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28 results on '"Kirstein, Erik"'

1. Coherent spin dynamics of electrons and holes photogenerated with large kinetic energy in lead halide perovskite crystals

Author

Zhukov, Evgeny A., Yakovlev, Dmitri R., Kirstein, Erik, Kopteva, Nataliia E., Hordiichuk, Oleh, Kovalenko, Maksym V., and Bayer, Manfred

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The coherent spin dynamics of electrons and holes are studied in a FA0.9Cs0.1PbI2.8Br0.2 perovskite bulk crystal, using time-resolved Kerr ellipticity in a two-color pump-probe scheme. The probe photon energy is tuned to the exciton resonance, while the pump photon energy is detuned from it up to 0.75 eV to higher energies. The spin-oriented electrons and holes photogenerated with significant excess kinetic energy relax into states in vicinity of the band gap, where they undergo Larmor precession in an external magnetic field. At cryogenic temperatures down to 1.6 K, the spin dephasing time reaches the nanosecond range. During energy relaxation, the carrier spin relaxation is inefficient and only happens when the carriers become localized. In experiments with two pump pulses, all-optical control of the amplitudes and phases of the electron and hole spin signals is achieved in the additive regime by varying the intensities of the pump pulses and the time delay between them.

Published
2025

2. Giant optical orientation of exciton spins in lead halide perovskite crystals

Author

Kopteva, Natalia E., Yakovlev, Dmitri R., Yalcin, Eyüp, Akimov, Ilya A., Nestoklon, Mikhail O., Glazov, Mikhail M., Kotur, Mladen, Kudlacik, Dennis, Zhukov, Evgeny A., Kirstein, Erik, Hordiichuk, Oleh, Dirin, Dmitry N., Kovalenko, Maksym V., and Bayer, Manfred

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Optical orientation of carrier spins by circularly polarized light is the basis of spin physics in semiconductors. Here, we demonstrate strong optical orientation of 85\%, approaching the ultimate limit of unity, for excitons in FA$_{0.9}$Cs$_{0.1}$PbI$_{2.8}$Br$_{0.2}$ lead halide perovskite bulk crystals. Time-resolved photoluminescence allows us to distinguish excitons with 60~ps lifetime from electron-hole recombination in the spin dynamics detected via coherent spin quantum beats in magnetic field. We reveal electron-hole spin correlations through linear polarization beats after circularly polarized excitation. Detuning of the excitation energy from the exciton resonance up to 0.5~eV does not reduce the optical orientation, evidencing clean chiral selection rules in agreement with atomistic calculations, and suppressed spin relaxation of electrons and holes even with large kinetic energies.

Published
2023
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3. Tailoring the electron and hole Land\'e factors in lead halide perovskite nanocrystals by quantum confinement and halide exchange

Author

Nestoklon, M. O., Kirstein, Erik, Yakovlev, D. R., Zhukov, E. A., Glazov, M. M., Semina, M. A., Ivchenko, E. L., Kolobkova, E. V., Kuznetsova, M. S., and Bayer, Manfred

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The tunability of the optical properties of lead halide perovskite nanocrystals makes them highly appealing for applications. Both, halide anion exchange and quantum confinement pave the way for tailoring their band gap energy. For spintronics applications, the Land\'e g-factors of electrons and hole are of great importance. By means of the empirical tight-binding and $\textbf{k}\cdot\textbf{p}$ methods, we calculate them for nanocrystals of the class of all-inorganic lead halide perovskites CsPb$X_3$ ($X = \text{I},\,\text{Br},\,\text{Cl}$). The hole g-factor as function of the band gap follows the universal dependence found for bulk perovskites, while for the electrons a considerable modification is predicted. Based on the $\textbf{k}\cdot\textbf{p}$ analysis we conclude that this difference arises from the interaction of the bottom conduction band with the spin-orbit split electron states. The model predictions are confirmed by experimental data for the electron and hole g-factors in CsPbI3 nanocrystals placed in a glass matrix, measured by time-resolved Faraday ellipticity in a magnetic field at cryogenic temperatures.

Published
2023
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4. Coherent Spin Dynamics of Electrons in Two-Dimensional (PEA)$_2$PbI$_4$ Perovskites

Author

Kirstein, Erik, Zhukov, Evgeny A., Yakovlev, Dmitri R., Kopteva, Nataliia E., Harkort, Carolin, Kudlacik, Dennis, Hordiichuk, Oleh, Kovalenko, Maksym V., and Bayer, Manfred

Subjects
Condensed Matter - Materials Science
Abstract

The versatile potential of lead halide perovskites and two-dimensional materials is merged in the Ruddlesen-Popper perovskites having outstanding optical properties. Here, the coherent spin dynamics in Ruddlesen-Popper (PEA)$_2$PbI$_4$ perovskites are investigated by picosecond pump-probe Kerr rotation in an external magnetic field. The Larmor spin precession of resident electrons with a spin dephasing time of 190~ps is identified. The longitudinal spin relaxation time in weak magnetic fields measured by the spin inertia method is as long as 25~$\mu$s. A significant anisotropy of the electron $g$-factor with the in-plane value of $+2.45$ and out-of-plane value of $+2.05$ is found. The exciton out-of-plane $g$-factor is measured to be of $+1.6$ by magneto-reflectivity. This work contributes to the understanding of the spin-dependent properties of two-dimensional perovskites and their spin dynamics.

Published
2022
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6. Highly‐Polarized Emission Provided by Giant Optical Orientation of Exciton Spins in Lead Halide Perovskite Crystals.

Author

Kopteva, Nataliia E., Yakovlev, Dmitri R., Yalcin, Eyüp, Akimov, Ilya A., Nestoklon, Mikhail O., Glazov, Mikhail M., Kotur, Mladen, Kudlacik, Dennis, Zhukov, Evgeny A., Kirstein, Erik, Hordiichuk, Oleh, Dirin, Dmitry N., Kovalenko, Maksym V., and Bayer, Manfred

Subjects
LEAD halides, QUANTUM correlations, SPIN excitations, ELECTRON spin, SPIN polarization, PEROVSKITE, HALIDES
Abstract

Quantum technologic and spintronic applications require reliable material platforms that enable significant and long‐living spin polarization of excitations, the ability to manipulate it optically in external fields, and the possibility to implement quantum correlations between spins, i.e., entanglement. Here it is demonstrated that these conditions are met in bulk crystals of lead halide perovskites. A giant optical orientation of 85% of excitons, approaching the ultimate limit of unity, in FA0.9Cs0.1PbI2.8Br0.2 crystals is reported. The exciton spin orientation is maintained during the exciton lifetime of 55 ps resulting in high circular polarization of the exciton emission. The optical orientation is robust to detuning of the excitation energy up to 0.3 eV above the exciton resonance and remains larger than 20% up to detunings of 0.9 eV. It evidences pure chiral selection rules and suppressed spin relaxation of electrons and holes, even with large kinetic energies. The exciton and electron–hole recombinations are distinguished by means of the spin dynamics detected via coherent spin quantum beats in magnetic field. Further, electron–hole spin correlations are demonstrated through linear polarization beats after circularly polarized excitation. These findings are supported by atomistic calculations. All‐in‐all, the results establish lead halide perovskite semiconductors as suitable platform for quantum technologies. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Weak Dispersion of Exciton Landé Factor with Band Gap Energy in Lead Halide Perovskites: Approximate Compensation of the Electron and Hole Dependences

Author

Kopteva, Natalia E., primary, Yakovlev, Dmitri R., additional, Kirstein, Erik, additional, Zhukov, Evgeny A., additional, Kudlacik, Dennis, additional, Kalitukha, Ina V., additional, Sapega, Victor F., additional, Hordiichuk, Oleh, additional, Dirin, Dmitry N., additional, Kovalenko, Maksym V., additional, Baumann, Andreas, additional, Höcker, Julian, additional, Dyakonov, Vladimir, additional, Crooker, Scott A., additional, and Bayer, Manfred, additional

Published
2023
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10. Tailoring the Electron and Hole Landé Factors in Lead Halide Perovskite Nanocrystals by Quantum Confinement and Halide Exchange

Author

Nestoklon, Mikhail O., primary, Kirstein, Erik, additional, Yakovlev, Dmitri R., additional, Zhukov, Evgeny A., additional, Glazov, Mikhail M., additional, Semina, Marina A., additional, Ivchenko, Eugeniyus L., additional, Kolobkova, Elena V., additional, Kuznetsova, Maria S., additional, and Bayer, Manfred, additional

Published
2023
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13. The Lande factors of electrons and holes in lead halide perovskites: universal dependence on the band gap

Author

Kirstein, Erik, Yakovlev, Dmitri R., Glazov, Mikhail M., Zhukov, Evgeny A., Kudlacik, Dennis, Kalitukha, Ina V., Sapega, Victor F., Dimitriev, Grigorii S., Semina, Marina A., Nestoklon, Mikhail O., Ivchenko, Eougenious L., Kopteva, Nataliia E., Dirin, Dmitry N., Nazarenko, Olga, Kovalenko, Maksym V., Baumann, Andreas, Höcker, Julian, Dyakonov, Vladimir, and Bayer, Manfred

Abstract

The Lande or g-factors of charge carriers are decisive for the spin-dependent phenomena in solids and provide also information about the underlying electronic band structure. We present a comprehensive set of experimental data for values and anisotropies of the electron and hole Lande factors in hybrid organic-inorganic (MAPbI(3), MAPb(Br0.5Cl0.5)(3), MAPb(Br0.05Cl0.95)(3), FAPbBr(3), FA(0.9)Cs(0.1)PbI(2.8)Br(0.2), MA=methylammonium and FA=formamidinium) and all-inorganic (CsPbBr3) lead halide perovskites, determined by pump-probe Kerr rotation and spin-flip Raman scattering in magnetic fields up to 10 T at cryogenic temperatures. Further, we use first-principles density functional theory (DFT) calculations in combination with tight-binding and k center dot p approaches to calculate microscopically the Lande factors. The results demonstrate their universal dependence on the band gap energy across the different perovskite material classes, which can be summarized in a universal semi-phenomenological expression, in good agreement with experiment., Nature Communications, 13, ISSN:2041-1723

Published
2022

16. Lead-dominated hyperfine interaction impacting the carrier spin dynamics in halide perovskites

Author

Kirstein, Erik, Yakovlev, Dmitri R., Glazov, Mikhail M., Evers, Eiko, Zhukov, Evgeny A., Belykh, Vasilii V., Kopteva, Nataliia E., Kudlacik, Dennis, Nazarenko, Olga, Dirin, Dmitry N., Kovalenko, Maksym V., and Bayer, Manfred

Subjects
Condensed Matter::Materials Science, Dynamic nuclear polarization, ABX3, carrier spin coherence, dynamic nuclear polarization, hyperfine interaction, perovskites, spintronics, Condensed Matter::Strongly Correlated Electrons, Perovskites, Carrier spin coherence, Spintronics, Hyperfine interaction
Abstract

The outstanding optical quality of lead halide perovskites inspires studies of their potential for the optical control of carrier spins as pursued in other materials. Entering largely uncharted territory, time-resolved pump-probe Kerr rotation is used to explore the coherent spin dynamics of electrons and holes in bulk formamidinium caesium lead iodine bromide (FA(0.9)Cs(0.1)PbI(2.8)Br(0.2)) and to determine key parameters characterizing interactions of their spins, such as the g-factors and relaxation times. The demonstrated long spin dynamics and narrow g-factor distribution prove the perovskites as promising competitors for conventional semiconductors in spintronics. The dynamic nuclear polarization via spin-oriented holes is realized and the identification of the lead (Pb-207) isotope in optically detected nuclear magnetic resonance proves that the hole-nuclei interaction is dominated by the lead ions. A detailed theoretical analysis accounting for the specifics of the lead halide perovskite materials allows the evaluation of the underlying hyperfine interaction constants, both for electrons and holes. Recombination and spin dynamics evidence that at low temperatures, photogenerated electrons and holes are localized at different regions of the perovskite crystal, resulting in their long lifetimes up to 44 mu s. The findings form the base for the tailored development of spin-optoelectronic applications for the large family of lead halide perovskites and their nanostructures., Advanced Materials, 34 (1), ISSN:0935-9648, ISSN:1521-4095

Published
2021

18. Coherent Spin Dynamics of Electrons in Two-Dimensional (PEA)2PbI4Perovskites

Author

Kirstein, Erik, Zhukov, Evgeny A., Yakovlev, Dmitri R., Kopteva, Nataliia E., Harkort, Carolin, Kudlacik, Dennis, Hordiichuk, Oleh, Kovalenko, Maksym V., and Bayer, Manfred

Abstract

The versatile potential of lead halide perovskites and two-dimensional materials is merged in the Ruddlesden–Popper perovskites having outstanding optical properties. Here, the coherent spin dynamics in Ruddlesden–Popper (PEA)2PbI4perovskites is investigated by picosecond pump–probe Kerr rotation in an external magnetic field. The Larmor spin precession of resident electrons with a spin dephasing time of 190 ps is identified. The longitudinal spin relaxation time in weak magnetic fields measured by the spin inertia method is as long as 25 μs. A significant anisotropy of the electron g-factor with the in-plane value of +2.45 and out-of-plane value of +2.05 is found. The exciton out-of-plane g-factor of +1.6 is measured by magneto-reflectivity. This work contributes to the understanding of the spin-dependent properties of two-dimensional perovskites and their spin dynamics.

Published
2023
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20. Low voltage control of exchange coupling in aferromagnet-semiconductor quantum well hybridstructure

Author

Korenev, Vladimir L., Kalitukha, I. V., Akimov, Ilya A., Sapega, V. F., Zhukov, Evgeny A., Kirstein, Erik, Ken, O. S., Kudlacik, Dennis, Karczewski, G., Wiater, M., Wojtowicz, T., Ilyinskaya, N. D., Lebedeva, N. M., Komissarova, T. A., Kusrayev, Yu.G., Yakovlev, Dmitri R., and Bayer, Manfred

Subjects
Ferromagnetismus, Condensed Matter::Materials Science, Ferromagnetism, Condensed Matter::Strongly Correlated Electrons, Spintronics, Spintronik, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect
Abstract

Voltage control of ferromagnetism on the nanometer scale is highly appealing for the development of novel electronic devices with low power consumption, high operation speed, reliable reversibility and compatibility with semiconductor technology. Hybrid structures based on the assembly of ferromagnetic and semiconducting building blocks are expected to show magnetic order as a ferromagnet and to be electrically tunable as a semiconductor. Here, we demonstrate the electrical control of the exchange coupling in a hybrid consisting of a ferromagnetic Co layer and a semiconductor CdTe quantum well, separated by a thin non-magnetic (Cd,Mg)Te barrier. The electric field controls the phononic ac Stark effect���the indirect exchange mechanism that is mediated by elliptically polarized phonons emitted from the ferromagnet. The effective magnetic field of the exchange interaction reaches up to 2.5 Tesla and can be turned on and off by application of 1V bias across the heterostructure., Nature communications

Published
2019
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24. Laboratory Evaluation of an In-Situ Coating Process for Mitigation of Lead and Copper in Drinking Water

Author

CONSTRUCTION ENGINEERING RESEARCH LAB (ARMY) CHAMPAIGN IL, Hock, Vincent F., Kirstein, Erik, Smothers, Kent W., Overmann, Jeremy L., CONSTRUCTION ENGINEERING RESEARCH LAB (ARMY) CHAMPAIGN IL, Hock, Vincent F., Kirstein, Erik, Smothers, Kent W., and Overmann, Jeremy L.

Abstract

Corrosion of building plumbing can result in reduced service life and adverse health effects such as those associated with high lead blood levels, particularly in children. The U.S. Environmental Protection Agency (USEPA) has established an "Action Level" (AL) of 15 micro/L for lead and 1.3 mg/L for copper in drinking water. Army installations must comply with the increasingly stringent drinking water quality standards enacted at the Federal level and enforced by State regulations. This study evaluated the effectiveness of in-situ coatings for inhibiting lead corrosion under a variety of water quality parameters in the laboratory. The study compared the in-situ coating system to zinc orthophosphate chemical inhibitor treatment for mitigation corrosion and plumbosolvency. Results indicate that the in-situ epoxy coating provides an effective alternative to conventional chemical treatment for the prevention of lead and copper metal release in a system modeled to simulate a home plumbing system. This study also initiated operation of a Water Treatment Test Facility (WTTF) to determine its viability as a test facility to simulate a variety of water qualities in a home plumbing system. The WTTF operated reliably over the course of the 12-week study, and produced valuable information on operating procedures.

Published
1999

25. Demonstration of Electro-Osmotic Pulse Technology for Groundwater Intrusion Control in Concrete Structures.

Author

CONSTRUCTION ENGINEERING RESEARCH LAB (ARMY) CHAMPAIGN IL, Hock, Vincent F., McInerney, Michael K., Kirstein, Erik, Masse, Hannon T., CONSTRUCTION ENGINEERING RESEARCH LAB (ARMY) CHAMPAIGN IL, Hock, Vincent F., McInerney, Michael K., Kirstein, Erik, and Masse, Hannon T.

Abstract

Groundwater intrusion through a building's foundation (i.e., a "wet basement problem") can cause serious damage that is expensive to correct. In older buildings, such as those common on U.S. Army installations, severe damp-basement problems call for immediate action to mitigate water damage. Electro-osmotic pulse (EOP) technology offers an alternative to the "trench and drain" approach that can mitigate some water-related problems from the interior of affected areas without the cost of excavation. The EOP alternative can further mitigate corrosion damage to mechanical equipment along with humidity and mold problems. This study demonstrated and document the effectiveness of EOP technology to control groundwater intrusion in concrete structures at Fort Jackson, SC and McAlester Army Ammunition Plant (AAP), OK. The cost of installation was determined to be 40 percent lower than the cost of the conventional trench and drain approach. The operating or energy cost of the EOP system was shown to be negligible - equivalent to the expenditure of burning a 60W light bulb.

Published
1998

26. Plasma focus spacecraft conceptual design study

Author

Bromley, Blair P., primary, DeMora, John, additional, Casey, Brett, additional, Humm, Paul, additional, Kirstein, Erik, additional, Siddique, Amer, additional, Javedani, Jalal, additional, Miley, George H., additional, and DelMedico, Susan, additional

Published
1995
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27. Unconventional Anomalous Hall Effect Driven by Self-Intercalation in Covalent 2D Magnet Cr 2 Te 3 .

Author

He K, Bian M, Seddon SD, Jagadish K, Mucchietto A, Ren H, Kirstein E, Asadi R, Bai J, Yao C, Pan S, Yu JX, Milde P, Huai C, Hui H, Zang J, Sabirianov R, Cheng XM, Miao G, Xing H, Shao YT, Crooker SA, Eng L, Hou Y, Bird JP, and Zeng H

Abstract

Covalent 2D magnets such as Cr 2 Te 3 , which feature self-intercalated magnetic cations located between monolayers of transition-metal dichalcogenide material, offer a unique platform for controlling magnetic order and spin texture, enabling new potential applications for spintronic devices. Here, it is demonstrated that the unconventional anomalous Hall effect (AHE) in Cr 2 Te 3 , characterized by additional humps and dips near the coercive field in AHE hysteresis, originates from an intrinsic mechanism dictated by the self-intercalation. This mechanism is distinctly different from previously proposed mechanisms such as topological Hall effect, or two-channel AHE arising from spatial inhomogeneities. Crucially, multiple Weyl-like nodes emerge in the electronic band structure due to strong spin-orbit coupling, whose positions relative to the Fermi level is sensitively modulated by the canting angles of the self-intercalated Cr cations. These nodes contribute strongly to the Berry curvature and AHE conductivity. This component competes with the contribution from bands that are less affected by the self-intercalation, resulting in a sign change in AHE with temperature and the emergence of additional humps and dips. The findings provide compelling evidence for the intrinsic origin of the unconventional AHE in Cr 2 Te 3  and further establish self-intercalation as a control knob for engineering AHE in complex magnets., (© 2024 The Author(s). Advanced Science published by Wiley‐VCH GmbH.)

Published
2025
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28. Coherent Carrier Spin Dynamics in FAPbBr 3 Perovskite Crystals.

Author

Kirstein E, Zhukov EA, Yakovlev DR, Kopteva NE, Yalcin E, Akimov IA, Hordiichuk O, Dirin DN, Kovalenko MV, and Bayer M

Abstract

Coherent spin dynamics of electrons and holes are studied in hybrid organic-inorganic lead halide perovskite FAPbBr 3 bulk single crystals using the time-resolved Kerr ellipticity technique at cryogenic temperatures. The Larmor spin precession of the carrier spins in a magnetic field is monitored to measure the Landé g -factors of electrons (+2.44) and holes (+0.41). These g -factors are highly isotropic. The measured spin dephasing times amount to a few nanoseconds, and the longitudinal hole spin relaxation time is 470 ns. The important role of the strong hyperfine interaction between carrier spins and nuclear spins is demonstrated via dynamic nuclear polarization. At low temperatures, electron and hole spin relaxation predominantly occurs via the hyperfine interaction, whose importance significantly decreases at temperatures above 12 K. We overview the spin dynamics in various lead halide perovskite crystals and polycrystalline films and conclude on their common features provided by charge carrier localization at cryogenic temperatures.

Published
2024
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