiconductor. We present a theoretical demonstration on how the direction of the ensuing electron spin polarization may be determined by electrical means of two ferromagnet/semiconductor Schottky barriers. The proposed scheme allows for the time-resolved detection of spin accumulation in small structures and may have a device application. (c) 2006 American Institute of Physics.

Published
2006

13. Electric readout of magnetization dynamics in a ferromagnet-semiconductor system

Author

Cywinski, L, Dery, H, and Sham, L J

Abstract

We apply an analysis of time-dependent spin-polarized current in a semiconductor channel at room temperature to establish how the magnetization configuration and dynamics of three ferromagnetic terminals, two of them biased and third connected to a capacitor, affect the currents and voltages. In a steady state, the voltage on the capacitor is related to spin accumulation in the channel. When the magnetization of one of the terminals is rotated, a transient current is triggered. This effect can be used for electrical detection of magnetization reversal dynamics of an electrode or for dynamical readout of the alignment of two magnetic contacts.

Published
2006

14. Spin transference and magnetoresistance amplification in a transistor

Author

Dery, H, Cywinski, L, and Sham, L J

Abstract

A current problem in semiconductor spin-based electronics is the difficulty of experimentally expressing the effect of spin-polarized current in electrical circuit measurements. We present a theoretical solution with the principle of transference of the spin-diffusion effects in the semiconductor channel of a system with three magnetic terminals. A notable result of technological consequences is the room-temperature amplification of the magnetoresistive effect, integrable with electronics circuits, demonstrated by computation of current dependence on magnetization configuration in such a system with currently achievable parameters.

Published
2006

15. Lateral diffusive spin transport in layered structures

Author

Dery, H, Cywinski, L, and Sham, L J

Subjects
spintronics
Abstract

A one-dimensional (1D) theory of lateral spin-polarized transport is derived from the two-dimensional flow in the vertical cross section of a stack of ferromagnetic and paramagnetic layers. This takes into account the influence of the lead on the lateral current underneath, in contrast to the conventional 1D modeling by the collinear configuration of lead/channel/lead. Our theory is convenient and appropriate for the current in-plane configuration of an all-metallic spintronics structure as well as for the planar structure of a semiconductor with ferromagnetic contacts. For both systems we predict the optimal contact width for maximal magnetoresistance and propose an electrical measurement of the spin-diffusion length for a wide range of materials.

Published
2006

16. Spin-based logic in semiconductors for reconfigurable large-scale circuits

Author

Dery, H., Dalal, P., Cywiński, Ł., and Sham, L. J.

Subjects
Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): H. Dery (corresponding author) [1]; P. Dalal [1]; Ł. Cywiński [1]; L. J. Sham [1] Research in semiconductor spintronics aims to extend the scope of conventional electronics by using [...]

Published
2007
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18. Photoluminescence circular dichroism and spin polarization in Germanium

Author

Pezzoli, F, Qing, L, Giorgioni, A, Isella, G, Grilli, E, Guzzi, M, Dery, H, PEZZOLI, FABIO, GIORGIONI, ANNA, GRILLI, EMANUELE ENRICO, GUZZI, MARIO, Dery H., Pezzoli, F, Qing, L, Giorgioni, A, Isella, G, Grilli, E, Guzzi, M, Dery, H, PEZZOLI, FABIO, GIORGIONI, ANNA, GRILLI, EMANUELE ENRICO, GUZZI, MARIO, and Dery H.

Abstract

Germanium and silicon-germanium alloys have found entry into Si technology thanks to their compatibility with Si processing and their ability to tailor electronic properties by strain and band-gap engineering. Noticeably, the quasi-direct band structure of Ge allows for optical spin orientation bridging the fields of spintronics and Si photonics where Ge is increasingly applied [3,4]. Despite recent progress in the investigation of spin dynamics in Ge, very little is known about spin flip scattering by dopants and the role played by impurities in determining spin properties in different temperature regimes. Here we present a combined experimental and theoretical investigation of the spin and energy relaxation of electrons in Ge. By taking advantage of polarization-resolved photoluminescence measurements and Monte Carlo simulations of carrier dynamics we unveil unique and very rich spin physics and highlight the importance of the multi-valley conduction band of this material. We demonstrate full control over the angular momentum of the direct gap emission with a complete reversal between right- and left-handed circular polarization. This detailed investigation of spin properties of Ge is expected to open new opportunities connected to photonics and spintronics on mainstream CMOS-compatible platforms.

Published
2014

19. Temperature dependence of the coupling between n-type δ-doping region and quantum dot assemblies.

Author

Fekete, D., Dery, H., Rudra, A., and Kapon, E.

Subjects
*QUANTUM dots, *ELECTRON scattering, *HOT carriers, *QUANTUM electronics, *TEMPERATURE, *PHOTOLUMINESCENCE, *PHONONS
Abstract

We present experimental evidence that at room temperature the main coupling mechanism between an n-type δ-doping region and an adjacent plane of dots is energy-conserving electron-electron scattering, in which a hot electron in the δ-doping region transfers energy to a deeply confined electron in that region and relaxes to the quantum dot. We demonstrate that at room temperature the increased capture cross section due to electron-electron scattering considerably enhances the injection into the quantum dots with a certain size and thus reduces the phonon bottleneck in quantum dot assemblies for the quantum dots that interact with the δ-doping region. We identify different temperature-dependent injection schemes by comparing the photoluminescence of dilute and dense assemblies with the corresponding photoluminescence of similar structures including n-type δ-doping regions adjacent to the dots’ plane. [ABSTRACT FROM AUTHOR]

Published
2006
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20. On the nature of quantum dash structures.

Author

Dery, H., Benisty, E., Epstein, A., Alizon, R., Mikhelashvili, V., Eisenstein, G., Schwertberger, R., Gold, D., Reithmaier, J. P., and Forchel, A.

Subjects
*NANOWIRES, *QUANTUM dots, *SEMICONDUCTOR lasers, *OPTOELECTRONIC devices, *ELECTRONIC amplifiers, *PHYSICS
Abstract

We describe a theoretical model for the linear optical gain properties of a quantum wire assembly and compare it to the well known case of a quantum dot assembly. We also present a technique to analyze the gain of an optical amplifier using bias dependent room temperature amplified spontaneous emission spectra. Employing this procedure in conjunction with the theoretical gain model, we demonstrate that InAs/InP quantum dash structures have quantum-wire-like characteristics. The procedure was used to extract the net gain coefficient, the differential gain, and the relative current component contributing to radiative recombination. © 2004 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published
2004
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21. Photoluminescence circular dichroism and spin polarization in Germanium

Author

PEZZOLI, FABIO, GIORGIONI, ANNA, GRILLI, EMANUELE ENRICO, GUZZI, MARIO, Qing, L, Isella, G, Dery H., Pezzoli, F, Qing, L, Giorgioni, A, Isella, G, Grilli, E, Guzzi, M, and Dery, H

Subjects
FIS/03 - FISICA DELLA MATERIA, Germanium, photoluminescence, spin dynamics, spin relaxation, optical orientation
Abstract

Germanium and silicon-germanium alloys have found entry into Si technology thanks to their compatibility with Si processing and their ability to tailor electronic properties by strain and band-gap engineering. Noticeably, the quasi-direct band structure of Ge allows for optical spin orientation bridging the fields of spintronics and Si photonics where Ge is increasingly applied [3,4]. Despite recent progress in the investigation of spin dynamics in Ge, very little is known about spin flip scattering by dopants and the role played by impurities in determining spin properties in different temperature regimes. Here we present a combined experimental and theoretical investigation of the spin and energy relaxation of electrons in Ge. By taking advantage of polarization-resolved photoluminescence measurements and Monte Carlo simulations of carrier dynamics we unveil unique and very rich spin physics and highlight the importance of the multi-valley conduction band of this material. We demonstrate full control over the angular momentum of the direct gap emission with a complete reversal between right- and left-handed circular polarization. This detailed investigation of spin properties of Ge is expected to open new opportunities connected to photonics and spintronics on mainstream CMOS-compatible platforms.

Published
2014

22. Temperature dependence of the coupling between n-type delta-doping region and quantum dot assemblies

Author

Fekete, D., Dery, H., Rudra, A., and Kapon, E.

Subjects
Photoluminescence -- Analysis, Gallium arsenide -- Optical properties, Gallium arsenide -- Properties, Electrons -- Scattering, Electrons -- Research, Physics
Abstract

An experiment was conducted to study the temperature dependence of the coupling between n-type delta-doping regions. It was demonstrated that at room temperature the main coupling mechanism between an n-type delta-doping region and an adjacent plane of dots is energy-conserving electron-electron scattering, in which a hot electron in the delta-doping region transfers energy to a deeply confined electron in that region and relaxes to the quantum dot.

Published
2006

23. Spin Generation and Relaxation in Ge/SiGe Quantum Wells

Author

Isella, G, Bottegoni, F, Cecchi, S, Ferrari, A, Ciccacci, F, Pezzoli, F, Giorgioni, A, Gatti, E, Grilli, E, Guzzi, M, Lange, C, Koester, N, Woscholski, R, Chatterjee, S, Trivedi, D, Li, P, Song, Y, Dery, H, Dery, H., PEZZOLI, FABIO, GIORGIONI, ANNA, GATTI, ELEONORA, GRILLI, EMANUELE ENRICO, GUZZI, MARIO, Isella, G, Bottegoni, F, Cecchi, S, Ferrari, A, Ciccacci, F, Pezzoli, F, Giorgioni, A, Gatti, E, Grilli, E, Guzzi, M, Lange, C, Koester, N, Woscholski, R, Chatterjee, S, Trivedi, D, Li, P, Song, Y, Dery, H, Dery, H., PEZZOLI, FABIO, GIORGIONI, ANNA, GATTI, ELEONORA, GRILLI, EMANUELE ENRICO, and GUZZI, MARIO

Published
2012

24. Optical spin orientation in SiGe heterostructures

Author

Isella, G, Bottegoni, F, Cecchi, S, Ferrari, A, Ciccacci, F, Pezzoli, F, Giorgioni, A, Gatti, E, Grilli, E, Guzzi, M, Lange, C, Köster, N, Woscholski, R, Chatterjee, S, Trivedi, D, Li, P, Song, Y, Dery, H, Dery, H., PEZZOLI, FABIO, GIORGIONI, ANNA, GATTI, ELEONORA, GRILLI, EMANUELE ENRICO, GUZZI, MARIO, Isella, G, Bottegoni, F, Cecchi, S, Ferrari, A, Ciccacci, F, Pezzoli, F, Giorgioni, A, Gatti, E, Grilli, E, Guzzi, M, Lange, C, Köster, N, Woscholski, R, Chatterjee, S, Trivedi, D, Li, P, Song, Y, Dery, H, Dery, H., PEZZOLI, FABIO, GIORGIONI, ANNA, GATTI, ELEONORA, GRILLI, EMANUELE ENRICO, and GUZZI, MARIO

Abstract

Ge is emerging as an interesting material for spintronic applications. We demonstrate that in SiGe heterostructures strain and quantum confinement effects can be used to tailor spin related properties enhancing the spin polarization of injected carriers above the bulk limit. Moreover the fast ?-L electron scattering and the strain induced removal of the heavy-hole, light-hole degeneracy, make SiGe heterostructures an ideal material platform for the study of hole dynamics. © The Electrochemical Society

Published
2012

25. Optical spin orientation in SiGe heterostructures

Author

Isella, Giovanni, Bottegoni, Federico, Cecchi, STEFANO CARLO, Ferrari, Alberto, Ciccacci, Franco, Pezzoli, F., Giorgioni, A., Gatti, E., Grilli, E., Guzzi, M., Lange, C., Koester, N. S., Woscholski, R., Chatterjee, S., Trivedi, D., Li, P., Song, Y., Dery, H., Isella, G, Bottegoni, F, Cecchi, S, Ferrari, A, Ciccacci, F, Pezzoli, F, Giorgioni, A, Gatti, E, Grilli, E, Guzzi, M, Lange, C, Köster, N, Woscholski, R, Chatterjee, S, Trivedi, D, Li, P, Song, Y, and Dery, H

Subjects
Engineering (all)
Abstract

Ge is emerging as an interesting material for spintronic applications. We demonstrate that in SiGe heterostructures strain and quantum confinement effects can be used to tailor spin related properties enhancing the spin polarization of injected carriers above the bulk limit. Moreover the fast ?-L electron scattering and the strain induced removal of the heavy-hole, light-hole degeneracy, make SiGe heterostructures an ideal material platform for the study of hole dynamics. © The Electrochemical Society

Published
2012

27. Tailoring the spin polarization in Ge/SiGe multiple quantum wells

Author

Giorgioni, A, Pezzoli, F, Gatti, E, Bottegoni, F, Cecchi, S, Trivedi, D, Li, P, Song, Y, Grilli, E, Ciccacci, F, Isella, G, Dery, H, Guzzi, M, GIORGIONI, ANNA, PEZZOLI, FABIO, GATTI, ELEONORA, GRILLI, EMANUELE ENRICO, GUZZI, MARIO, Giorgioni, A, Pezzoli, F, Gatti, E, Bottegoni, F, Cecchi, S, Trivedi, D, Li, P, Song, Y, Grilli, E, Ciccacci, F, Isella, G, Dery, H, Guzzi, M, GIORGIONI, ANNA, PEZZOLI, FABIO, GATTI, ELEONORA, GRILLI, EMANUELE ENRICO, and GUZZI, MARIO

Abstract

We performed spin-resolved photoluminescence measurements on Ge/SiGe multiple quantum wells with different well thickness and using different exciting power densities. The polarization of the direct emission strongly depends on the relative weight of electrons photoexcited from the light and the heavy hole subbands. The study of the polarization as a function of the exciting power highlights the role of the carrier-carrier interactions in determining spin depolarization. © 2013 AIP Publishing LLC.

Published
2013

28. Optical spin injection and spin lifetime in Ge heterostructures

Author

Pezzoli, F, Bottegoni, F, Trivedi, D, Ciccacci, F, Giorgioni, A, Li, P, Cecchi, S, Grilli, E, Song, Y, Guzzi, M, Dery, H, Isella, G, PEZZOLI, FABIO, GIORGIONI, ANNA, GRILLI, EMANUELE ENRICO, GUZZI, MARIO, Isella, G., Pezzoli, F, Bottegoni, F, Trivedi, D, Ciccacci, F, Giorgioni, A, Li, P, Cecchi, S, Grilli, E, Song, Y, Guzzi, M, Dery, H, Isella, G, PEZZOLI, FABIO, GIORGIONI, ANNA, GRILLI, EMANUELE ENRICO, GUZZI, MARIO, and Isella, G.

Abstract

We demonstrate optical orientation in Ge/SiGe quantum wells and study their spin properties. The ultrafast electron transfer from the center of the Brillouin zone to its edge allows us to achieve high spin polarizations and to resolve the spin dynamics of holes and electrons. The circular polarization degree of the direct gap photoluminescence exceeds the theoretical bulk limit, yielding ∼37% and ∼85% for transitions with heavy and light holes states, respectively. The spin lifetime of holes at the top of the valence band is estimated to be ∼0.5ps and it is governed by transitions between light and heavy hole states. Electrons at the bottom of the conduction band, on the other hand, have a spin lifetime that exceeds 5 ns below 150 K. Theoretical analysis of the spin relaxation indicates that phonon-induced intervalley scattering dictates the spin lifetime of electrons

Published
2012

29. Optical Spin Injection and Spin Lifetime in Ge Heterostructures

Author

Pezzoli, F., primary, Bottegoni, F., additional, Trivedi, D., additional, Ciccacci, F., additional, Giorgioni, A., additional, Li, P., additional, Cecchi, S., additional, Grilli, E., additional, Song, Y., additional, Guzzi, M., additional, Dery, H., additional, and Isella, G., additional

Published
2012
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30. Relaxation of a kinetic hole due to carrier-carrier scattering in multisubband single-quantum-well semiconductors

Author

Dery, H., Tromborg, Bjarne, Eisenstein, G., Dery, H., Tromborg, Bjarne, and Eisenstein, G.

Abstract

We describe a theoretical model for carrier-carrier scattering in an inverted semiconductor quantum well structure using a multisubband diagram. The model includes all possible nonvanishing interaction terms within the static screening approximation, and it enables one to calculate accurately the temporal evolution of the carrier densities and the gain following a perturbation by a short optical pulse. We present a theoretical formalism and detailed numerical calculations. The addition of more than one subband in each band as well as the use of all exchange terms yields several results. First, the degree of gain saturation is reduced while, at the same time, the recovery is faster as scattering events among different subbands take place. Also, carrier transfer between subbands is observed which modifies the overall carrier dynamics.

Published
2003

31. Carrier-carrier relaxation kinetics in quantum well semiconductor structures with nonparabolic energy bands

Author

Dery, H., Tromborg, Bjarne, Eisenstein, G., Dery, H., Tromborg, Bjarne, and Eisenstein, G.

Abstract

We describe carrier-carrier scattering dynamics in an inverted quantum well structure including the nonparabolic nature of the valance band. A solution of the semiconductor Bloch equations yields strong evidence to a large change in the temporal evolution of the carrier distributions compared to the case of parabolic bands. The nonparabolic bands and the consequent change in the density of states reduce considerably the degree of gain saturation while decreasing the time constant governing the relaxation. This results in a measurable reduction of the role played by carrier-carrier scattering in determining the gain nonlinearity and hence the modulation and switching speed of lasers and optical amplifiers.

Published
2003

32. Semiconductor quantum dots devices: Recent advances and application prospects

Author

Reithmaier, J. P., primary, Somers, A., additional, Kaiser, W., additional, Deubert, S., additional, Gerschütz, F., additional, Forchel, A., additional, Parillaud, O., additional, Krakowski, M., additional, Alizon, R., additional, Hadass, D., additional, Bilenca, A., additional, Dery, H., additional, Mikhelashvili, V., additional, Eisenstein, G., additional, Gioannini, M., additional, Montrosset, I., additional, Berg, T. W., additional, van der Poel, M., additional, Mørk, J., additional, and Tromborg, B., additional

Published
2006
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33. Gain and noise saturation of wide-band InAs-InP quantum dash optical amplifiers: model and experiments

Author

Hadass, D., primary, Bilenca, A., additional, Alizon, R., additional, Dery, H., additional, Mikhelashvili, V., additional, Eisenstein, G., additional, Schwertberger, R., additional, Somers, A., additional, Reithmaier, J.P., additional, Forchel, A., additional, Calligaro, M., additional, Bansropun, S., additional, and Krakowski, M., additional

Published
2005
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34. InP based lasers and optical amplifiers with wire-/dot-like active regions

Author

Reithmaier, J P, primary, Somers, A, additional, Deubert, S, additional, Schwertberger, R, additional, Kaiser, W, additional, Forchel, A, additional, Calligaro, M, additional, Resneau, P, additional, Parillaud, O, additional, Bansropun, S, additional, Krakowski, M, additional, Alizon, R, additional, Hadass, D, additional, Bilenca, A, additional, Dery, H, additional, Mikhelashvili, V, additional, Eisenstein, G, additional, Gioannini, M, additional, Montrosset, I, additional, Berg, T W, additional, Poel, M van der, additional, Mørk, J, additional, and Tromborg, B, additional

Published
2005
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43. Spectrally resolved dynamics of inhomogeneously broadened gain in InAs/InP 1550 nm quantum-dash lasers.

Author

Hadass, D., Alizon, R., Dery, H., Mikhelashvili, V., Eisenstein, G., Schwertberger, R., Somers, A., Reithmaier, J. P., Forchel, A., Calligaro, M., Bansropun, S., and Krakowski, M.

Subjects
INDIUM, ARSENIC, LASERS, OPTOELECTRONIC devices, LIGHT amplifiers, LIGHT sources
Abstract

We report spectrally resolved dynamical properties of 1550 nm quantum-dash lasers. The dynamics are governed by the inhomogeneous broadening of the gain medium and by wavelength-dependent carrier capture and escape rates. [ABSTRACT FROM AUTHOR]

Published
2004
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47. Quantum dot semiconductor lasers

Author

Reitmaier, J.P., primary, Deubert, S., additional, Somers, A., additional, Kaiser, W., additional, Forschel, A., additional, Auzanneau, S., additional, Callogaro, M., additional, Michel, N., additional, Bansropun, S., additional, Krakowski, M., additional, Sumpf, B., additional, Erbert, G., additional, Fricke, J., additional, Trankle, G., additional, Alizon, R., additional, Hadass, D., additional, Bilenca, A., additional, Dery, H., additional, Mikhelashvili, B., additional, and Einstein, G., additional

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