Search

Your search keyword '"Karczewski, Grzegorz"' showing total 211 results
Start Over Author "Karczewski, Grzegorz"
211 results on '"Karczewski, Grzegorz"'

1. Milliwatt terahertz harmonic generation from topological insulator metamaterials

Author

Tielrooij, Klaas-Jan, Principi, Alessandro, Reig, David Saleta, Block, Alexander, Varghese, Sebin, Schreyeck, Steffen, Brunner, Karl, Karczewski, Grzegorz, Ilyakov, Igor, Ponomaryov, Oleksiy, de Oliveira, Thales V. A. G., Chen, Min, Deinert, Jan-Christoph, Carbonell, Carmen Gomez, Valenzuela, Sergio O., Molenkamp, Laurens W., Kiessling, Tobias, Astakhov, Georgy V., and Kovalev, Sergey

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

Achieving efficient, high-power harmonic generation in the terahertz spectral domain has technological applications, for example in sixth generation (6G) communication networks. Massless Dirac fermions possess extremely large terahertz nonlinear susceptibilities and harmonic conversion efficiencies. However, the observed maximum generated harmonic power is limited, because of saturation effects at increasing incident powers, as shown recently for graphene. Here, we demonstrate room-temperature terahertz harmonic generation in a Bi$_2$Se$_3$ topological insulator and topological-insulator-grating metamaterial structures with surface-selective terahertz field enhancement. We obtain a third-harmonic power approaching the milliwatt range for an incident power of 75 mW - an improvement by two orders of magnitude compared to a benchmarked graphene sample. We establish a framework in which this exceptional performance is the result of thermodynamic harmonic generation by the massless topological surface states, benefiting from ultrafast dissipation of electronic heat via surface-bulk Coulomb interactions. These results are an important step towards on-chip terahertz (opto)electronic applications.

Published
2022
Full Text
View/download PDF

2. Near-infrared emission from spatially indirect excitons in type II ZnTe/CdSe/(Zn,Mg)Te core/double-shell nanowires

Author

Wojnar, Piotr, Plachta, Jakub, Reszka, Anna, Lahnemann, Jonas, Kaleta, Anna, Kret, Slawomir, Baranowski, Piotr, Wojcik, Maciej, Kowalski, Bogdan J., Baczewski, Lech T., Karczewski, Grzegorz, and Wojtowicz, Tomasz

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

ZnTe/CdSe/(Zn,Mg)Te core/double-shell nanowires are grown by molecular beam epitaxy by employing the vapor-liquid-solid growth mechanism assisted with gold catalysts. A photoluminescence study of these structures reveals the presence of an optical emission in the near infrared. We assign this emission to the spatially indirect exciton recombination at the ZnTe/CdSe type II interface. This conclusion is confirmed by the observation of a significant blue-shift of the emission energy with an increasing excitation fluence induced by the electron-hole separation at the interface. Cathodoluminescence measurements reveal that the optical emission in the near infrared originates from nanowires and not from two dimensional residual deposits between them. Moreover, it is demonstrated that the emission energy in the near infrared depends on the average CdSe shell thickness and the average Mg concentration within the (Zn,Mg)Te shell. The main mechanism responsible for these changes is associated with the strain induced by the (Zn,Mg)Te shell in the entire core/shell nanowire heterostructure., Comment: 7 pages

Published
2021
Full Text
View/download PDF

3. Structural defects in MBE-grown CdTe-based heterojunctions for photovoltaic applications

Author

Wichrowska, Karolina, Wosinski, Tadeusz, Domagala, Jaroslaw Z., Kret, Slawomir, Chusnutdinow, Sergij, and Karczewski, Grzegorz

Subjects
Condensed Matter - Materials Science
Abstract

Structural defects in the p-ZnTe/i-CdTe/n-CdTe single-crystalline heterojunctions designed for photovoltaic applications have been investigated by transmission electron microscopy (TEM) and deep-level transient spectroscopy (DLTS). Lattice parameters and misfit strain in the undoped CdTe absorber layers of the heterojunctions, grown by the molecular-beam epitaxy technique on two different substrates, GaAs and CdTe, have been determined with high-resolution X-ray diffractometry. A dense network of misfit dislocations at the lattice-mismatched CdTe/GaAs and ZnTe/CdTe interfaces and numerous threading dislocations and stacking faults have been shown by the cross-sectional TEM imaging of the heterojunctions. The DLTS measurements revealed five deep-level traps in the heterojunctions grown on the GaAs substrates and only three of them in the heterojunctions grown on CdTe. One of the traps, showing the exponential capture kinetics of charge carriers, has been identified as associated with the double acceptor level of Cd vacancies in the CdTe absorber layers. All the other traps have been attributed to the electronic states of extended defects, presumably dislocations, on the grounds of their logarithmic capture kinetics. Two of these traps, displaying the largest values of their capture cross-section and the properties characteristic of bandlike electronic states, have been ascribed to the core states of dislocations. It is argued that they are most likely responsible for decreased lifetime of photo-excited carriers resulting in a low energy conversion efficiency of solar cells based on similarly grown heterojunctions.

Published
2019
Full Text
View/download PDF

4. Breaking crystalline symmetry of epitaxial SnTe films by strain

Author

Schreyeck, Steffen, Brunner, Karl, Molenkamp, Laurens W., Karczewski, Grzegorz, Schmitt, Martin, Sessi, Paolo, Vogt, Matthias, Wilfert, Stefan, Odobesko, Artem B., and Bode, Matthias

Subjects
Condensed Matter - Materials Science
Abstract

SnTe belongs to the recently discovered class of topological crystalline insulators. Here we study the formation of line defects which break crystalline symmetry by strain in thin SnTe films. Strained SnTe(111) films are grown by molecular beam epitaxy on lattice- and thermal expansion coefficient-mismatched CdTe. To analyze the structural properties of the SnTe films we applied {\em in-situ} reflection high energy electron diffraction, x-ray reflectometry, high resolution x-ray diffraction, reciprocal space mapping, and scanning tunneling microscopy. This comprehensive analytical approach reveals a twinned structure, tensile strain, bilayer surface steps and dislocation line defects forming a highly ordered dislocation network for thick films with local strains up to 31\% breaking the translational crystal symmetry., Comment: 15 pages, 4 figures

Published
2018
Full Text
View/download PDF

5. Mesoscopic transport in electrostatically-defined spin-full channels in quantum Hall ferromagnets

Author

Kazakov, Aleksandr, Simion, George, Lyanda-Geller, Yuli, Kolkovsky, Valery, Adamus, Zbigniew, Karczewski, Grzegorz, Wojtowicz, Tomasz, and Rokhinson, Leonid P.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

In this work we use electrostatic control of quantum Hall ferromagnetic transitions in CdMnTe quantum wells to study electron transport through individual domain walls (DWs) induced at a specific location. These DWs are formed due to hybridization of two counter-propagating edge states with opposite spin polarization. Conduction through DWs is found to be symmetric under magnetic field direction reversal, consistent with the helical nature of these DWs. We observe that long domain walls are in the insulating regime with localization length 4 - 6~$\mu$m. In shorter DWs the resistance saturates to a non-zero value at low temperatures. Mesoscopic resistance fluctuations in a magnetic field are investigated. The theoretical model of transport through impurity states within the gap induced by spin-orbit interactions agrees well with the experimental data. Helical DWs have required symmetry for the formation of synthetic p-wave superconductors. Achieved electrostatic control of a single helical domain wall is a milestone on the path to their reconfigurable network and ultimately to a demonstration of braiding of non-Abelian excitations., Comment: 5 pages and 5 figures in the main text + 5 pages and 9 figures in supplementary materials. New version is revised manuscript according to referees comments. New version doesn't contain any new data

Published
2017
Full Text
View/download PDF

6. Spin precession and spin waves in a chiral electron gas: beyond Larmor's theorem

Author

Karimi, Shahrzad, Baboux, Florent, Perez, Florent, Ullrich, Carsten A., Karczewski, Grzegorz, and Wojtowicz, Tomasz

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

Larmor's theorem holds for magnetic systems that are invariant under spin rotation. In the presence of spin-orbit coupling this invariance is lost and Larmor's theorem is broken: for systems of interacting electrons, this gives rise to a subtle interplay between the spin-orbit coupling acting on individual single-particle states and Coulomb many-body effects. We consider a quasi-two-dimensional, partially spin-polarized electron gas in a semiconductor quantum well in the presence of Rashba and Dresselhaus spin-orbit coupling. Using a linear-response approach based on time-dependent density-functional theory, we calculate the dispersions of spin-flip waves. We obtain analytic results for small wave vectors and up to second order in the Rashba and Dresselhaus coupling strengths $\alpha$ and $\beta$. Comparison with experimental data from inelastic light scattering allows us to extract $\alpha$ and $\beta$ as well as the spin-wave stiffness very accurately. We find significant deviations from the local density approximation for spin-dependent electron systems., Comment: 11 pages, 7 figures

Published
2016
Full Text
View/download PDF

7. Self-organizing structures in immiscible crystals

Author

Mińkowski, Marcin, Załuska-Kotur, Magdalena A., Turski, Łukasz A., and Karczewski, Grzegorz

Subjects
Condensed Matter - Materials Science
Abstract

Spinodal decomposition process in the system of immiscible PbTe/CdTe compounds is analyzed as an example of a self-organizing structure. The immiscibility of the constituents leads to the observed morphological transformations like anisotropy driven formation of quantum dots and nanowires, and to the phase separation at the highest temperatures. Proposed model accomplishes bulk and surface diffusion together with the anisotropic mobility of material components. We analyze its properties by kinetic Monte Carlo simulations and show that it is able to reproduce all of the structures observed experimentally in the process of PbTe/CdTe growth. We show that studied mechanisms of dynamic processes play different role in the creation of zero--, one--, two-- and finally three-dimensional structures. The shape of grown structures is different for relatively thick multilayers when bulk diffusion cooperates with the anisotropic mobility, in annealed structure when isotropic bulk diffusion only decides about the process and finally for thin multilayers when surface diffusion is the most decisive factor. We compare our results with experimentally grown systems and show that proposed model explains the diversity of observed structures.

Published
2016

8. Electrostatic control of quantum Hall ferromagnetic transition, a step toward reconfigurable network of helical channels

Author

Kazakov, Aleksandr, Simion, George, Lyanda-Geller, Yuli, Kolkovsky, Valery, Adamus, Zbigniew, Karczewski, Grzegorz, Wojtowicz, Tomasz, and Rokhinson, Leonid P.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Ferromagnetic transitions between quantum Hall states with different polarization at a fixed filling factor can be studied by varying the ratio of cyclotron and Zeeman energies in tilted magnetic field experiments. However, an ability to locally control such transitions at a fixed magnetic field would open a range of attractive applications, e.g. formation of a reconfigurable network of one-dimensional helical domain walls in a two-dimensional plane. Coupled to a superconductor, such domain walls can support non-Abelian excitation. In this article we report development of heterostructures where quantum Hall ferromagnetic (QHFm) transition can be controlled locally by electrostatic gating. A high mobility two-dimensional electron gas is formed in CdTe quantum wells with engineered placement of paramagnetic Mn impurities. Gate-induced electrostatic field shifts electron wavefunction in the growth direction and changes overlap between electrons in the quantum well and d-shell electrons on Mn, thus controlling the s-d exchange interaction and the field of the QHFm transition. The demonstrated shift of the QHFm transition at a filling factor $\nu=2$ is large enough to allow full control of spin polarization at a fixed magnetic field., Comment: 6 pages, 5 figures

Published
2016
Full Text
View/download PDF

9. THz lattice vibrations for active plasmonics with light: Ultrafast optical response in gold/telluride hybrid plasmonic crystals

Author

Kreilkamp, Lars E., Akimov, Ilya A., Belotelov, Vladimir I., Glavin, Boris A., Litvin, Leonid, Rudzinski, Axel, Kahl, Michael, Jede, Ralf, Wiater, Maciej, Wojtowicz, Tomasz, Karczewski, Grzegorz, Yakovlev, Dmitri R., and Bayer, Manfred

Subjects
Condensed Matter - Materials Science, Physics - Optics
Abstract

Excitation of coherent optical phonons in solids provides a pathway for ultrafast modulation of light on a sub-ps timescale. Here, we report on efficient 3.6 THz modulation of light reflected from hybrid metal/semiconductor plasmonic crystals caused by lattice vibrations in a few nm thick layer of elemental tellurium. We observe that surface plasmon polaritons contribute significantly to photoinduced formation of this thin layer at the interface between a telluride-based II-VI semiconductor, such as (Cd,Mg)Te or (Cd,Mn)Te, and a one-dimensional gold grating. The change in interface composition is monitored via the excitation and detection of coherent optical tellurium phonons of $A_1$ symmetry by femtosecond laser pulses in a pump-probe experiment. The patterning of a plasmonic grating onto the semiconductor enhances the transient signal which originates from the interface region. This allows monitoring the layer formation and observing the shift of the phonon frequency caused by confinement of the lattice vibrations in the nm-thick segregated layer. Efficient excitation and detection of coherent optical phonons by means of surface plasmon polaritons are evidenced by the dependence of the signal strength on polarization of pump and probe pulses and its spectral distribution., Comment: 11 pages, 8 figures

Published
2015
Full Text
View/download PDF

10. Coulomb-driven organization and enhancement of spin-orbit fields in collective spin excitations

Author

Baboux, Florent, Perez, Florent, Ullrich, Carsten A., D'Amico, Irene, Karczewski, Grzegorz, and Wojtowicz, Tomasz

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

Spin-orbit (SO) fields in a spin-polarized electron gas are studied by angle-resolved inelastic light scattering on a CdMnTe quantum well. We demonstrate a striking organization and enhancement of SO fields acting on the collective spin excitation (spin-flip wave). While individual electronic SO fields have a broadly distributed momentum dependence, giving rise to D'yakonov-Perel' dephasing, the collective spin dynamics is governed by a single collective SO field which is drastically enhanced due to many-body effects. The enhancement factor is experimentally determined. These results provide a powerful indication that these constructive phenomena are universal to collective spin excitations of conducting systems., Comment: 5 pages, 4 figures

Published
2013
Full Text
View/download PDF

11. Tuning the inter-shell splitting in self-assembled CdTe quantum dots

Author

Kukliński, Krzysztof, Kłopotowski, Łukasz, Fronc, Krzysztof, Wiater, Maciej, Wojnar, Piotr, Rutkowski, Paweł, Voliotis, Valia, Grousson, Roger, Karczewski, Grzegorz, Kossut, Jacek, and Wojtowicz, Tomasz

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We present photoluminescence studies of highly excited single self--assembled CdTe quantum dots under continuous--wave and pulsed excitations. We observe appearance of emission bands related to sequential filling of s--, p-- and d--shells. We analyze the inter-shell splitting for five samples, in which the dots were formed from a strained CdTe layer of different width. We find that with increasing the CdTe layer width the inter-shell splitting increases. In a time resolved measurement, we observe a radiative cascade between transitions involving one, two, and more than two excitons., Comment: submitted to Applied Physics Letters

Published
2011
Full Text
View/download PDF

12. Stark Spectroscopy and Radiative Lifetimes in Single Self-Assembled CdTe Quantum Dots

Author

Kłopotowski, Łukasz, Voliotis, Valia, Kudelski, Arkadiusz, Tartakovskii, Alexander I., Wojnar, Piotr, Fronc, Krzysztof, Grousson, Roger, Krebs, Oliver, Skolnick, Maurice S., Karczewski, Grzegorz, and Wojtowicz, Tomasz

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We present studies on Coulomb interactions in single self-assembled CdTe quantum dots. We use a field effect structure to tune the charge state of the dot and investigate the impact of the charge state on carrier wave functions. The analysis of the quantum confined Stark shifts of four excitonic complexes allows us to conclude that the hole wave function is softer than electron wave function, i. e. it is subject to stronger modifications upon changing of the dot charge state. These conclusions are corroborated by time-resolved photoluminescence studies of recombination lifetimes of different excitonic complexes. We find that the lifetimes are notably shorter than expected for strong confinement and result from a relatively shallow potential in the valence band. This weak confinement facilitates strong hole wave function redistributions. We analyze spectroscopic shifts of the observed excitonic complexes and find the same sequence of transitions for all studied dots. We conclude that the universality of spectroscopic shifts is due to the role of Coulomb correlations stemming from strong configuration mixing in the valence band., Comment: sent to Physical Review B

Published
2011
Full Text
View/download PDF

13. Magnetic polaron formation and exciton spin relaxation in single CdMnTe quantum dots

Author

Kłopotowski, Łukasz, Cywiński, Łukasz, Wojnar, Piotr, Voliotis, Valia, Fronc, Krzysztof, Kazimierczuk, Tomasz, Golnik, Andrzej, Ravarro, Marco, Grousson, Roger, Karczewski, Grzegorz, and Wojtowicz, Tomasz

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We study the formation dynamics of a spontaneous ferromagnetic order in single self-assembled CdMnTe quantum dots. By measuring time-resolved photoluminescence, we determine the formation times for QDs with Mn ion contents x varying from 0.01 to 0.2. At low x these times are orders of magnitude longer than exciton spin relaxation times evaluated from the decay of photoluminescence circular polarization. This allows us to conclude that the direction of the spontaneous magnetization is determined by a momentary Mn spin fluctuation rather than resulting from an optical orientation. At higher x, the formation times are of the same order of magnitude as found in previous studies on higher dimensional systems. We also find that the exciton spin relaxation accelerates with increasing Mn concentration., Comment: sent to Physical Review B

Published
2010
Full Text
View/download PDF

14. Dynamical Corrections to Spin Wave Excitations in Quantum Wells due to Coulomb Interactions and Magnetic Ions

Author

Aku-Leh, Cynthia, Perez, Florent, Jusserand, Bernard, Richards, David, and Karczewski, Grzegorz

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We have measured dispersions of spin-flip waves and spin-flip single-particle excitations of a spin polarized two-dimensional electron gas in a CdMnTe quantum well using resonant Raman scattering. We find the energy of the spin-flip wave to be below the spin-flip single particle excitation continuum, a contradiction to the theory of spin waves in diluted magnetic semiconductors put forth in [Phys. Rev. B 70, 045205 (2004)]. We show that the inclusion of terms accounting for the Coulomb interaction between carriers in the spin wave propagator leads to an agreement with our experimental results. The dominant Coulomb contribution leads to an overall red shift of the mixed electron-Mn spin modes while the dynamical coupling between Mn ions results in a small blue shift. We provide a simulated model system which shows the reverse situation but at an extremely large magnetic field., Comment: 6 pages, 7 figures

Published
2010
Full Text
View/download PDF

15. Dynamics of Charge Leakage From Self-assembled CdTe Quantum Dots

Author

Kłopotowski, Łukasz, Goryca, Mateusz, Kazimierczuk, Tomasz, Kossacki, Piotr, Wojnar, Piotr, Karczewski, Grzegorz, and Wojtowicz, Tomasz

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We study the leakage dynamics of charge stored in an ensemble of CdTe quantum dots embedded in a field-effect structure. Optically excited electrons are stored and read out by a proper time sequence of bias pulses. We monitor the dynamics of electron loss and find that the rate of the leakage is strongly dependent on time, which we attribute to an optically generated electric field related to the stored charge. A rate equation model quantitatively reproduces the results., Comment: 4 pages, submitted to Applied Physics Letters

Published
2010
Full Text
View/download PDF

16. Magnetization dynamics down to zero field in dilute (Cd,Mn)Te quantum wells

Author

Goryca, Mateusz, Ferrand, David, Kossacki, Piotr, Nawrocki, Michal, Pacuski, Wojciech, Maslana, Wiktor, Gaj, Jan A., Tatarenko, Serge, Cibert, Joel, Wojtowicz, Tomasz, and Karczewski, Grzegorz

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

The evolution of the magnetization in (Cd,Mn)Te quantum wells after a short pulse of magnetic field was determined from the giant Zeeman shift of spectroscopic lines. The dynamics in absence of magnetic field was found to be up to three orders of magnitude faster than that at 1 T. Hyperfine interaction and strain are mainly responsible for the fast decay. The influence of a hole gas is clearly visible: at zero field anisotropic holes stabilize the system of Mn ions, while in a magnetic field of 1 T they are known to speed up the decay by opening an additional relaxation channel.

Published
2008
Full Text
View/download PDF

17. Transverse magneto-optical Kerr effect at narrow optical resonances

Author

Borovkova Olga V., Spitzer Felix, Belotelov Vladimir I., Akimov Ilya A., Poddubny Alexander N., Karczewski Grzegorz, Wiater Maciej, Wojtowicz Tomasz, Zvezdin Anatoly K., Yakovlev Dmitri R., and Bayer Manfred

Subjects
nanophotonics, semiconductor nanostructures, excitons, magneto-optics, magneto-optical kerr effects, Physics, QC1-999
Abstract

Magneto-optical spectroscopy based on the transverse magneto-optical Kerr effect (TMOKE) is a sensitive method for investigating magnetically-ordered media. Previous studies were limited to the weak coupling regime where the spectral width of optical transitions considerably exceeded the Zeeman splitting in magnetic field. Here, we investigate experimentally and theoretically the transverse Kerr effect in the vicinity of comparatively narrow optical resonances in confined quantum systems. For experimental demonstration we studied the ground-state exciton resonance in a (Cd,Mn)Te diluted magnetic semiconductor quantum well, for which the strong exchange interaction with magnetic ions leads to giant Zeeman splitting of exciton spin states. For low magnetic fields in the weak coupling regime, the Kerr effect magnitude grows linearly with increasing Zeeman splitting showing a dispersive S-shaped spectrum, which remains almost unchanged in this range. For large magnetic fields in the strong coupling regime, the magnitude saturates, whereas the spectrum becomes strongly modified by the appearance of two separate peaks. TMOKE is sensitive not only to the sample surface but can also be used to probe in detail the confined electronic states in buried nanostructures if their capping layer is sufficiently transparent.

Published
2019
Full Text
View/download PDF

18. Measuring the spin polarization and Zeeman energy of a spin-polarized electron gas: Comparison between Raman scattering and photoluminescence

Author

Aku-Leh, Cynthia, Perez, Florent, Jusserand, Bernard, Richards, David, Pacuski, Wojciech, Kossacki, Piotr, Menant, Michel, and Karczewski, Grzegorz

Subjects
Condensed Matter - Other Condensed Matter, Condensed Matter - Materials Science
Abstract

We compare resonant electronic Raman scattering and photoluminescence measurements for the characterization of a spin-polarized two-dimensional electron gas embedded in $\text{Cd}_{1-x}\text{Mn}_x\text{Te}$ single quantum wells. From Raman scattering by single-particle excitations in a zero magnetic field, we measure the Fermi velocity and then obtain the Fermi energy (as well as the electron density), which is comparable to that extracted from photoluminescence for moderate electron densities, assuming a bare band-edge mass. At large electron densities, the Fermi energies derived from Raman scattering and photoluminescence differ. For an applied in-plane magnetic field and zero wave vector transferred to the electron gas, Raman scattering spectra show peaks at both the Zeeman energy $Z$, resulting from collective excitations of the spin-polarized electron gas, and the one electron spin-flip energy $Z^*$. Magneto-photoluminescence spectra show conduction band splitting that are equivalent to $Z$, suggesting that collective effects are present in the photoluminescence spectra. Assuming (as before) an uncorrected mass, the degree of spin polarization $\zeta$ determined from the magneto-photoluminescence lineshape is found to differ from that derived from the magnetic field dependent Raman scattering measurements for large electron densities. We attribute the discrepancy in measuring $\zeta$ and the Fermi energy to the renormalized mass resulting from many-body electron-electron interactions., Comment: 13 pages, 11 figures, 1 table, submitted to Phys. Rev. B

Published
2007
Full Text
View/download PDF

23. Photoluminescence and energy transfer between CdTe/CdMnTe quantum wells separated by thick barriers

Author

Agekyan, Vadim, Filosofov, Nikolai, Karczewski, Grzegorz, Resnitsky, Alexander, Serov, Alexey, Smirnov, Alexander, Shtrom, Igor, and Verbin, Sergey

Subjects
exciton, гетероструктуры, heterostructures, экситон, связанные квантовые ямы, coupling quantum wells
Abstract

Reflection, luminescence (PL), and luminescence excitation (PLE) spectra of a CdTe/CdMnTe heterostructure with quantum wells of different thicknesses are studied. It has been found that at low temperatures light emission comes from localized exciton states of quantum wells. The PLE spectra show that the contributions of excitons and free carriers to the population of quantum well depend on its thickness. The ratio of these contributions affects the dependence of the quantum well luminescence intensity on the level of optical excitation. It has been established that the coupling of quantum wells, separated by thick barrier layers, occurs through exciton excited states., Исследованы спектры отражения, люминесценции (PL) и спектры возбуждения люминесценции (PLE) гетероструктур CdTe/CdMnTe, содержащих квантовые ямы различной толщины. Было обнаружено, что низкотемпературная люминесценция обусловлена локализованными состояниями экситона в квантовой яме. Анализ PLE позволяет сделать вывод, что вклад экситонов и свободных носителей в заселение состояний квантовой ямы зависит от ее толщины. Показано, что соотношение этих вкладов в интенсивность люминесценции локализованного экситона квантовой ямы зависит от уровня оптического возбуждения. Установлено, что квантовые ямы, разделенные широким барьером, взаимодействуют друг с другом посредством возбужденных состояний экситона.

Published
2023
Full Text
View/download PDF

24. Milliwatt terahertz harmonic generation from topological insulator metamaterials

Author

Tielrooij, Klaas-Jan, primary, Principi, Alessandro, additional, Reig, David Saleta, additional, Block, Alexander, additional, Varghese, Sebin, additional, Schreyeck, Steffen, additional, Brunner, Karl, additional, Karczewski, Grzegorz, additional, Ilyakov, Igor, additional, Ponomaryov, Oleksiy, additional, de Oliveira, Thales V. A. G., additional, Chen, Min, additional, Deinert, Jan-Christoph, additional, Carbonell, Carmen Gomez, additional, Valenzuela, Sergio O., additional, Molenkamp, Laurens W., additional, Kiessling, Tobias, additional, Astakhov, Georgy V., additional, and Kovalev, Sergey, additional

Published
2022
Full Text
View/download PDF

26. Effect of Manganese Alloying on Infrared Detectors Made of Pb 1−x Mn x Te/CdTe Multilayer Composite.

Author

Chusnutdinow, Sergij, Kazakov, Alexander, Jakieła, Rafał, Szot, Michał, Schreyeck, Steffen, Brunner, Karl, and Karczewski, Grzegorz

Subjects
INFRARED detectors, MANGANESE alloys, MOLECULAR beam epitaxy, SPECTRAL sensitivity, MASS spectrometry, IRON-manganese alloys
Abstract

The properties of Pb1−xMnxTe/CdTe multilayer composite grown by molecular beam epitaxy on a GaAs substrate were studied. The study included morphological characterization by X-ray diffraction, scanning electron microscopy, secondary ion mass spectroscopy, as well as electron transport and optical spectroscopy measurements. The main focus of the study was on the sensing properties of photoresistors made of Pb1−xMnxTe/CdTe in the infrared spectral region. It was shown that the presence of Mn in the Pb1−xMnxTe conductive layers shifted the cut-off wavelength toward blue and weakened the spectral sensitivity of the photoresistors. The first effect was due to an increase in the energy gap of Pb1−xMnxTe with an increase in Mn concentration, and the second was due to a pronounced deterioration in the crystal quality of the multilayers owing to the presence of Mn atoms, as shown by the morphological analysis. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

27. Milliwatt terahertz harmonic generation from topological insulator metamaterials

Author

European Commission, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Leverhulme Trust, Universität Würzburg, Tielrooij, Klaas-Jan, Principi, Alessandro, Saleta Reig, David, Block, Alexander, Varghese, Sebin, Schreyeck, Steffen, Brunner, Karl, Karczewski, Grzegorz, Ilyakov, Igor, Ponomaryov, Alexey N., Oliveira, Thales V. A. G. de, Chen, Min, Deinert, Jan-Christoph, Gomez-Carbonell, Carmen, Valenzuela, Sergio O., Molenkamp, Laurens W., Kiessling, Tobias, Astakhov, Georgy V., Kovalev, Sergey, European Commission, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Leverhulme Trust, Universität Würzburg, Tielrooij, Klaas-Jan, Principi, Alessandro, Saleta Reig, David, Block, Alexander, Varghese, Sebin, Schreyeck, Steffen, Brunner, Karl, Karczewski, Grzegorz, Ilyakov, Igor, Ponomaryov, Alexey N., Oliveira, Thales V. A. G. de, Chen, Min, Deinert, Jan-Christoph, Gomez-Carbonell, Carmen, Valenzuela, Sergio O., Molenkamp, Laurens W., Kiessling, Tobias, Astakhov, Georgy V., and Kovalev, Sergey

Abstract

Achieving efficient, high-power harmonic generation in the terahertz spectral domain has technological applications, for example, in sixth generation (6G) communication networks. Massless Dirac fermions possess extremely large terahertz nonlinear susceptibilities and harmonic conversion efficiencies. However, the observed maximum generated harmonic power is limited, because of saturation effects at increasing incident powers, as shown recently for graphene. Here, we demonstrate room-temperature terahertz harmonic generation in a BiSe topological insulator and topological-insulator-grating metamaterial structures with surface-selective terahertz field enhancement. We obtain a third-harmonic power approaching the milliwatt range for an incident power of 75 mW—an improvement by two orders of magnitude compared to a benchmarked graphene sample. We establish a framework in which this exceptional performance is the result of thermodynamic harmonic generation by the massless topological surface states, benefiting from ultrafast dissipation of electronic heat via surface-bulk Coulomb interactions. These results are an important step towards on-chip terahertz (opto)electronic applications.

Published
2022

28. Transverse magnetic routing of light emission in hybrid plasmonic-semiconductor nanostructures: Towards operation at room temperature

Author

Klompmaker, Lars, primary, Poddubny, Alexander N., additional, Yalcin, Eyüp, additional, Litvin, Leonid V., additional, Jede, Ralf, additional, Karczewski, Grzegorz, additional, Chusnutdinow, Sergij, additional, Wojtowicz, Tomasz, additional, Yakovlev, Dmitri R., additional, Bayer, Manfred, additional, and Akimov, Ilya A., additional

Published
2022
Full Text
View/download PDF

29. Near-infrared emission from spatially indirect excitons in type II ZnTe/CdSe/(Zn,Mg)Te core/double-shell nanowires

Author

Wojnar, Piotr, primary, Płachta, Jakub, additional, Reszka, Anna, additional, Lähnemann, Jonas, additional, Kaleta, Anna, additional, Kret, Sławomir, additional, Baranowski, Piotr, additional, Wójcik, Maciej, additional, Kowalski, Bogdan J, additional, Baczewski, Lech T, additional, Karczewski, Grzegorz, additional, and Wojtowicz, Tomasz, additional

Published
2021
Full Text
View/download PDF

30. Surface acceptor states in MBE-grown CdTe layers.

Author

Wichrowska, Karolina, Wosinski, Tadeusz, Tkaczyk, Zbigniew, Kolkovsky, Valery, and Karczewski, Grzegorz

Subjects
MOLECULAR beam epitaxy, CADMIUM telluride, SURFACE defects, DEEP level transient spectroscopy, ACTIVATION energy
Abstract

A deep-level hole trap associated with surface defect states has been revealed with deep-level transient spectroscopy investigations of metal-semiconductor junctions fabricated on nitrogen doped p-type CdTe layers grown by the molecular-beam epitaxy technique. The trap displayed the hole-emission activation energy of 0.33 eV and the logarithmic capture kinetics indicating its relation to extended defect states at the metal-semiconductor interface. Strong electric-field-induced enhancement of the thermal emission rate of holes from the trap has been attributed to the phonon-assisted tunneling effect from defect states involving very large lattice relaxation around the defect and metastability of its occupied state. Passivation with ammonium sulfide of the CdTe surface, prior to metallization, results in a significant decrease in the trap density. It also results in a distinct reduction in the width of the surface-acceptor-state-induced hysteresis loops in the capacitance vs. voltage characteristics of the metal-semiconductor junctions. [ABSTRACT FROM AUTHOR]

Published
2018
Full Text
View/download PDF

33. CdTe/PbTe periodic structures as photonic crystals

Author

Karpinska, Karolina, primary, Karczewski, Grzegorz, additional, Witowski, Andrzej, additional, Polaczyński, Jakub, additional, Korczak, Jędrzej, additional, Schreyeck, Steffen, additional, Chusnutdinow, Sergij, additional, Story, Tomasz, additional, and Szot, Michał, additional

Published
2021
Full Text
View/download PDF

35. Coexistence of Short- and Long-Range Ferromagnetic Proximity Effects in a Fe/(Cd,Mg)Te/CdTe Quantum Well Hybrid Structure

Author

Kalitukha, Ina V., primary, Ken, Olga S., additional, Korenev, Vladimir L., additional, Akimov, Ilya A., additional, Sapega, Victor F., additional, Yakovlev, Dmitri R., additional, Dimitriev, Grigorii S., additional, Langer, Lukas, additional, Karczewski, Grzegorz, additional, Chusnutdinow, Sergij, additional, Wojtowicz, Tomasz, additional, and Bayer, Manfred, additional

Published
2021
Full Text
View/download PDF

41. Monte Carlo simulations of morphological transitions in PbTe/CdTe immiscible material systems.

Author

MiŃkowski, Marcin, Załuska-Kotur, Magdalena A., Turski, Łukasz A., and Karczewski, Grzegorz

Subjects
MONTE Carlo method, CADMIUM telluride, CRYSTAL growth, QUANTUM dots, NANOWIRES
Abstract

The crystal growth of the immiscible PbTe/CdTe multilayer system is analyzed as an example of a self-organizing process. The immiscibility of the constituents leads to the observed morphological transformations such as an anisotropy driven formation of quantum dots and nanowires and to a phase separation at the highest temperatures. The proposed model accomplishes a bulk and surface diffusion together with an anisotropic mobility of the material components. We analyze its properties by kinetic Monte Carlo simulations and show that it is able to reproduce all of the structures observed experimentally during the process of the PbTe/CdTe growth. We show that all of the dynamical processes studied play an important role in the creation of zero-, one-, two-, and, finally, three-dimensional structures. The shape of the structures that are grown is different for relatively thick multilayers, when the bulk diffusion cooperates with the anisotropic mobility, as compared to the annealed structures for which only the isotropic bulk diffusion decides about the process. Finally, it is different again for thin multilayers when the surface diffusion is the most decisive factor. We compare our results with the experimentally grown systems and show that the proposed model explains the diversity of observed structures. [ABSTRACT FROM AUTHOR]

Published
2016
Full Text
View/download PDF

44. Breaking crystalline symmetry of epitaxial SnTe films by strain

Author

Schreyeck, Steffen, primary, Brunner, Karl, additional, Molenkamp, Laurens W., additional, Karczewski, Grzegorz, additional, Schmitt, Martin, additional, Sessi, Paolo, additional, Vogt, Matthias, additional, Wilfert, Stefan, additional, Odobesko, Artem B., additional, and Bode, Matthias, additional

Published
2019
Full Text
View/download PDF

45. Pressure effect on magneto-optical properties of CdTe/(Cd,Mn)Te single quantum wells with high Mn concentration

Author

Yokoi, Hiroyuki, Tozer, Stanley, W., Kim, Yongmin, Rickel, Dwight, Kakudate, Yozo, Usuba, Shu, Fujiwara, Shuzo, Takeyama, Shojiro, Karczewski, Grzegorz, Wojtowicz, Tomesz, and Kossut, Jacek

Subjects
Quantum wells -- Research, Magnetic fields -- Research, Physics
Abstract

The onset of a type I-type II transition induced by a magnetic field in a CdTe/Cd(sub 1-x)Mn(sub x) (x = 0.2) single quantum well is investigated via photoluminescence measurements at hydrostatic pressures of up to 1.07 GPa and magnetic fields of up to 60 T. Results show that the onset moves towards a higher magnetic field with increasing pressure. Pressure also promotes the spin-spin coupling between the exciton and the Mn ion in the interface region.

Published
1999

47. Magnetic field induced mixing of light hole excitonic states in (Cd, Mn)Te/(Cd, Mg)Te core/shell nanowires

Author

Płachta, Jakub, primary, Grodzicka, Emma, additional, Kaleta, Anna, additional, Kret, Sławomir, additional, Baczewski, Lech T, additional, Pietruczik, Aleksiej, additional, Wiater, Maciej, additional, Goryca, Mateusz, additional, Kazimierczuk, Tomasz, additional, Kossacki, Piotr, additional, Karczewski, Grzegorz, additional, Wojtowicz, Tomasz, additional, and Wojnar, Piotr, additional

Published
2018
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results