Your search keyword '"Silov, A. Yu."' showing total 162 results

1. Sign-reversal electron magnetization in Mn-doped semiconductor structures

Author

Kokurin, I. A., Silov, A. Yu., and Averkiev, N. S.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

The diversity of various manganese types and its complexes in the Mn-doped ${\rm A^{III}B^V}$ semiconductor structures leads to a number of intriguing phenomena. Here we show that the interplay between the ordinary substitutional Mn acceptors and interstitial Mn donors as well as donor-acceptor dimers could result in a reversal of electron magnetization. In our all-optical scheme the impurity-to-band excitation via the Mn dimers results in direct orientation of the ionized Mn-donor $d$ shell. A photoexcited electron is then captured by the interstitial Mn and the electron spin becomes parallel to the optically oriented $d$ shell. That produces, in the low excitation regime, the spin-reversal electron magnetization. As the excitation intensity increases the capture by donors is saturated and the polarization of delocalized electrons restores the normal average spin in accordance with the selection rules. A possibility of the experimental observation of the electron spin reversal by means of polarized photoluminescence is discussed., Comment: 6+2 pages, 3 figures

Published

2020

2. Optical spectroscopy of single beryllium acceptors in GaAs/AlGaAs quantum well

Author

Petrov, P. V., Kokurin, I. A., Klimko, G. V., Ivanov, S. V., Ivánov, Yu. L., Koenraad, P. M., Silov, A. Yu., and Averkiev, N. S.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

We carry out microphotoluminescence measurements of an acceptor-bound exciton (A^0X) recombination in the applied magnetic field with a single impurity resolution. In order to describe the obtained spectra we develop a theoretical model taking into account a quantum well (QW) confinement, an electron-hole and hole-hole exchange interaction. By means of fitting the measured data with the model we are able to study the fine structure of individual acceptors inside the QW. The good agreement between our experiments and the model indicates that we observe single acceptors in a pure two-dimensional environment whose states are unstrained in the QW plain.

Published

2016

3. Optical orientation of spins in GaAs:Mn/AlGaAs quantum wells via impurity-to-band excitation

Author

Petrov, P. V., Kokurin, I. A., Ivanov, Yu. L., Averkiev, N. S., Campion, R. P., Gallagher, B. L., Koenraad, P. M., and Silov, A. Yu.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

The paper reports optical orientation experiments performed in the narrow GaAs/AlGaAs quantum wells doped with Mn. We experimentally demonstrate a control over the spin polarization by means of the optical orientation via the impurity-to-band excitation and observe a sign inversion of the luminescence polarization depending on the pump power. The g factor of a hole localized on the Mn acceptor in the quantum well was also found to be considerably modified from its bulk value due to the quantum confinement effect. This finding shows the importance of the local environment on magnetic properties of the dopants in semiconductor nanostructures.

Published

2016

4. Geometric and compositional influences on spin-orbit induced circulating currents in nanostructures

Author

van Bree, J., Silov, A. Yu., Koenraad, P. M., and Flatté, M. E.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Circulating orbital currents, originating from the spin-orbit interaction, are calculated for semiconductor nanostructures in the shape of spheres, disks, spherical shells and rings for the electron ground state with spin oriented along a symmetry axis. The currents and resulting orbital and spin magnetic moments, which combine to yield the effective electron g factor, are calculated using a recently introduced formalism that allows the relative contributions of different regions of the nanostructure to be identified. For all these spherically or cylindrically symmetric hollow or solid nanostructures, independent of material composition and whether the boundary conditions are hard or soft, the dominant orbital current originates from intermixing of valence band states in the electron ground state, circulates within the nanostructure, and peaks approximately halfway between the center and edge of the nanostructure in the plane perpendicular to the spin orientation. For a specific material composition and confinement character, the confinement energy and orbital moment are determined by a single size-dependent parameter for spherically symmetrical nanostructures, whereas they can be independently tuned for cylindrically symmetric nanostructures., Comment: 22 pages, 20 figures

Published

2014

5. Spin-orbit-induced circulating currents in a semiconductor nanostructure

Author

van Bree, J., Silov, A. Yu., Koenraad, P. M., and Flatté, M. E.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Circulating orbital currents produced by the spin-orbit interaction for a single electron spin in a quantum dot are explicitly evaluated at zero magnetic field, along with their effect on the total magnetic moment (spin and orbital) of the electron spin. The currents are dominated by coherent superpositions of the conduction and valence envelope functions of the electronic state, are smoothly varying within the quantum dot, and are peaked roughly halfway between the dot center and edge. Thus the spatial structure of the spin contribution to the magnetic moment (which is peaked at the dot center) differs greatly from the spatial structure of the orbital contribution. Even when the spin and orbital magnetic moments cancel (for $g=0$) the spin can interact strongly with local magnetic fields, e.g. from other spins, which has implications for spin lifetimes and spin manipulation., Comment: 6 pages, 3 figures

Published

2014

6. Fröhlich interaction dominated by a single phonon mode in CsPbBr3

Author

Iaru, Claudiu M., Brodu, Annalisa, van Hoof, Niels J. J., ter Huurne, Stan E. T., Buhot, Jonathan, Montanarella, Federico, Buhbut, Sophia, Christianen, Peter C. M., Vanmaekelbergh, Daniël, de Mello Donega, Celso, Rivas, Jaime Gòmez, Koenraad, Paul M., and Silov, Andrei Yu.

Published

2021

7. Magnetic Anisotropy of Single Mn Acceptors in GaAs in an External Magnetic Field

Author

Bozkurt, M., Mahani, M. R., Studer, P., Tang, J. -M., Schofield, S. R., Curson, N. J., Flatte, M. E, Silov, A. Yu., Hirjibehedin, C. F., Canali, C. M., and Koenraad, P. M.

Subjects

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

Abstract

We investigate the effect of an external magnetic field on the physical properties of the acceptor hole states associated with single Mn acceptors placed near the (110) surface of GaAs. Crosssectional scanning tunneling microscopy images of the acceptor local density of states (LDOS) show that the strongly anisotropic hole wavefunction is not significantly affected by a magnetic field up to 6 T. These experimental results are supported by theoretical calculations based on a tightbinding model of Mn acceptors in GaAs. For Mn acceptors on the (110) surface and the subsurfaces immediately underneath, we find that an applied magnetic field modifies significantly the magnetic anisotropy landscape. However the acceptor hole wavefunction is strongly localized around the Mn and the LDOS is quite independent of the direction of the Mn magnetic moment. On the other hand, for Mn acceptors placed on deeper layers below the surface, the acceptor hole wavefunction is more delocalized and the corresponding LDOS is much more sensitive on the direction of the Mn magnetic moment. However the magnetic anisotropy energy for these magnetic impurities is large (up to 15 meV), and a magnetic field of 10 T can hardly change the landscape and rotate the direction of the Mn magnetic moment away from its easy axis. We predict that substantially larger magnetic fields are required to observe a significant field-dependence of the tunneling current for impurities located several layers below the GaAs surface., Comment: None

Published

2013

8. g-Factors and diamagnetic coefficients of electrons, holes and excitons in InAs/InP quantum dots

Author

van Bree, J., Silov, A. Yu., Koenraad, P. M., Flatté, M. E., and Pryor, C. E.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

The electron, hole, and exciton g-factors and diamagnetic coefficients have been calculated using envelope-function theory for cylindrical InAs/InP quantum dots in the presence of a magnetic field parallel to the dot symmetry axis. A clear connection is established between the electron g-factor and the amplitude of the those valence-state envelope functions which possess non-zero orbital momentum associated with the envelope function. The dependence of the exciton diamagnetic coefficients on the quantum dot height is found to correlate with the energy dependence of the effective mass. Calculated exciton g-factor and diamagnetic coefficients, constructed from the values associated with the electron and hole constituents of the exciton, match experimental data well, however including the Coulomb interaction between the electron and hole states improves the agreement. Remote-band contributions to the valence-band electronic structure, included perturbatively, reduce the agreement between theory and experiment., Comment: 12 pages, 7 figures

Published

2011

9. Size dependent exciton g-factor in self-assembled InAs/InP quantum dots

Author

Kleemans, N. A. J. M., van Bree, J., Bozkurt, M., van Veldhoven, P. J., Nouwens, P. A., Nötzel, R., Silov, A. Yu., Flatté, M. E., and Koenraad, P. M.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

We have studied the size dependence of the exciton g-factor in self-assembled InAs/InP quantum dots. Photoluminescence measurements on a large ensemble of these dots indicate a multimodal height distribution. Cross-sectional Scanning Tunneling Microscopy measurements have been performed and support the interpretation of the macro photoluminescence spectra. More than 160 individual quantum dots have systematically been investigated by analyzing single dot magneto-luminescence between 1200nm and 1600 nm. We demonstrate a strong dependence of the exciton g-factor on the height and diameter of the quantum dots, which eventually gives rise to a sign change of the g-factor. The observed correlation between exciton g-factor and the size of the dots is in good agreement with calculations. Moreover, we find a size dependent anisotropy splitting of the exciton emission in zero magnetic field., Comment: 15 pages, 7 figures

Published

2008

10. Spatial structure of Mn-Mn acceptor pairs in GaAs

Author

Yakunin, A. M., Silov, A. Yu., Koenraad, P. M., Tang, J. -M., Flatté, M. E., Van Roy, W., De Boeck, J., and Wolter, J. H.

Subjects

Condensed Matter - Materials Science

Abstract

The local density of states of Mn-Mn pairs in GaAs is mapped with cross-sectional scanning tunneling microscopy and compared with theoretical calculations based on envelope-function and tight-binding models. These measurements and calculations show that the crosslike shape of the Mn-acceptor wavefunction in GaAs persists even at very short Mn-Mn spatial separations. The resilience of the Mn-acceptor wave-function to high doping levels suggests that ferromagnetism in GaMnAs is strongly influenced by impurity-band formation. The envelope-function and tight-binding models predict similarly anisotropic overlaps of the Mn wave-functions for Mn-Mn pairs. This anisotropy implies differing Curie temperatures for Mn $\delta$-doped layers grown on differently oriented substrates., Comment: 4 pages, 4 figures

Published

2005

11. Charge manipulation and imaging of the Mn acceptor state in GaAs by Cross-sectional Scanning Tunneling Microscopy

Author

Yakunin, A. M., Silov, A. Yu., Koenraad, P. M., Wolter, J. H., Van Roy, W., and De Boeck, J.

Subjects

Condensed Matter - Materials Science

Abstract

An individual Mn acceptor in GaAs is mapped by Cross-sectional Scanning Tunneling Microscopy (X-STM) at room temperature and a strongly anisotropic shape of the acceptor state is observed. An acceptor state manifests itself as a cross-like feature which we attribute to a valence hole weakly bound to the Mn ion forming the (Mn$^{2+}3d^5+hole$) complex. We propose that the observed anisotropy of the Mn acceptor wave-function is due to the d-wave present in the acceptor ground state., Comment: Proceedings of the SIMD-4 conference. Hawaii, USA (December 1-5, 2003)

Published

2004

12. Spatial structure of an individual Mn acceptor in GaAs

Author

Yakunin, A. M., Silov, A. Yu., Koenraad, P. M., Wolter, J. H., Van Roy, W., De Boeck, J., Tang, J. -M., and Flatte, M. E.

Subjects

Condensed Matter - Materials Science

Abstract

The wave function of a hole bound to an individual Mn acceptor in GaAs is spatially mapped by scanning tunneling microscopy at room temperature and an anisotropic, cross-like shape is observed. The spatial structure is compared with that from an envelope-function, effective mass model, and from a tight-binding model. This demonstrates that anisotropy arising from the cubic symmetry of the GaAs crystal produces the cross-like shape for the hole wave-function. Thus the coupling between Mn dopants in GaMnAs mediated by such holes will be highly anisotropic., Comment: 3 figures, submitted to PRL

Published

2004

13. Imaging of the [Mn2+(3d5) + hole] complex in GaAs by Cross-sectional Scanning Tunneling Microscopy

Author

Yakunin, A. M., Silov, A. Yu., Koenraad, P. M., Van Roy, W., De Boeck, J., and Wolter, J. H.

Subjects

Condensed Matter - Materials Science

Abstract

We present results on the direct spatial mapping of the wave-function of a hole bound to a Mn acceptor in GaAs. To investigate individual Mn dopants at the atomic scale in both ionized and neutral configurations, we used a room temperature cross-sectional scanning tunneling microscope (X-STM). We found that in the neutral configuration manganese manifests itself as an anisotropic cross-like feature. We attribute this feature to a hole weakly bound to the Mn ion forming the [Mn2+(3d5) + hole] complex., Comment: 4 pages, 7 figures

Published

2003

14. Electromembrane recycling of highly mineralized alkaline blowdown water from evaporative water treatment plants at thermal power stations

Author

Chichirova, N. D., Chichirov, A. A., Lyapin, A. I., Minibaev, A. I., Silov, I. Yu., and Tolmachev, L. I.

Published

2016

15. Development of methods for the decrease in instability of recycling water of conjugated closed-circuit cooling system of HPP

Author

Chichirov, A. A., Chichirova, N. D., Vlasov, S. M., Lyapin, A. I., Misbakhov, R. Sh., Silov, I. Yu., and Murtazin, A. I.

Published

2016

16. Fröhlich interaction dominated by a single phonon mode in CsPbBr3

Author

Iaru, Claudiu M, Brodu, Annalisa, van Hoof, Niels J J, Ter Huurne, Stan E T, Buhot, Jonathan, Montanarella, Federico, Buhbut, Sophia, Christianen, Peter C M, Vanmaekelbergh, Daniël, de Mello Donega, Celso, Rivas, Jaime Gòmez, Koenraad, Paul M, Silov, Andrei Yu, Iaru, Claudiu M, Brodu, Annalisa, van Hoof, Niels J J, Ter Huurne, Stan E T, Buhot, Jonathan, Montanarella, Federico, Buhbut, Sophia, Christianen, Peter C M, Vanmaekelbergh, Daniël, de Mello Donega, Celso, Rivas, Jaime Gòmez, Koenraad, Paul M, and Silov, Andrei Yu

Abstract

The excellent optoelectronic performance of lead halide perovskites has generated great interest in their fundamental properties. The polar nature of the perovskite lattice means that electron-lattice coupling is governed by the Fröhlich interaction. Still, considerable ambiguity exists regarding the phonon modes that participate in this crucial mechanism. Here, we use multiphonon Raman scattering and THz time-domain spectroscopy to investigate Fröhlich coupling in CsPbBr3. We identify a longitudinal optical phonon mode that dominates the interaction, and surmise that this mode effectively defines exciton-phonon scattering in CsPbBr3, and possibly similar materials. It is additionally revealed that the observed strength of the Fröhlich interaction is significantly higher than the expected intrinsic value for CsPbBr3, and is likely enhanced by carrier localization in the colloidal perovskite nanocrystals. Our experiments also unearthed a dipole-related dielectric relaxation mechanism which may impact transport properties.

Published

2021

17. Fröhlich interaction dominated by a single phonon mode in CsPbBr3

Author

Sub Condensed Matter and Interfaces, Condensed Matter and Interfaces, Iaru, Claudiu M, Brodu, Annalisa, van Hoof, Niels J J, Ter Huurne, Stan E T, Buhot, Jonathan, Montanarella, Federico, Buhbut, Sophia, Christianen, Peter C M, Vanmaekelbergh, Daniël, de Mello Donega, Celso, Rivas, Jaime Gòmez, Koenraad, Paul M, Silov, Andrei Yu, Sub Condensed Matter and Interfaces, Condensed Matter and Interfaces, Iaru, Claudiu M, Brodu, Annalisa, van Hoof, Niels J J, Ter Huurne, Stan E T, Buhot, Jonathan, Montanarella, Federico, Buhbut, Sophia, Christianen, Peter C M, Vanmaekelbergh, Daniël, de Mello Donega, Celso, Rivas, Jaime Gòmez, Koenraad, Paul M, and Silov, Andrei Yu

Published

2021

18. Non-Lorentzian LDOS in coupled photonic crystal cavities probed by near- and far-field emission

Author

Pellegrino, Daniele, Balestri, Dario, Granchi, Nicoletta, Ciardi, Matteo, Intonti, Francesca, Pagliano, Francesco, Silov, Andrei Yu., Otten, Frank W., Wu, Tong, Vynck, Kevin, Lalanne, Philippe, Fiore, Andrea, and Gurioli, Massimo

Subjects

Physics::Optics

Abstract

Recent theories proposed a deep revision of the well-known expression for the Purcell factor, with counterintuitive effects, such as complex modal volumes and non-Lorentzian local density of states. We experimentally demonstrate these predictions in tailored coupled cavities on photonic crystal slabs with relatively low optical losses. Near-field hyperspectral imaging of quantum dot photoluminescence is proved to be a direct tool for measuring local density of states lineshapes. The experimental results clearly evidence non-Lorentzian character, in perfect agreement with numerical and theoretical predictions. Spatial maps with deep subwavelength resolution of the real and imaginary parts of the complex mode volumes are presented. The generality of these results is confirmed by an additional set of far-field and time-resolved experiments in cavities with larger modal volume and higher quality factors.

Published

2020

19. Circular polarization of luminescence caused by the current in quantum wells

Author

Averkiev, N. S. and Silov, A. Yu.

Published

2005

20. Thermodynamic properties of mixed fuel combustion products

Author

Shigapov, A. B., Silov, I. Yu., and Shigapov, A. A.

Published

2010

21. Sign-reversal electron magnetization in Mn-doped semiconductor structures

Author

Kokurin, I. A., primary, Silov, A. Yu., additional, and Averkiev, N. S., additional

Published

2020

22. Mode-field switching of nanolasers

Author

Pellegrino, Daniele, primary, Busi, Pierre, additional, Pagliano, Francesco, additional, Romeira, Bruno, additional, van Otten, Frank W., additional, Silov, Andrei Yu., additional, and Fiore, Andrea, additional

Published

2020

23. Non-Lorentzian Local Density of States in Coupled Photonic Crystal Cavities Probed by Near- and Far-Field Emission

Author

Pellegrino, Daniele, primary, Balestri, Dario, additional, Granchi, Nicoletta, additional, Ciardi, Matteo, additional, Intonti, Francesca, additional, Pagliano, Francesco, additional, Silov, Andrei Yu., additional, Otten, Frank W., additional, Wu, Tong, additional, Vynck, Kevin, additional, Lalanne, Philippe, additional, Fiore, Andrea, additional, and Gurioli, Massimo, additional

Published

2020

24. Dispersion of the electron g factor anisotropy in InAs/InP self-assembled quantum dots.

Author

Belykh, V. V., Yakovlev, D. R., Schindler, J. J., van Bree, J., Koenraad, P. M., Averkiev, N. S., Bayer, M., and Silov, A. Yu.

Subjects

QUANTUM dots, ELECTRONS, ANISOTROPY, MOLECULAR self-assembly, MAGNETIC fields, SPECTRUM analysis

Abstract

The electron g factor in an ensemble of InAs/InP quantum dots with emission wavelengths around 1.4 μm is measured using time-resolved pump-probe Faraday rotation spectroscopy in different magnetic field orientations. Thereby, we can extend recent single dot photoluminescence measurements significantly towards lower optical transition energies through 0.86 eV. This allows us to obtain detailed insight into the dispersion of the recently discovered g factor anisotropy in these infrared emitting quantum dots. We find with decreasing transition energy over a range of 50 meV a strong enhancement of the g factor difference between magnetic field normal and along the dot growth axis, namely, from 1 to 1.7. We argue that the g factor cannot be solely determined by the confinement energy, but the dot asymmetry underlying this anisotropy therefore has to increase with increasing dot size. [ABSTRACT FROM AUTHOR]

Published

2016

25. Blue Stark shift in composite quantum wells

Author

Silov, A. Yu., primary, Aneeshkumar, B., additional, Leys, M. R., additional, Vonk, H., additional, and Wolter, J. H., additional

Published

2001

26. Active tuning of the g -tensor in InGaAs/GaAs quantum dots via strain

Author

Tholen, H.M.G.A., Wildmann, J.S., Rastelli, A., Trotta, R., Pryor, C.E., Zallo, E., Schmidt, O.G., Koenraad, P.M., Silov, A. Yu, Tholen, H.M.G.A., Wildmann, J.S., Rastelli, A., Trotta, R., Pryor, C.E., Zallo, E., Schmidt, O.G., Koenraad, P.M., and Silov, A. Yu

Abstract

Dynamic control over the full g-tensor in individual InGaAs/GaAs self-assembled quantum dots is achieved by inducing external strain via a piezoelectric actuator. The full g-tensor is obtained by measuring in different geometries with different angles between an externally applied magnetic field and the quantum dot growth axes. A large decrease in the out-of-plane hole g-factor with strain is observed, whereas the other components are found to be less sensitive. To further investigate this, a numerical model based on eight-band k.p-theory is used and an excellent agreement with the experimental results is established, both qualitatively and quantitatively. Furthermore, the calculations reveal the origin of the observed large change in the out-of-plane hole g-factor to be the increase in heavy-hole light-hole splitting under compressive stress.

Published

2019

27. Fröhlich interaction dominated by a single phonon mode in CsPbBr3.

Author

Iaru, Claudiu M., Brodu, Annalisa, van Hoof, Niels J. J., ter Huurne, Stan E. T., Buhot, Jonathan, Montanarella, Federico, Buhbut, Sophia, Christianen, Peter C. M., Vanmaekelbergh, Daniël, de Mello Donega, Celso, Rivas, Jaime Gòmez, Koenraad, Paul M., and Silov, Andrei Yu.

Subjects

PHONONS, RAMAN scattering, ELECTRON-phonon interactions, PHONON scattering, DIELECTRIC relaxation, LEAD halides, OPTICAL properties

Abstract

The excellent optoelectronic performance of lead halide perovskites has generated great interest in their fundamental properties. The polar nature of the perovskite lattice means that electron-lattice coupling is governed by the Fröhlich interaction. Still, considerable ambiguity exists regarding the phonon modes that participate in this crucial mechanism. Here, we use multiphonon Raman scattering and THz time-domain spectroscopy to investigate Fröhlich coupling in CsPbBr3. We identify a longitudinal optical phonon mode that dominates the interaction, and surmise that this mode effectively defines exciton-phonon scattering in CsPbBr3, and possibly similar materials. It is additionally revealed that the observed strength of the Fröhlich interaction is significantly higher than the expected intrinsic value for CsPbBr3, and is likely enhanced by carrier localization in the colloidal perovskite nanocrystals. Our experiments also unearthed a dipole-related dielectric relaxation mechanism which may impact transport properties. Electron-phonon interaction is essential for understanding electronic and optical properties of lead halide perovskites. Here, using multiphonon Raman scattering and THz time-domain spectroscopy, the authors characterize the full phonon spectrum of CsPbBr3 and identify a single phonon mode that dominates electron-phonon scattering. [ABSTRACT FROM AUTHOR]

Published

2021

28. Optical investigation of the two-dimensional hole energy spectrum in GaAs/AlxGa1-xAs heterojunctions

Author

Silov, A. Yu., Asnin, V.M., Averkiev, N.S., Haverkort, J.E.M., Weegels, L.M., Weimann, G., and Wolter, J.H.

Subjects

Optical spectrometers -- Observations, Spectrum analysis -- Usage, Physics

Abstract

The results of the investigation of optical studies on the energy spectrum of a two-dimensional hole gas (2DHG) in a GaAs/Al(sub x)Ga(sub 1-x)As structure, considering the photoluminescence (PL) line shape in the 2DHG as a function of temperature, is in good agreement with the theoretical predictions. The real bond structure and the hole-hole final-state interaction is considered in the calculation of the PL from the 2DHG as a function of temperature.

Published

1993

29. Active tuning of the g -tensor in InGaAs/GaAs quantum dots via strain

Author

Tholen, H. M. G. A., primary, Wildmann, J. S., additional, Rastelli, A., additional, Trotta, R., additional, Pryor, C. E., additional, Zallo, E., additional, Schmidt, O. G., additional, Koenraad, P. M., additional, and Silov, A. Yu., additional

Published

2019

30. Strong Carrier-Phonon Coupling in Lead Halide Perovskite Nanocrystals

Author

Iaru, Claudiu M, Geuchies, Jaco J, Koenraad, Paul M, Vanmaekelbergh, Daniël, Silov, Andrei Yu, Condensed Matter and Interfaces, and Sub Condensed Matter and Interfaces

Subjects

nanocrystals, Frohlich interaction, carrier localization, photoluminescence, phonon, perovskite, crystal phase

Abstract

We highlight the importance of carrier-phonon coupling in inorganic lead halide perovskite nanocrystals. The low-temperature photoluminescence (PL) spectrum of CsPbBr3 has been investigated under a nonresonant and a nonstandard, quasi-resonant excitation scheme, and phonon replicas of the main PL band have been identified as due to the Fröhlich interaction. The energy of longitudinal optical (LO) phonons has been determined from the separation of the zero phonon band and phonon replicas. We reason that the observed LO phonon coupling can only be related to an orthorhombically distorted crystal structure of the perovskite nanocrystals. Additionally, the strength of carrier-phonon coupling has been characterized using the ratio between the intensities of the first phonon replica and the zero-phonon band. PL emission from localized versus delocalized carriers has been identified as the source of the observed discrepancies between the LO phonon energy and phonon coupling strength under quasi-resonant and nonresonant excitation conditions, respectively.

Published

2017

31. Strong Carrier-Phonon Coupling in Lead Halide Perovskite Nanocrystals

Author

Condensed Matter and Interfaces, Sub Condensed Matter and Interfaces, Iaru, Claudiu M, Geuchies, Jaco J, Koenraad, Paul M, Vanmaekelbergh, Daniël, Silov, Andrei Yu, Condensed Matter and Interfaces, Sub Condensed Matter and Interfaces, Iaru, Claudiu M, Geuchies, Jaco J, Koenraad, Paul M, Vanmaekelbergh, Daniël, and Silov, Andrei Yu

Published

2017

32. Strong Carrier–Phonon Coupling in Lead Halide Perovskite Nanocrystals

Author

Iaru, Claudiu M., primary, Geuchies, Jaco J., additional, Koenraad, Paul M., additional, Vanmaekelbergh, Daniël, additional, and Silov, Andrei Yu., additional

Published

2017

33. Strain-inducedg-factor tuning in single InGaAs/GaAs quantum dots

Author

Tholen, H. M. G. A., primary, Wildmann, J. S., additional, Rastelli, A., additional, Trotta, R., additional, Pryor, C. E., additional, Zallo, E., additional, Schmidt, O. G., additional, Koenraad, P. M., additional, and Silov, A. Yu., additional

Published

2016

34. Optical properties of strained wurtzite gallium phosphide nanowires

Author

Greil, J. (author), Assali, S. (author), Isono, Y. (author), Belabbes, A. (author), Bechstedt, F. (author), Valega MacKenzie, F. O. (author), Silov, A. Yu (author), Bakkers, E.P.A.M. (author), Haverkort, J.E.M. (author), Greil, J. (author), Assali, S. (author), Isono, Y. (author), Belabbes, A. (author), Bechstedt, F. (author), Valega MacKenzie, F. O. (author), Silov, A. Yu (author), Bakkers, E.P.A.M. (author), and Haverkort, J.E.M. (author)

Abstract

Wurtzite gallium phosphide (WZ GaP) has been predicted to exhibit a direct bandgap in the green spectral range. Optical transitions, however, are only weakly allowed by the symmetry of the bands. While efficient luminescence has been experimentally shown, the nature of the transitions is not yet clear. Here we apply tensile strain up to 6% and investigate the evolution of the photoluminescence (PL) spectrum of WZ GaP nanowires (NWs). The pressure and polarization dependence of the emission together with a theoretical analysis of strain effects is employed to establish the nature and symmetry of the transitions. We identify the emission lines to be related to localized states with significant admixture of Δ7c symmetry and not exclusively related to the Δ8c conduction band minimum (CBM). The results emphasize the importance of strongly bound state-related emission in the pseudodirect semiconductor WZ GaP and contribute significantly to the understanding of the optoelectronic properties of this novel material., QN/Bakkers Lab

Published

2016

35. Optical properties of strained wurtzite gallium phosphide nanowires

Author

Greil, J., Assali, S., Isono, Y., Belabbes, A., Bechstedt, F., Valega MacKenzie, F.O., Silov, A. Yu, Bakkers, E.P.A.M., Haverkort, J.E.M., Greil, J., Assali, S., Isono, Y., Belabbes, A., Bechstedt, F., Valega MacKenzie, F.O., Silov, A. Yu, Bakkers, E.P.A.M., and Haverkort, J.E.M.

Abstract

Wurtzite gallium phosphide (WZ GaP) has been predicted to exhibit a direct bandgap in the green spectral range. Optical transitions, however, are only weakly allowed by the symmetry of the bands. While efficient luminescence has been experimentally shown, the nature of the transitions is not yet clear. Here we apply tensile strain up to 6% and investigate the evolution of the photoluminescence (PL) spectrum of WZ GaP nanowires (NWs). The pressure and polarization dependence of the emission together with a theoretical analysis of strain effects is employed to establish the nature and symmetry of the transitions. We identify the emission lines to be related to localized states with significant admixture of Δ7c symmetry and not exclusively related to the Δ8c conduction band minimum (CBM). The results emphasize the importance of strongly bound state-related emission in the pseudodirect semiconductor WZ GaP and contribute significantly to the understanding of the optoelectronic properties of this novel material.

Published

2016

36. Strain-induced g-factor tuning in single InGaAs/GaAs quantum dots

Author

Tholen, H.M.G.A., Wildmann, J.S., Rastelli, A., Trotta, R., Pryor, C.E., Zallo, E., Schmidt, O.G., Koenraad, P.M., Silov, A. Yu, Tholen, H.M.G.A., Wildmann, J.S., Rastelli, A., Trotta, R., Pryor, C.E., Zallo, E., Schmidt, O.G., Koenraad, P.M., and Silov, A. Yu

Abstract

The tunability of the exciton g factor in InGaAs quantum dots using compressive biaxial stress applied by piezoelectric actuators is investigated. We find a clear relation between the exciton g factor and the applied stress. A linear decrease of the g factor with compressive biaxial strain is observed consistently in all investigated dots. A connection is established between the response of the exciton g factor to the voltage applied to the piezoelectric actuator and the response of the quantum dot emission energy. We employ a numerical model based on eight-band k⋅p theory to calculate the exciton g factor of a typical dot as a function of strain and a good agreement with our experiments is found. Our calculations reveal that the change in exciton g factor is dominated by the contribution of the valence band and originates from increased heavy hole light hole splitting when applying external stress.

Published

2016

37. Giant Efficiency of Fröhlich Interaction in Self-Assembled Quantum Dots

Author

MINNAERT, A. W. E., SILOV, A. Yu., HAVERKORT, J. E. M., and WOLTER, J. H.

Subjects

Condensed Matter::Materials Science, Turk. J. Phys.,23,(1999),631-634. Full text: pdf Other articles published in the same issue: Turk. J. Phys.,vol.23,iss.4, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect

Abstract

A transition is being observed from an inhomogeneously broadened photoluminescence band under non-resonant excitation of InAs/GaAs Self-Assembled quantum Dots (SAD's) into up to five phonon-assisted emission bands under selective excitation. A similar effect is obtained from photoluminescence excitation experiments (PLE). We interpret the phonon-assisted PL as being due to a giant efficiency of the Fröhlich interaction between an exciton polarized by strain in the SAD and LO-phonons. The model is consistent with the pronounced p-type polarization of the emission observed in our cleaved-side PL-measurements. Further support is obtained from our calculations in which a different localization of the electrons and holes is assumed: The limiting case of this theoretical framework gives a Huang-Rhys factor of \sim 0.1, which is the same order of magnitude as the experimental value.

Published

2014

38. Optical spectroscopy of single beryllium acceptors in GaAs/AlGaAs quantum well

Author

Petrov, P. V., primary, Kokurin, I. A., additional, Klimko, G. V., additional, Ivanov, S. V., additional, Ivánov, Yu. L., additional, Koenraad, P. M., additional, Silov, A. Yu., additional, and Averkiev, N. S., additional

Published

2016

39. Optical orientation of spins in GaAs:Mn/AlGaAs quantum wells via impurity-to-band excitation

Author

Petrov, P. V., primary, Kokurin, I. A., additional, Ivanov, Yu. L., additional, Averkiev, N. S., additional, Campion, R. P., additional, Gallagher, B. L., additional, Koenraad, P. M., additional, and Silov, A. Yu., additional

Published

2016

40. Optical Properties of Strained Wurtzite Gallium Phosphide Nanowires

Author

Greil, J., primary, Assali, S., additional, Isono, Y., additional, Belabbes, A., additional, Bechstedt, F., additional, Valega Mackenzie, F. O., additional, Silov, A. Yu., additional, Bakkers, E. P. A. M., additional, and Haverkort, J. E. M., additional

Published

2016

41. Anisotropy of electron and holegtensors of quantum dots: An intuitive picture based on spin-correlated orbital currents

Author

van Bree, J., primary, Silov, A. Yu., additional, van Maasakkers, M. L., additional, Pryor, C. E., additional, Flatté, M. E., additional, and Koenraad, P. M., additional

Published

2016

42. Optical control over electron g factor and spin decoherence in (In,Ga)As/GaAs quantum dots.

Author

Rietjens, J. H. H., Quax, G. W. W., Bosco, C. A. C., Nötzel, R., Silov, A. Yu., and Koopmans, B.

Abstract

We have studied the dependence of the electron in-plane g factor and spin decoherence time on the built-in electric field (Ei) at the position of a single layer of self-assembled (In,Ga)As/GaAs quantum dots (QDs). Control of Ei is achieved by inducing screening charges in a p-i-n GaAs matrix with a continuous wave (cw) laser. Using a time-resolved pump-probe technique to measure the spin dynamics via the magneto-optical Kerr effect, we observe a large hole spin decoherence time of 440 ps. Measurements as function of the cw laser power and, thus, of Ei show that the electron spin decay time in the QDs depends strongly on Ei and decreases from 310 to 110 ps with increasing Ei. We attribute this effect to increasing tunneling rates of electrons out of the QDs at high Ei. We observe a slight increase of the electron g factor from 0.40±0.03 to 0.46±0.04 with increasing Ei, which might be a result of a changing wavefunction as a result of a different confinement potential due to Ei. [ABSTRACT FROM AUTHOR]

Published

2008

43. Separate electron-hole confinement in composite InAsyP1-y/GaxIn1-xAs quantum wells

Author

Silov, Andrei Yu, Nair Aneeshkumar, B., Leys, M.R., Averkiev, N.S., Christianen, P.C.M., Wolter, J.H., and Zhores, I.A.

Published

2003

44. Geometric and compositional influences on spin-orbit induced circulating currents in nanostructures

Author

van Bree, J., primary, Silov, A. Yu., additional, Koenraad, P. M., additional, and Flatté, M. E., additional

Published

2014

45. Spin-Orbit-Induced Circulating Currents in a Semiconductor Nanostructure

Author

van Bree, J., primary, Silov, A. Yu., additional, Koenraad, P. M., additional, and Flatté, M. E., additional

Published

2014

46. Controlling mode degeneracy in a photonic crystal nanocavity with infiltrated liquid crystal

Author

Wang, Bowen, Dündar, Mehmet A, Silov, Andrei Yu, Nötzel, Richard, Karouta, Fouad, He, Sailing, van der Heijden, Rob W., Wang, Bowen, Dündar, Mehmet A, Silov, Andrei Yu, Nötzel, Richard, Karouta, Fouad, He, Sailing, and van der Heijden, Rob W.

Abstract

We demonstrate the control of the mode degeneracy when a liquid crystal (LC) is infiltrated into an InGaAsP membrane photonic crystal nanocavity with embedded InAs quantum dots. Mode splitting exists in the anisotropic nematic LC state, and not in the unfilled or isotropic LC state. The degeneracy lifting of the quadrupole mode is attributed to the different interactions of the two orthogonal basis modes of the degenerate mode with the two components of the refractive index of the LC. The interpretation is supported by the quantitative agreement between the experimental results and the three-dimensional finite-difference time-domain computations.

Published

2010

47. Birefringence-induced mode-dependent tuning of liquid crystal infiltrated InGaAsP photonic crystal nanocavities

Author

Dundar, Mehmet A, Kicken, H H J E, Silov, A Yu, Notzel, Richard, Karouta, Fouad, Salemink, H W M, van der Heijden, Rob W., Dundar, Mehmet A, Kicken, H H J E, Silov, A Yu, Notzel, Richard, Karouta, Fouad, Salemink, H W M, and van der Heijden, Rob W.

Abstract

Mode-dependent shifts of resonant frequencies of cavities in liquid crystal (LC) infiltrated planar photonic crystals (PhC) are experimentally observed when the temperature is varied across the LC ordering transition. The shifts can be in opposite directions, even for two very similar nearly degenerate modes. The behavior is attributed to the different interactions of the modes with the two components of the refractive index of the LC infill and directly demonstrates that at least a substantial amount of the LC is oriented perpendicular to the PhC-hole axis.

Published

2009

48. Photoluminescence enhancement in thin films of PbSe nanocrystals

Author

Christova, C. G., Stouwdam, J. W., Eijkemans, T. J., Silov, A. Yu., van der Heijden, R. W., Kemerink, M., Janssen, R. A. J., Salemink, H. W. M., Christova, C. G., Stouwdam, J. W., Eijkemans, T. J., Silov, A. Yu., van der Heijden, R. W., Kemerink, M., Janssen, R. A. J., and Salemink, H. W. M.

Abstract

Remarkable photoluminescence enhancement (PLE) in submonolayer films of PbSe nanocrystals (NCs) upon continuous illumination was observed. The intensity increase from films on InP substrates was highest in vacuum, while for films on Si/SiO(2) substrates the PLE was stronger in air. The magnitude of the PLE was found to depend on the excitation intensity, being higher for a weaker irradiation power. The possible mechanisms behind the phenomenon of the PLE are discussed and it is suggested to originate mainly from charge trapping outside the NCs core. (C) 2008 American Institute of Physics., Funding Agencies|Ministry of Economic Affairs; NanoNed; Interreg program (OLED)

Published

2008

49. Magnetic anisotropy of single Mn acceptors in GaAs in an external magnetic field

Author

Bozkurt, M., primary, Mahani, M. R., additional, Studer, P., additional, Tang, J.-M., additional, Schofield, S. R., additional, Curson, N. J., additional, Flatté, M. E., additional, Silov, A. Yu., additional, Hirjibehedin, C. F., additional, Canali, C. M., additional, and Koenraad, P. M., additional

Published

2013

50. Anisotropy of electron and hole g tensors of quantum dots: An intuitive picture based on spin-correlated orbital currents.

Author

van Bree, J., Silov, A. Yu., van Maasakkers, M. L., Pryor, C. E., Flatté, M. E., and Koenraad, P. M.

Subjects

*QUANTUM dots, *NUCLEAR spin, *ELECTRIC currents, *MAGNETIC fields, *MAGNETIC moments

Abstract

Using single spins in semiconductor quantum dots as qubits requires full control over the spin state. As the g tensor provides the coupling in a Hamiltonian between a spin and an external magnetic field, a deeper understanding of the g tensor underlies magnetic-field control of the spin. The g tensor is affected by the presence of spin-correlated orbital currents, of which the spatial structure has been recently clarified. Here we extend that framework to investigate the influence of the shape of quantum dots on the anisotropy of the electron g tensor.We find that the spin-correlated orbital currents form a simple current loop perpendicular to the magnetic moment's orientation. The current loop is therefore directly sensitive to the shape of the nanostructure: for cylindrical quantum dots, the electron g-tensor anisotropy is mainly governed by the aspect ratio of the dots. Through a systematic experimental study of the size dependence of the separate electron and hole g tensors of InAs/InP quantum dots, we have validated this picture. Moreover, we find that through size engineering it is possible to independently change the sign of the in-plane and growth direction electron g factors. The hole g tensor is found to be strongly anisotropic and very sensitive to the radius and elongation. The comparable importance of itinerant and localized currents to the hole g tensor complicates the analysis relative to the electron g tensor. [ABSTRACT FROM AUTHOR]

Published

2016