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270 results on '"Ruffenach, S."'

1. Multi-probe analysis to separate edge currents from bulk currents in quantum spin Hall insulators and to analyze their temperature dependence

Author

Benlenqwanssa, S., Krishtopenko, S. S., Meyer, M., Benhamou-Bui, B., Bonnet, L., Wolf, A., Bray, C., Consejo, C., Ruffenach, S., Nanot, S., Rodriguez, J. -B., Tournié, E., Hartmann, F., Höfling, S., Teppe, F., and Jouault, B.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We present a multi-probe transport analysis that effectively separates bulk and edge currents in large Hall bar devices with standard geometries. Applied to transport measurements on all possible four-probe configurations of six-probe Hall bar devices made of inverted three-layer InAs/GaInSb quantum wells (QWs), our analysis not only reveals the presence of dissipative edge currents in the topological gap, but also allows the temperature dependence of bulk and edge conductivity to be evaluated separately. The temperature dependence of the edge conductivity for Hall bar channels from 10 $\mu$m to 70~$\mu$m in the range of 1.5 K to 45 K is consistent with the theoretical expectation of weakly interacting helical edge electrons with backscattering due to localized magnetic moments of charge impurities. We argue that these charge impurities are naturally associated with intrinsic Ga-antisite defects, which act as double acceptors in InAs/Ga(In)Sb-based QWs.

Published
2024

2. Gate tunable terahertz cyclotron emission from two-dimensional Dirac fermions

Author

Benhamou-Bui, B., Consejo, C., Krishtopenko, S. S., Szoła, M., Maussang, K., Ruffenach, S., Chauveau, E., Benlemqwanssa, S., Bray, C., Baudry, X., Ballet, P., Morozov, S. V., Gavrilenko, V. I., Mikhailov, N. N., Dvoretskii, S. A., Jouault, B., Torres, J., and Teppe, F.

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

Two-dimensional Dirac fermions in HgTe quantum wells close to the topological phase transition can generate significant cyclotron emission that is magnetic field tunable in the Terahertz (THz) frequency range. Due to their relativistic-like dynamics, their cyclotron mass is strongly dependent on their electron concentration in the quantum well, providing a second tunability lever and paving the way for a gate-tunable, permanent-magnet Landau laser. In this work, we demonstrate the proof-of-concept of such a back-gate tunable THz cyclotron emitter at fixed magnetic field. The emission frequency detected at 1.5 Tesla is centered on 2.2 THz and can already be electrically tuned over 250 GHz. With an optimized gate and a realistic permanent magnet of 1.0 Tesla, we estimate that the cyclotron emission could be continuously and rapidly tunable by the gate bias between 1 and 3 THz, that is to say on the less covered part of the THz gap., Comment: 6 pages, 4 figures

Published
2023
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3. Terahertz cyclotron emission from two-dimensional Dirac fermions

Author

Gebert, S., Consejo, C., Krishtopenko, S. S., Ruffenach, S., Szola, M., Torres, J., Bray, C., Jouault, B., Orlita, M., Baudry, X., Ballet, P., Morozov, S. V., Gavrilenko, V. I., Mikhailov, N. N., Dvoretskii, S. A., and Teppe, F.

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

Since the emergence of graphene, we have seen several proposals for the realization of Landau lasers tunable over the terahertz frequency range. The hope was that the non-equidistance of the Landau levels from Dirac fermions would suppress the harmful non-radiative Auger recombination. Unfortunately, even with this non-equidistance an unfavorable non-radiative process persists in Landau-quantized graphene, and so far no cyclotron emission from Dirac fermions has been reported. One way to eliminate this last non-radiative process is to sufficiently modify the dispersion of the Landau levels by opening a small gap in the linear band structure. A proven example of such gapped graphene-like materials are HgTe quantum wells close to the topological phase transition. In this work, we experimentally demonstrate Landau emission from Dirac fermions in such HgTe quantum wells, where the emission is tunable by both the magnetic field and the carrier concentration. Consequently, these results represent an advance in the realization of terahertz Landau lasers tunable by magnetic field and gate-voltage., Comment: Main text with the figures of the published version

Published
2023
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4. Temperature Dependent Zero-Field Splittings in Graphene

Author

Bray, C., Maussang, K., Consejo, C., Delgado-Notario, J. A., Krishtopenko, S. S., Yahniuk, I., Gebert, S., Ruffenach, S., Dinar, K., Moench, E., Indykiewicz, K., Jouault, B., Torres, J., Meziani, Y. M., Knap, W., Yurgens, A., Ganichev, S. D., and Teppe, F.

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

Graphene is a quantum spin Hall insulator with a 45 $\mu$eV wide non-trivial topological gap induced by the intrinsic spin-orbit coupling. Even though this zero-field spin splitting is weak, it makes graphene an attractive candidate for applications in quantum technologies, given the resulting long spin relaxation time. On the other side, the staggered sub-lattice potential, resulting from the coupling of graphene with its boron nitride substrate, compensates intrinsic spin-orbit coupling and decreases the non-trivial topological gap, which may lead to the phase transition into trivial band insulator state. In this work, we present extensive experimental studies of the zero-field splittings in monolayer and bilayer graphene in a temperature range 2K-12K by means of sub-Terahertz photoconductivity-based electron spin resonance technique. Surprisingly, we observe a decrease of the spin splittings with increasing temperature. We discuss the origin of this phenomenon by considering possible physical mechanisms likely to induce a temperature dependence of the spin-orbit coupling. These include the difference in the expansion coefficients between the graphene and the boron nitride substrate or the metal contacts, the electron-phonon interactions, and the presence of a magnetic order at low temperature. Our experimental observation expands knowledge about the non-trivial topological gap in graphene., Comment: Main text with figures (20 pages) and Supplementary Information (14 pages) Accepted in Phys. Rev. B

Published
2022
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5. Large inverted band-gap in strained three-layer InAs/GaInSb quantum wells

Author

Avogadri, C., Gebert, S., Krishtopenko, S. S., Castillo, I., Consejo, C., Ruffenach, S., Roblin, C., Bray, C., Krupko, Y., Juillaguet, S., Contreras, S., Wolf, A., Hartmann, F., Höfling, S., Boissier, G., Rodriguez, J. B., Nanot, S., Tournié, E., Teppe, F., and Jouault, B.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Quantum spin Hall insulators (QSHIs) based on HgTe and three-layer InAs/GaSb quantum wells (QWs) have comparable bulk band-gaps of about 10--18~meV. The former however features a band-gap vanishing with temperature, while the gap in InAs/GaSb QSHIs is rather temperature-independent.Here, we report on the realization of large inverted band-gap in strained three-layer InAs/GaInSb QWs. By temperature-dependent magnetotransport measurements of gated Hall bar devices, we extract a gap as high as 45 meV. Combining local and non-local measurements, we attribute the edge conductivity observed at temperatures up to 40 K to the topological edge channels with equilibration lengths of a few micrometers. Our findings pave the way toward manipulating edge transport at high temperatures in QW heterostructures.

Published
2022

6. Many-particle effects in optical transitions from zero-mode Landau levels in HgTe quantum wells

Author

Krishtopenko, S. S., Kadykov, A. M., Gebert, S., Ruffenach, S., Consejo, C., Torres, J., Avogadri, C., Jouault, B., Knap, W., Mikhailov, N. N., Dvoretskii, S. A., and Teppe, F.

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

We report on the far-infrared magnetospectroscopy of HgTe quantum wells with inverted band ordering at different electron concentrations. We particularly focus on optical transitions from zero-mode Landau levels, which split from the edges of electron-like and hole-like bands. We observe a pronounced dependence of the transition energies on the electron concentration varied by persistent photoconductivity effect. This is striking evidence that in addition to the already well-documented crystalline and interface asymmetries, electron-electron interactions also have a significant impact on the usual behavior of the optical transitions from zero mode Landau levels., Comment: 5 pages, 4 figures and supplemental materials

Published
2019
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7. Massless Dirac fermions in III-V semiconductor quantum wells

Author

Krishtopenko, S. S., Desrat, W., Spirin, K. E., Consejo, C., Ruffenach, S., Gonzalez-Posada, F., Jouault, B., Knap, W., Maremyanin, K. V., Gavrilenko, V. I., Boissier, G., Torres, J., Zaknoune, M., Tournié, E., and Teppe, F.

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

We report on the clear evidence of massless Dirac fermions in two-dimensional system based on III-V semiconductors. Using a gated Hall bar made on a three-layer InAs/GaSb/InAs quantum well, we restore the Landau levels fan chart by magnetotransport and unequivocally demonstrate a gapless state in our sample. Measurements of cyclotron resonance at different electron concentrations directly indicate a linear band crossing at the $\Gamma$ point of Brillouin zone. Analysis of experimental data within analytical Dirac-like Hamiltonian allows us not only determing velocity $v_F=1.8\cdot10^5$ m/s of massless Dirac fermions but also demonstrating significant non-linear dispersion at high energies., Comment: Main text and Supplemental Materials, 14 pages, 9 figures

Published
2018
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8. Terahertz detection of magnetic field-driven topological phase transition in HgTe-based transistors

Author

Kadykov, A., Teppe, F., Consejo, C., Viti, L., Vitiello, M., Coquillat, D., Ruffenach, S., Morozov, S., Kristopenko, S., Marcinkiewicz, M., Dyakonova, N., Knap, W., Gavrilenko, V., Michailov, N. N., and Dvoretskii, S. A.

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

We report on Terahertz detection by inverted band structure HgTe-based Field Effect Transistor up to room temperature. At low temperature, we show that nonlinearities of the transistor channel allows for the observation of the quantum phase transition due to the avoided crossing of zero-mode Landau levels in HgTe 2D topological insulators. These results pave the way towards Terahertz topological Field Effect Transistors.

Published
2018
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9. Temperature-induced topological phase transition in HgTe quantum wells

Author

Kadykov, A. M., Krishtopenko, S. S., Jouault, B., Desrat, W., Knap, W., Ruffenach, S., Consejo, C., Torres, J., Morozov, S. V., Mikhailov, N. N., Dvoretskii, S. A., and Teppe, F.

Subjects
Condensed Matter - Materials Science
Abstract

We report a direct observation of temperature-induced topological phase transition between trivial and topological insulator in HgTe quantum well. By using a gated Hall bar device, we measure and represent Landau levels in fan charts at different temperatures and we follow the temperature evolution of a peculiar pair of "zero-mode" Landau levels, which split from the edge of electron-like and hole-like subbands. Their crossing at critical magnetic field $B_c$ is a characteristic of inverted band structure in the quantum well. By measuring the temperature dependence of $B_c$, we directly extract the critical temperature $T_c$, at which the bulk band-gap vanishes and the topological phase transition occurs. Above this critical temperature, the opening of a trivial gap is clearly observed., Comment: 5 pages + Supplemental Materials; Phys. Rev. Lett. (accepted)

Published
2017
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10. Temperature-driven single-valley Dirac fermions in HgTe quantum wells

Author

Marcinkiewicz, M., Ruffenach, S., Krishtopenko, S. S., Kadykov, A. M., Consejo, C., But, D. B., Desrat, W., Knap, W., Torres, J., Ikonnikov, A. V., Spirin, K. E., Morozov, S. V., Gavrilenko, V. I., Mikhailov, N. N., Dvoretskii, S. A., and Teppe, F.

Subjects
Condensed Matter - Materials Science
Abstract

We report on temperature-dependent magnetospectroscopy of two HgTe/CdHgTe quantum wells below and above the critical well thickness $d_c$. Our results, obtained in magnetic fields up to 16 T and temperature range from 2 K to 150 K, clearly indicate a change of the band-gap energy with temperature. The quantum well wider than $d_c$ evidences a temperature-driven transition from topological insulator to semiconductor phases. At the critical temperature of 90 K, the merging of inter- and intra-band transitions in weak magnetic fields clearly specifies the formation of gapless state, revealing the appearance of single-valley massless Dirac fermions with velocity of $5.6\times10^5$ m$\times$s$^{-1}$. For both quantum wells, the energies extracted from experimental data are in good agreement with calculations on the basis of the 8-band Kane Hamiltonian with temperature-dependent parameters., Comment: 5 pages, 3 figures and Supplemental Materials (4 pages)

Published
2017
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11. Temperature-dependent magnetospectroscopy of HgTe quantum wells

Author

Ikonnikov, A. V., Krishtopenko, S. S., Drachenko, O., Goiran, M., Zholudev, M. S., Platonov, V. V., Kudasov, Yu. B., Korshunov, A. S., Maslov, D. A., Makarov, I. V., Surdin, O. M., Philippov, A. V., Marcinkiewicz, M., Ruffenach, S., Teppe, F., Knap, W., Mikhailov, N. N., Dvoretsky, S. A., and Gavrilenko, V. I.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We report on magnetospectroscopy of HgTe quantum wells in magnetic fields up to 45 T in temperature range from 4.2 K up to 185 K. We observe intra- and inter-band transitions from zero-mode Landau levels, which split from the bottom conduction and upper valence subbands, and merge under the applied magnetic field. To describe experimental results, realistic temperature-dependent calculations of Landau levels have been performed. We show that although our samples are topological insulators at low temperatures only, the signature of such phase persists in optical transitions at high temperatures and high magnetic fields. Our results demonstrate that temperature-dependent magnetospectroscopy is a powerful tool to discriminate trivial and topological insulator phases in HgTe quantum wells.

Published
2016
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12. Temperature-driven massless Kane fermions in HgCdTe crystals: verification of universal velocity and rest-mass description

Author

Teppe, F., Marcinkiewicz, M., Krishtopenko, S. S., Ruffenach, S., Consejo, C., Kadykov, A. M., Desrat, W., But, D., Knap, W., Ludwig, J., Moon, S., Smirnov, D., Orlita, M., Jiang, Z., Morozov, S. V., Gavrilenko, V. I., Mikhailov, N. N., and Dvoretskii, S. A.

Subjects
Condensed Matter - Materials Science
Abstract

It has recently been shown that the electronic states in bulk gapless HgCdTe offer another realization of pseudo-relativistic three-dimensional particles in a condensed matter system. These single valley relativistic states, referred to as massless Kane fermions, cannot be described by any other well-known relativistic massless particles. Furthermore, the HgCdTe band structure can be continuously tailored by modifying either the cadmium content or temperature. At the critical concentration or temperature, the bandgap, Eg, collapses as the system undergoes a semimetal-to-semiconductor topological phase transition between the inverted and normal alignments. Here, using far-infrared magneto-spectroscopy we explore the continuous evolution of band structure of bulk HgCdTe as temperature is tuned across the topological phase transition. We demonstrate that the rest-mass of the Dirac-like Kane fermions, m changes sign at the critical temperature, while their velocity, c remains constant. The relation Eg = 2mc2 with the universal value of c = (1.07 +- 0.05)10x6 m/s remains valid in a broad range of temperatures and Cd concentrations, indicating a striking universality of the pseudo-relativistic description of the Dirac-like Kane fermions in HgCdTe., Comment: 15 pages, 6 figures

Published
2016
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14. Phase mapping of aging process in InN nanostructures: oxygen incorporation and the role of the zincblende phase

Author

Gonzalez, D., Lozano, J. G., Herrera, M., Morales, F. M., Ruffenach, S., Briot, O., and Garcia, R.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Uncapped InN nanostructures undergo a deleterious natural aging process at ambient conditions by oxygen incorporation. The phases involved in this process and their localization is mapped by Transmission Electron Microscopy (TEM) related techniques. The parent wurtzite InN (InN-w) phase disappears from the surface and gradually forms a highly textured cubic layer that completely wraps up a InN-w nucleus which still remains from original single-crystalline quantum dots. The good reticular relationships between the different crystals generate low misfit strains and explain the apparent easiness for phase transformations at room temperature and pressure conditions, but also disable the classical methods to identify phases and grains from TEM images. The application of the geometrical phase algorithm in order to form numerical moire mappings, and RGB multilayered image reconstructions allows to discern among the different phases and grains formed inside these nanostructures. Samples aged for shorter times reveal the presence of metastable InN:O zincblende (zb) volumes, which acts as the intermediate phase between the initial InN-w and the most stable cubic In2O3 end phase. These cubic phases are highly twinned with a proportion of 50:50 between both orientations. We suggest that the existence of the intermediate InN:O-zb phase should be seriously considered to understand the reason of the widely scattered reported fundamental properties of thought to be InN-w, as its bandgap or superconductivity., Comment: 18 pages 7 figures

Published
2009
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15. Gate tunable terahertz cyclotron emission from two-dimensional Dirac fermions

Author

Benhamou-Bui, B., primary, Consejo, C., additional, Krishtopenko, S. S., additional, Szola, M., additional, Maussang, K., additional, Ruffenach, S., additional, Chauveau, E., additional, Benlemqwanssa, S., additional, Bray, C., additional, Baudry, X., additional, Ballet, P., additional, Morozov, S. V., additional, Gavrilenko, V. I., additional, Mikhailov, N. N., additional, Dvoretskii, S. A., additional, Jouault, B., additional, Torres, J., additional, and Teppe, F., additional

Published
2023
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16. Tunable Terahertz Cyclotron Emission from Two-Dimensional Dirac Fermions

Author

Benhamou--Bui, B., primary, Gebert, S., additional, Szola, M., additional, Consejo, C., additional, Krishtopenko, S. S., additional, Ruffenach, S., additional, Torres, J., additional, Bray, C., additional, Jouault, B., additional, Maussang, K., additional, Orlita, M., additional, Baudry, X., additional, Ballet, P., additional, Morozov, S. V., additional, Gavrilenko, V. I., additional, Mikhailov, N. N., additional, Dvoretskii, S. A., additional, and Teppe, F., additional

Published
2023
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17. Temperature dependance of Intrinsic Spin Orbit Coupling Gap in Graphene probed by Terahertz photoconductivity

Author

Maussang, K., primary, Dinar, K., additional, Bray, C., additional, Consejo, C., additional, Delgado-Notario, J.A., additional, Krishtopenko, S., additional, Yahniuk, I., additional, Gerbert, S., additional, Ruffenach, S., additional, Moench, E., additional, Indykiewicz, K., additional, Benhamou—Bui, B., additional, Jouault, B., additional, Torres, J., additional, Meziani, Y. M., additional, Knap, W., additional, Yurgens, A., additional, Ganichev, S.D., additional, and Teppe, F., additional

Published
2023
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19. Terahertz cyclotron emission from two-dimensional Dirac fermions

Author

Gebert, S., primary, Consejo, C., additional, Krishtopenko, S. S., additional, Ruffenach, S., additional, Szola, M., additional, Torres, J., additional, Bray, C., additional, Jouault, B., additional, Orlita, M., additional, Baudry, X., additional, Ballet, P., additional, Morozov, S. V., additional, Gavrilenko, V. I., additional, Mikhailov, N. N., additional, Dvoretskii, S. A., additional, and Teppe, F., additional

Published
2023
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20. Temperature-dependent zero-field splittings in graphene

Author

Bray, C., primary, Maussang, K., additional, Consejo, C., additional, Delgado-Notario, J. A., additional, Krishtopenko, S., additional, Yahniuk, I., additional, Gebert, S., additional, Ruffenach, S., additional, Dinar, K., additional, Moench, E., additional, Eroms, J., additional, Indykiewicz, K., additional, Jouault, B., additional, Torres, J., additional, Meziani, Y. M., additional, Knap, W., additional, Yurgens, A., additional, Ganichev, S. D., additional, and Teppe, F., additional

Published
2022
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21. Large inverted band gap in strained three-layer InAs/GaInSb quantum wells

Author

Avogadri, C., primary, Gebert, S., additional, Krishtopenko, S. S., additional, Castillo, I., additional, Consejo, C., additional, Ruffenach, S., additional, Roblin, C., additional, Bray, C., additional, Krupko, Y., additional, Juillaguet, S., additional, Contreras, S., additional, Wolf, A., additional, Hartmann, F., additional, Höfling, S., additional, Boissier, G., additional, Rodriguez, J.-B., additional, Nanot, S., additional, Tournié, E., additional, Teppe, F., additional, and Jouault, B., additional

Published
2022
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26. THz spectroscopy to probe long-range electrodynamic interactions between proteins

Author

Ruffenach, S., primary, Lechelon, M., additional, Meriguet, Y., additional, Gori, M., additional, Nardecchia, I., additional, Floriani, E., additional, Coquillat, D., additional, Teppe, F., additional, Mailfert, S., additional, Marguet, D., additional, Ferrier, P., additional, Varani, L., additional, Sturgis, J., additional, Pettini, M., additional, and Torres, J., additional

Published
2022
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44. Massless Dirac fermions in III-V semiconductor quantum wells

Author

Krishtopenko, S. S., primary, Desrat, W., additional, Spirin, K. E., additional, Consejo, C., additional, Ruffenach, S., additional, Gonzalez-Posada, F., additional, Jouault, B., additional, Knap, W., additional, Maremyanin, K. V., additional, Gavrilenko, V. I., additional, Boissier, G., additional, Torres, J., additional, Zaknoune, M., additional, Tournié, E., additional, and Teppe, F., additional

Published
2019
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49. Spectroscopy of Temperature-Driven Single Valley Dirac Fermions in HgTe/CdHgTe Quantum Wells

Author

Kadvkov, A.M., primary, Krishtopenko, S.S., additional, Jouault, B., additional, Desrat, W., additional, Marcinkiewicz, M., additional, Ruffenach, S., additional, Consejo, C., additional, Torres, J., additional, Morozov, S.V., additional, Gavrilenko, V.I., additional, Mikhailov, N.N., additional, Dvoretskii, S.A., additional, Knap, W., additional, and Teppe, F., additional

Published
2018
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50. Temperature-dependent terahertz spectroscopy of inverted-band three-layer InAs/GaSb/InAs quantum well

Author

Krishtopenko, S. S., primary, Ruffenach, S., additional, Gonzalez-Posada, F., additional, Boissier, G., additional, Marcinkiewicz, M., additional, Fadeev, M. A., additional, Kadykov, A. M., additional, Rumyantsev, V. V., additional, Morozov, S. V., additional, Gavrilenko, V. I., additional, Consejo, C., additional, Desrat, W., additional, Jouault, B., additional, Knap, W., additional, Tournié, E., additional, and Teppe, F., additional

Published
2018
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