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1. Quantum beats of a macroscopic polariton condensate in real space

Author

Cherbunin, R. V., Liubomirov, A., Novokreschenov, D., Kudlis, A., and Kavokin, A. V.

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

We experimentally observe harmonic oscillations in a bosonic condensate of exciton-polaritons confined within an elliptical trap. These oscillations arise from quantum beats between two size-quantized states of the condensate, split in energy due to the trap's ellipticity. By precisely targeting specific spots inside the trap with non-resonant laser pulses, we control the frequency, amplitude, and phase of these quantum beats. The condensate wavefunction dynamics are visualized on a streak camera and mapped to the Bloch sphere, demonstrating Hadamard and Pauli-Z operations. We conclude that a qubit based on a superposition of these two polariton states would exhibit a coherence time exceeding the lifetime of an individual exciton-polariton by at least two orders of magnitude.

Published
2024

2. Local field of spin-spin interactions in the nuclear spin system of n-GaAs

Author

Litvyak, V. M., Cherbunin, R. V., Kalevich, V. K., and Kavokin, K. V.

Subjects
Condensed Matter - Materials Science
Abstract

At low lattice temperatures the nuclear spins in a solid form a closed thermodynamic system that is well isolated from the lattice. Thermodynamic properties of the nuclear spin system are characterized by the local field of spin-spin interactions, which determines its heat capacity and the minimal achievable nuclear spin temperature in demagnetization experiments. We report the results of measurement of the local field for the nuclear spin system in GaAs, which is a model material for semiconductor spintronics. The choice of the structure, a weakly doped GaAs epitaxial layer with weak residual deformations, and of the measurement method, the adiabatic demagnetization of optically cooled nuclear spins, allowed us to refine the value of nuclear spin-spin local field, which turned out to be two times less than one previously obtained. Our experimental results are supported by calculations, which take into account dipole-dipole and indirect (pseudodipolar and exchange) nuclear spin interactions as well as quadrupole splitting of nuclear spins in the vicinity of charged impurity centers., Comment: 27 pages, 6 figures, 3 tables

Published
2023

4. Warm-up spectroscopy of quadrupole-split nuclear spins in n-GaAs epitaxial layers

Author

Litvyak, V. M., Cherbunin, R. V., Kalevich, V. K., Lihachev, A. I., Nashchekin, A. V., Vladimirova, M., and Kavokin, K. V.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The efficiency of the adiabatic demagnetization of nuclear spin system (NSS) of a solid is limited, if quadrupole effects are present. Nevertheless, despite a considerable quadrupole interaction, recent experiments validated the thermodynamic description of the NSS in GaAs. This suggests that nuclear spin temperature can be used as the universal indicator of the NSS state in presence of external perturbations. We implement this idea by analyzing the modification of the NSS temperature in response to an oscillating magnetic field at various frequencies, an approach termed as the warm-up spectroscopy. It is tested in a n-GaAs sample where both mechanical strain and built-in electric field may contribute to the quadrupole splitting, yielding the parameters of electric field gradient tensors for 75As and both Ga isotopes, 69Ga and 71Ga., Comment: 12 pages, 9 figures

Published
2021
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5. Spin-valley dynamics in alloy-based transition metal dichalcogenide heterobilayers

Author

Kravtsov, V., Liubomirov, A. D., Cherbunin, R. V., Catanzaro, A., Genco, A., Gillard, D., Alexeev, E. M., Ivanova, T., Khestanova, E., Shelykh, I. A., Iorsh, I. V., Tartakovskii, A. I., Skolnick, M. S., and Krizhanovskii, D. N.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Van der Waals heterobilayers based on 2D transition metal dichalcogenides have been recently shown to support robust and long-lived valley polarization for potential valleytronic applications. However, the role of the band structure and alignment of the constituent layers in the underlying dynamics remains largely unexplored. Here we study spin--valley relaxation dynamics in heterobilayers with different band structures engineered via the use of alloyed monolayer semiconductors. Through a combination of time-resolved Kerr rotation spectroscopic measurements and theoretical modelling for Mo$_{1-x}$W$_{x}$Se$_2$/WSe$_2$ samples with different chemical compositions and stacking angles, we uncover the roles of interlayer exciton recombination and charge carrier spin depolarization in the overall valley dynamics. Our results provide insights into the microscopic spin--valley polarization mechanisms in van der Waals heterostructures for the development of future 2D valleytronic devices.

Published
2020
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6. High-resolution Resonance Spin-flip Raman Spectroscopy of Pairs of Manganese Ions in CdTe

Author

V., Cherbunin R., M., Litviak V., I., Ryzhov I., V., Koudinov A., S., Elsässer, A., Knapp, T., Kiessling, J., Geurts, S., Chusnutdinow, T., Wojtowicz, and G, Karczewski

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We report the observation of tens of minor lines of the combinational spin-flip Raman scattering in a CdTe:Mn quantum well by means of the high-resolution optical spectroscopy. Classification of this manifold leads to four characteristic values of energy, that correspond to four different types of pair clusters of Mn ions: the nearest, second, third etc. neighbors. All the four energies show up in a single experiment with a very high precision, providing experimental grounds for a deeper understanding of the d-d exchange interactions in a diluted magnetic semiconductor and demonstrating the capacity of the employed method. The major (nearest-neighbor) exchange constant J_1 = 6.15 K was found to consent with its previously reported value. Other detected characteristic energies are as follows: J_{(2)} = 1.80 K, J_{(3)} = 1.39 K, J_{(4)} = 0.81 K., Comment: 11 pages, 2 figures

Published
2019
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7. Nuclear spin-lattice relaxation in p-type GaAs

Author

Kotur, M., Dzhioev, R. I., Vladimirova, M., Cherbunin, R. V., Sokolov, P. S., Yakovlev, D. R., Bayer, M., Suter, D., and Kavokin, K. V.

Subjects
Condensed Matter - Other Condensed Matter
Abstract

Spin-lattice relaxation of the nuclear spin system in p-type GaAs is studied using a three-stage experimental protocol including optical pumping and measuring the difference of the nuclear spin polarization before and after a dark interval of variable length. This method allows us to measure the spin-lattice relaxation time $T_1$ of optically pumped nuclei "in the dark", that is, in the absence of illumination. The measured $T_1$ values fall into the sub-second time range, being three orders of magnitude shorter than in earlier studied n-type GaAs. The drastic difference is further emphasized by magnetic-field and temperature dependences of $T_1$ in p-GaAs, showing no similarity to those in n-GaAs. This unexpected behavior is explained within a developed theoretical model involving quadrupole relaxation of nuclear spins, which is induced by electric fields within closely spaced donor-acceptor pairs., Comment: 9 pages, 8 figures

Published
2018
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8. Nuclear spin cooling by helicity-alternated optical pumping at weak magnetic fields in $n$-GaAs

Author

Sokolov, P. S., Petrov, M. Yu., Kavokin, K. V., Kurdyubov, A. S., Kuznetsova, M. S., Cherbunin, R. V., Verbin, S. Yu., Poletaev, N. K., Yakovlev, D. R., Suter, D., and Bayer, M.

Subjects
Condensed Matter - Materials Science
Abstract

The spin dynamics of localized donor-bound electrons interacting with the nuclear spin ensemble in $n$-doped GaAs epilayers is studied using nuclear spin polarization by light with modulated circular polarization. We show that the observed build-up of the nuclear spin polarization is a result of competition between nuclear spin cooling and nuclear spin warm-up in the oscillating Knight field. The developed model allows us to explain the dependence of nuclear spin polarization on the modulation frequency and to estimate the equilibration time of the nuclear spin system that appears to be shorter than the transverse relaxation time $T_2$ determined from nuclear magnetic resonance., Comment: Several improvements to v1, 7 pages, 5 figures, corrected list of refs

Published
2017
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9. Spin dynamics of quadrupole nuclei in InGaAs quantum dots

Author

Kuznetsova, M. S., Cherbunin, R. V., Gerlovin, I. Ya., Ignatiev, I. V., Verbin, S. Yu., Yakovlev, D. R., Reuter, D., Wieck, A. D., and Bayer, M.

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

Photoluminescence polarization is experimentally studied for samples with (In,Ga)As/GaAs selfassembled quantum dots in transverse magnetic field (Hanle effect) under slow modulation of the excitation light polarization from fractions of Hz to tens of kHz. The polarization reflects the evolution of strongly coupled electron-nuclear spin system in the quantum dots. Strong modification of the Hanle curves under variation of the modulation period is attributed to the peculiarities of the spin dynamics of quadrupole nuclei, which states are split due to deformation of the crystal lattice in the quantum dots. Analysis of the Hanle curves is fulfilled in the framework of a phenomenological model considering a separate dynamics of a nuclear field BNd determined by the +/- 12 nuclear spin states and of a nuclear field BNq determined by the split-off states +/- 3/2, +/- 5/2, etc. It is found that the characteristic relaxation time for the nuclear field BNd is of order of 0.5 s, while the relaxation of the field BNq is faster by three orders of magnitude., Comment: 11 pages, 4 figures

Published
2017
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10. Inverse-phase Rabi oscillations in semiconductor microcavities

Author

Trifonov, A. V., Kopteva, N. E., Durnev, M. V., Gerlovin, I. Ya., Cherbunin, R. V., Tzimis, A., Tsintzos, S. I., Hatzopoulos, Z., Savvidis, P. G., and Kavokin, A. V.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We study experimentally the oscillations of a non stationary transient signal of a semiconductor microcavity with embedded InGaAs quantum wells. The oscillations occur as a result of quantum beats between the upper and lower polariton modes due to the strong exciton-photon coupling in the microcavity sample (Rabi oscillations). The registration of spectrally resolved signal has allowed for separate observation of oscillations at the eigenfrequencies of two polariton modes. Surprisingly, the observed oscillations measured at the lower and upper polariton modes have opposite phases. We demonstrate theoretically that the opposite-phase oscillations are caused by the pump-induced modification of polariton Hopfield coefficients, which govern the ratio of exciton and photon components in each of the polartion modes. Such a behaviour is a fundamental feature of the quantum beats of coupled light-matter states. In contrast, the reference pump-probe experiment performed for the pure excitonic states in a quantum well heterostructure with no microcavity revealed the in-phase oscillations of the pump-probe signals measured at different excitonic levels., Comment: 6 pages, 5 figures

Published
2016
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11. Multiple quantum beats of quantum confined exciton states in InGaAs/GaAs quantum well

Author

Trifonov, A. V., Gerlovin, I. Ya., Ignatiev, I. V., Yugova, I. A., Cherbunin, R. V., Efimov, Yu. P., Eliseev, S. A., Petrov, V. V., and Kavokin, A. V.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Multiple quantum beats of a system of the coherently excited quantum confined exciton states in a high-quality heterostructure with a wide InGaAs/GaAs quantum well are experimentally detected by the spectrally resolved pump-probe method for the first time. The beat signal is observed as at positive as at negative delays between the pump and probe pulses. A theoretical model is developed, which allows one to attribute the QBs at negative delay to the four-wave mixing (FWM) signal detected at the non-standard direction. The beat signal is strongly enhanced by the interference of the FWM wave with the polarization created by the probe pulse. At positive delay, the QBs are due to the mutual interference of the quantum confined exciton states. Several QB frequencies are observed in the experiments, which coincide with the interlevel spacings in the exciton system. The decay time for QBs is of order of several picoseconds at both the positive and negative delays. They are close to the relaxation time of exciton population that allows one to consider the exciton depopulation as the main mechanism of the coherence relaxation in the system under study., Comment: 5 pages, 3 figures

Published
2015
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12. Ultimate photo-induced Kerr rotation achieved in semiconductor microcavities

Author

Cherbunin, R. V., Vladimirova, M., Kavokin, K. V., Mikhailov, A. V., Kopteva, N. E., Lagoudakis, P. G., and Kavokin, A. V.

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

Photoinduced Kerr rotation by more than $\pi /2$ radians is demonstrated in planar quantum well microcavity in the strong coupling regime. This result is close to the predicted theoretical maximum of $\pi $. It is achieved by engineering microcavity parameters such that the optical impedance matching condition is reached at the smallest negative detuning between exciton resonance and the cavity mode. This ensures the optimum combination of the exciton induced optical non-linearity and the enhancement of the Kerr angle by the cavity. Comprehensive analysis of the polarization state of the light in this regime shows that both renormalization of the exciton energy and the saturation of the excitonic resonance contribute to the observed optical nonlinearities., Comment: Shortened version prepared to submit in Phys. Rev. Letters

Published
2014
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13. Optics of spin-noise-induced gyrotropy of asymmetric microcavity

Author

Poltavtsev, S. V., Ryzhov, I. I., Cherbunin, R. V., Mikhailov, A. V., Kopteva, N. E., Kozlov, G. G., Kavokin, K. V., and Zapasskii, V. S.

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

The optical gyrotropy noise of a high-finesse semiconductor Bragg microcavity with an embedded quantum well (QW) is studied at different detunings of the photon mode and the QW exciton resonances. A strong suppression of the noise magnitude for the photon mode frequencies lying above exciton resonances is found. We show that such a critical behavior of the observed optical noise power is specific of asymmetric Fabry-Perot resonators. As follows from our analysis, at a certain level of intracavity loss, the reflectivity of the asymmetric resonator vanishes, while the polarimetric sensitivity to the gyrotropy changes dramatically when moving across the critical point. The results of model calculations are in a good agreement with our experimental data on the spin noise in a single-quantum-well microcavity and are confirmed also by the spectra of the photo-induced Kerr rotation in the pump-probe experiments., Comment: 6 pages, 5 figures

Published
2014
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15. The Knight field and the local nuclear dipole-dipole field in an (In,Ga)As quantum dot ensemble

Author

Auer, T., Oulton, R., Bauschulte, A., Yakovlev, D. R., Bayer, M., Verbin, S. Yu., Cherbunin, R. V., Reuter, D., and Wieck, A. D.

Subjects
Condensed Matter - Other Condensed Matter
Abstract

We present a comprehensive investigation of the electron-nuclear system of negatively charged InGaAs/GaAs self-assembled quantum dots under the influence of weak external magnetic fields (up to 2 mT). We demonstrate that, in contrast to conventional semiconductor systems, these small fields have a profound influence on the electron spin dynamics, via the hyperfine interaction. Quantum dots, with their comparatively limited number of nuclei, present electron-nuclear behavior that is unique to low-dimensional systems. We show that the conventional Hanle effect used to measure electron spin relaxation times, for example, cannot be used in these systems when the spin lifetimes are long. An individual nucleus in the QD is subject to milli-Tesla effective fields, arising from the interaction with its nearest-neighbors and with the electronic Knight field. The alignment of each nucleus is influenced by application of external fields of the same magnitude. A polarized nuclear system, which may have an effective field strength of several Tesla, may easily be influenced by these milli-Tesla fields. This in turn has a dramatic effect on the electron spin dynamics, and we use this technique to gain a measure of both the dipole-dipole field and the maximum Knight field in our system, thus allowing us to estimate the maximum Overhauser field that may be generated at zero external magnetic field. We also show that one may fine-tune the angle which the Overhauser field makes with the optical axis., Comment: 13 pages, 7 figures

Published
2008
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16. Millisecond spin lifetimes in quantum dots at zero applied magnetic field due to strong electron-nuclear interaction

Author

Greilich, A., Oulton, R., Verbin, S. Yu., Cherbunin, R. V., Auer, T., Yakovlev, D. R., Bayer, M., Stavarache, V., Reuter, D., and Wieck, A.

Subjects
Condensed Matter - Other Condensed Matter
Abstract

A key to achieving ultra-long electron spin memory in quantum dots (QDs) at 0~$T$ is the polarization of the nuclei, such that the electron spin is stabilized along the nuclear magnetic field. We demonstrate that spin-polarized electrons in n-doped QDs align the nuclear field via the hyperfine interaction. A feedback onto the electrons occurs, leading to stabilization of electron polarization. We suggest that the coupled electron-nuclear system forms a rigid nuclear spin polaron state as predicted by I.A.~Merkulov, for which spin memory is retained over millisecond lifetimes., Comment: 3 figures

Published
2005

26. Cooling, relaxation and spin temperature of nuclear spin system in GaAs

Author

VLADIMIROVA, Maria, CRONENBERGER, Steeve, SCALBERT, Denis, Kotur, M., Dzhioev, R. i., Ryzhov, I. i., Zapasskii, V. s., Kozlov, G. g., Lemaître, A., Cherbunin, R. v., Korenev, V. l., Sokolov, P. s., Suter, D., Yakovlev, D. r., Bayer, M., Kavokin, K. V., Laboratoire Charles Coulomb (L2C), Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS), Optique des états collectifs et du spin (OECS), Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS), A.F. Ioffe Physical-Technical Institute, Russian Academy of Sciences [Moscow] (RAS), Spin Optics Laboratory, St. Petersburg State University, Centre de Nanosciences et de Nanotechnologies [Orsay] (C2N), Université Paris-Sud - Paris 11 (UP11)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), TU Dortmund, Spin Optics Laboratory, and PRC SPINCOOL

Subjects
[PHYS.COND.CM-GEN]Physics [physics]/Condensed Matter [cond-mat]/Other [cond-mat.other]
Abstract

International audience; Cooling of nuclear spin system (NSS) in doped semiconductors via dynamic polarization by optical pumping is a powerful method for harnessing ubiquitous fluctuations of nuclear spin. The idea of NSS cooling is based on the hypothesis of spin temperature, which states that NSS reaches an internal thermal equilibrium long before it comes to equilibrium with the external bath (crystal lattice). Although thermodynamic framework has been successfully employed for the description of a variety of the experimental data, a rigorous check of this concept in semiconductors was impossible until recently, in particular at low magnetic field. The reason for that is the lack of experimental techniques allowing nonperturbative optical control over adiabatic transformation of the NSS. We have recently developed such methods, based on off-resonant Faraday rotation and spin noise spectroscopy [1,2]. Using these techniques, combined with photoluminescence spectroscopy, we established a comprehensive picture of the nuclear spin relaxation efficiency, its magnetic field, temperature, and carrier concentration dependence in both n- and p-doped GaAs, a model system in the field of nuclear spin physics in semiconductors [3-5]. We also analyzed the interplay between four relevant relaxation mechanisms: hyperfine interaction, quadrupole interaction, spin diffusion towards paramagnetic impurities, and Korringa mechanisms. Figure 1 illustrates these processes in a nuclei-electron coupled system. Understanding of field dependence of NSS dynamics allowed us to obtain a new insight into the NSS thermodynamics, and verify the spin temperature concept in GaAs bulk material and microcavities [6]. We have demonstrated that NSS exactly follows the predictions of the spin temperature theory, despite the quadrupole interaction that was earlier reported to disrupt nuclear spin thermalization in quantum dots [7]. These results open a way for the deep cooling of nuclear spins in semiconductor structures, with the prospect of realizing nuclear spin-ordered states for high-fidelity spin-photon interfaces. References[1] R. Giri et al, Physical Review Letters, 111, 087603 (2013)[2] I. I. Ryzhov et al, Applied Physics Letters, 106, 242405 (2015)[3] M. Kotur et al, Physical Review B, 94, 081201(R) (2016)[4] M. Vladimirova et al, Physical Review B, 95, 125312 (2017)[5] M. Kotur et al, Physical Review B, 97, 165206 (2018)[6] M. Vladimirova et al, Physical Review B, 97, 041301 (2018)[7] P. Maletinsky et al, Nature Physics, 5, 407 (2009)

Published
2018

33. Inverse-phase Rabi oscillations in semiconductor microcavities

Author

Trifonov, A. V., primary, Kopteva, N. E., additional, Durnev, M. V., additional, Gerlovin, I. Ya., additional, Cherbunin, R. V., additional, Tzimis, A., additional, Tsintzos, S. I., additional, Hatzopoulos, Z., additional, Savvidis, P. G., additional, and Kavokin, A. V., additional

Published
2017
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38. Resonant nuclear spin pumping in (In,Ga)As quantum dots

Author

Cherbunin, R. V., primary, Flisinski, K., additional, Gerlovin, I. Ya., additional, Ignatiev, I. V., additional, Kuznetsova, M. S., additional, Petrov, M. Yu., additional, Yakovlev, D. R., additional, Reuter, D., additional, Wieck, A. D., additional, and Bayer, M., additional

Published
2011
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39. Time-resolved Hanle effect in (In,Ga)As/GaAs quantum dots

Author

Cherbunin, R V, primary, Verbin, S Yu, additional, Flisinski, K, additional, Gerlovin, I Ya, additional, Ignatiev, I V, additional, Vishnevsky, D V, additional, Reuter, D, additional, Wieck, A D, additional, Yakovlev, D R, additional, and Bayer, M, additional

Published
2010
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43. Electron-spin dephasing inGaAs∕Al0.34Ga0.66Asquantum wells with a gate-controlled electron density

Author

Gerlovin, I. Ya., primary, Efimov, Yu. P., additional, Dolgikh, Yu. K., additional, Eliseev, S. A., additional, Ovsyankin, V. V., additional, Petrov, V. V., additional, Cherbunin, R. V., additional, Ignatiev, I. V., additional, Yugova, I. A., additional, Fokina, L. V., additional, Greilich, A., additional, Yakovlev, D. R., additional, and Bayer, M., additional

Published
2007
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47. Electron-Nuclear Spin Polarization Dynamics in InGaAs Quantum Dots.

Author

Verbin, S. Yu., Cherbunin, R. V., Ignatiev, I. V., Auer, T., Yakovlev, D. R., Bayer, M., Reuter, D., and Wieck, A. D.

Subjects
*ELECTRON paramagnetic resonance, *QUANTUM dots, *QUANTUM electronics, *CATHODE rays, *POLARIZATION (Nuclear physics)
Abstract

Dynamics of nuclear spin polarization by optically oriented electrons in an (In, Ga)As/GaAs quantum dot ensemble is studied. At the initial polarization stage, the effective nuclear field rises at rates from units to hundreds of T/s going from weak to strong excitation. When it reaches the strength of a few tens of mT, the further rise is drastically slowed down. [ABSTRACT FROM AUTHOR]

Published
2010
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48. Stochastic circular persistent currents of exciton polaritons.

Author

Barrat J, Cherbunin R, Sedov E, Aladinskaia E, Liubomirov A, Litvyak V, Petrov M, Zhou X, Hatzopoulos Z, Kavokin A, and Savvidis PG

Abstract

We monitor the orbital degree of freedom of exciton-polariton condensates confined within an optical trap and unveil the stochastic switching of persistent annular polariton currents under pulse-periodic excitation. Within an elliptical trap, the low-lying in energy polariton current states manifest as a two-petaled density distribution with a swirling phase. In the stochastic regime, the density distribution, averaged over multiple excitation pulses, becomes homogenized in the azimuthal direction. Meanwhile, the weighted phase, extracted from interference experiments, exhibits two compensatory jumps when varied around the center of the trap. Introducing a supplemental control optical pulse to break the reciprocity of the system enables the transition from a stochastic to a deterministic regime, allowing for controlled polariton circulation direction., (© 2024. The Author(s).)

Published
2024
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49. Magnetic compass of garden warblers is not affected by oscillating magnetic fields applied to their eyes.

Author

Bojarinova J, Kavokin K, Pakhomov A, Cherbunin R, Anashina A, Erokhina M, Ershova M, and Chernetsov N

Subjects
Animal Migration, Animals, Avian Proteins metabolism, Seasons, Taxis Response radiation effects, Eye radiation effects, Magnetic Fields, Songbirds physiology
Abstract

The magnetic compass is an important element of the avian navigation system, which allows migratory birds to solve complex tasks of moving between distant breeding and wintering locations. The photochemical magnetoreception in the eye is believed to be the primary biophysical mechanism behind the magnetic sense of birds. It was shown previously that birds were disoriented in presence of weak oscillating magnetic fields (OMF) with frequencies in the megahertz range. The OMF effect was considered to be a fingerprint of the photochemical magnetoreception in the eye. In this work, we used miniaturized portable magnetic coils attached to the bird's head to specifically target the compass receptor. We performed behavioural experiments on orientation of long-distance migrants, garden warblers (Sylvia borin), in round arenas. The OMF with the amplitude of about 5 nT was applied locally to the birds' eyes. Surprisingly, the birds were not disoriented and showed the seasonally appropriate migratory direction. On the contrary, the same birds placed in a homogeneous 5 nT OMF generated by large stationary coils showed clear disorientation. On the basis of these findings, we suggest that the disruption of magnetic orientation of birds by oscillating magnetic fields is not related to photochemical magnetoreceptors in their eyes.

Published
2020
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50. Very weak oscillating magnetic field disrupts the magnetic compass of songbird migrants.

Author

Pakhomov A, Bojarinova J, Cherbunin R, Chetverikova R, Grigoryev PS, Kavokin K, Kobylkov D, Lubkovskaja R, and Chernetsov N

Subjects
Animals, Animal Migration physiology, Magnetic Fields, Songbirds physiology, Taxis Response physiology
Abstract

Previously, it has been shown that long-distance migrants, garden warblers ( Sylvia borin ), were disoriented in the presence of narrow-band oscillating magnetic field (1.403 MHz OMF, 190 nT) during autumn migration. This agrees with the data of previous experiments with European robins ( Erithacus rubecula ). In this study, we report the results of experiments with garden warblers tested under a 1.403 MHz OMF with various amplitudes (∼0.4, 1, ∼2.4, 7 and 20 nT). We found that the ability of garden warblers to orient in round arenas using the magnetic compass could be disrupted by a very weak oscillating field, such as an approximate 2.4, 7 and 20 nT OMF, but not by an OMF with an approximate 0.4 nT amplitude. The results of the present study indicate that the sensitivity threshold of the magnetic compass to the OMF lies around 2-3 nT, while in experiments with European robins the birds were disoriented in a 15 nT OMF but could choose the appropriate migratory direction when a 5 nT OMF was added to the stationary magnetic field. The radical-pair model, one of the mainstream theories of avian magnetoreception, cannot explain the sensitivity to such a low-intensity OMF, and therefore, it needs further refinement., (© 2017 The Author(s).)

Published
2017
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