1. Kalitukha,IV; Yalcin,E; Ken,OS; Korenev,VL; Akimov,IA; Harkort,C; Dimitriev,GS; Kudlacik,D; Sapega,VF; Nedelea,V; Zhukov,EA; Yakovlev,DR; Banshchikov,AG; Kaveev,AK; Karczewski,G; Wojtowicz,T; Muller,M; Bayer,M
Universal magnetic proximity effect in ferromagnet-semiconductor quantum well hybrid structures. J. Chem. Phys., v.159, 1, 2023, ArtNo: #014702
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2. Gillard,DJ; Lyons,TP; Leblanc,C; Puebla,J; Solnyshkov,DD; Klompmaker,L; Akimov,IA; Louca,C; Muduli,P; Genco,A; Bayer,M; Otani,Y; Malpuech,G; Tartakovskii,AI
Giant effective Zeeman splitting in a monolayer semiconductor realised by spin selective strong light-matter coupling. Proc. SPIE, v.PC12423,
В книге (сборнике): 2D PHOTONIC MATERIALS AND DEVICES VI, 2023, 2023
2D Photonic Materials and Devices VI, 2023; San Francisco, California, USA; 28 January - 02 February 2023
https://doi.org/10.1117/12.2645637

3. Khramova,AE; Kobecki,M; Akimov,IA; Savochkin,IV; Kozhaev,MA; Shaposhnikov,AN; Berzhansky,VN; Zvezdin,AK; Bayer,М; Belotelov,VI
Tuning the directionality of spin waves generated by femtosecond laser pulses in a garnet film by optically driven ferromagnetic resonance. Phys. Rev. B, v.107, 6, 2023, ArtNo: #064415
http://dx.doi.org/10.1103/PhysRevB.107.064415

4. Godejohann,F; Akhmadullin,RR; Kavokin,KV; Yakovlev,DR; Akimov,IA; Namozov,BR; Kusrayev,YuG; Karczewski,G; Wojtowicz,T; Bayer,M
Trion magnetic polarons in (Cd,Mn)Te/(Cd,Mn,Mg)Te quantum wells. Phys. Rev. B, v.106, 19, 2022, ArtNo: #195305
http://dx.doi.org/10.1103/PhysRevB.106.195305

5. Lyons,TP; Gillard,DJ; Leblanc,C; Puebla,J; Solnyshkov,DD; Klompmaker,L; Akimov,IA; Louca,C; Muduli,P; Genco,A; Bayer,M; Otani,Y; Malpuech,G; Tartakovskii,AI
Giant effective Zeeman splitting in a monolayer semiconductor realized by spin-selective strong light-matter coupling. Nat. Photon., v.16, 2022, p. 632 - 636
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6. Kosarev,AN; Trifonov,AV; Yugova,IA; Yanibekov,II; Poltavtsev,SV; Kamenskii,AN; Scholz,SE; Sgroi,CA; Ludwig,A; Wieck,AD; Yakovlev,DR; Bayer,M; Akimov,IA
Extending the time of coherent optical response in ensemble of singly-charged InGaAs quantum dots. Commun. Phys., v.5, 1, 2022, ArtNo: #144
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7. Khramova,AE; Kobecki,M; Akimov,IA; Savochkin,IV; Kozhaev,MA; Shaposhnikov,AN; Berzhansky,VN; Zvezdin,AK; Bayer,M; Belotelov,VI
Accumulation and control of spin waves in magnonic dielectric microresonators by a comb of ultrashort laser pulses. Sci. Rep., v.12, 1, 2022, ArtNo: #7369
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8. Klompmaker,L; Poddubny,AN; Yalcin,E; Litvin,LV; Jede,R; Karczewski,G; Chusnutdinow,S; Wojtowicz,T; Yakovlev,DR; Bayer,M; Akimov,IA
Transverse magnetic routing of light emission in hybrid plasmonic-semiconductor nanostructures: Towards operation at room temperature. Phys. Rev. Res., v.4, 1, 2022, ArtNo: #013058
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9. Trifonov,AV; Grisard,S; Kosarev,AN; Akimov,IA; Yakovlev,DR; Hocker,J; Dyakonov,V; Bayer,M
Photon Echo Polarimetry of Excitons and Biexcitons in a CH3NH3PbI3 Perovskite Single Crystal. ACS Photonics, v.9, 2, 2022, p. 621 - 629
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10. Trifonov,AV; Akimov,IA; Golub,LE; Ivchenko,EL; Yugova,IA; Kosarev,AN; Scholz,SE; Sgroi,C; Ludwig,A; Wieck,AD; Yakovlev,DR; Bayer,M
Homogeneous optical anisotropy in an ensemble of InGaAs quantum dots induced by strong enhancement of the heavy-hole band Lande parameter q. Phys. Rev. B, v.104, 16, 2021, ArtNo: #L161405
http://dx.doi.org/10.1103/PhysRevB.104.L161405

11. Reichelt,M; Rose,H; Kosarev,AN; Poltavtsev,SV; Bayer,M; Akimov,IA; Schneider,C; Kamp,M; Hofling,S; Meier,T
Controlling the emission time of photon echoes by optical freezing of exciton dephasing and rephasing in quantum-dot ensembles. Proc. SPIE, v.11684,
В книге (сборнике): ULTRAFAST PHENOMENA AND NANOPHOTONICS XXV 2021, 2021, ArtNo: #116840X
Ultrafast Phenomena and Nanophotonics XXV 2021; Online Only, USA; 6-11 March 2021
http://dx.doi.org/10.1117/12.2576887

12. Kalitukha,IV; Ken,OS; Korenev,VL; Akimov,IA; Sapega,VF; Yakovlev,DR; Dimitriev,GS; Langer,L; Karczewski,G; Chusnutdinow,S; Wojtowicz,T; Bayer,M
Coexistence of Short- and Long-Range Ferromagnetic Proximity Effects in a Fe/(Cd,Mg)Te/CdTe Quantum Well Hybrid Structure. Nano Lett., v.21, 6, 2021, p. 2370 - 2375
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13. Akimov,IA; Poddubny,AN; Vondran,J; Vorobyov,YuV; Litvin,LV; Jede,R; Karczewski,G; Chusnutdinow,S; Wojtowicz,T; Bayer,M
Plasmon-to-exciton spin conversion in semiconductor-metal hybrid nanostructures. Phys. Rev. B, v.103, 8, 2021, ArtNo: #085425
http://dx.doi.org/10.1103/PhysRevB.103.085425

14. Poltavtsev,SV; Yugova,IA; Kosarev,AN; Yakovlev,DR; Karczewski,G; Chusnutdinow,S; Wojtowicz,T; Akimov,IA; Bayer,M
In-plane anisotropy of the hole g factor in CdTe/(Cd,Mg)Te quantum wells studied by spin-dependent photon echoes. Phys. Rev. Res., v.2, 2, 2020, ArtNo: #023160
http://dx.doi.org/10.1103/PhysRevResearch.2.023160

15. Kosarev,AN; Rose,H; Poltavtsev,SV; Reichelt,M; Schneider,C; Kamp,M; Hofling,S; Bayer,M; Meier,T; Akimov,IA
Accurate photon echo timing by optical freezing of exciton dephasing and rephasing in quantum dots. Commun. Phys., v.3, 1, 2020, ArtNo: #228
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16. Kobecki,M; Scherbakov,AV; Linnik,TL; Kukhtaruk,SM; Gusev,VE; Pattnaik,DP; Akimov,IA; Rushforth,AW; Akimov,AV; Bayer,M
Resonant thermal energy transfer to magnons in a ferromagnetic nanolayer. Nat. Commun., v.11, 1, 2020, ArtNo: #4130
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17. Некрасов,СВ; Кусраев,ЮГ; Акимов,ИА; Langer,L; Kotur,M; Яковлев,ДР; Байер,М
Спиновая динамика отрицательно заряженных экситонов в квантовых точках InP/(In,Ga)P в магнитном поле. ФТТ, т.62, 11, 2020, с. 1816 - 1821
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18. Poltavtsev,SV; Dzhioev,RI; Korenev,VL; Akimov,IA; Kudlacik,D; Yakovlev,DR; Bayer,M
Steplike spectral distribution of photoelectrons at the percolation threshold in heavily p-doped GaAs. Phys. Rev. B, v.102, 1, 2020, ArtNo: #014204
http://dx.doi.org/10.1103/PhysRevB.102.014204

19. Ken,OS; Zhukov,EA; Akimov,IA; Korenev,VL; Kopteva,NE; Kalitukha,IV; Sapega,VF; Wieck,AD; Ludwig,A; Schott,R; Kusrayev,YG; Yakovlev,DR; Bayer,M
Effect of electric current on the optical orientation of interface electrons in AlGaAs/GaAs heterostructures. Phys. Rev. B, v.102, 4, 2020, ArtNo: #045302
http://dx.doi.org/10.1103/PhysRevB.102.045302

20. Dyakov,SA; Spitzer,F; Akimov,I; Yavsin,DA; Pavlov,SI; Verbin,SY; Tikhodeev,SG; Gippius,NA; Pevtsov,AB; Bayer,M
Wide band enhancement of transverse magneto-optic Kerr effect in magnetite. J. Phys.: Conf. Ser., v.1461, 1,
В книге (сборнике): 4TH INTERNATIONAL CONFERENCE ON METAMATERIALS AND NANOPHOTONICS, METANANO 2019, 2020, ArtNo: #012033
4th International Conference on Metamaterials and Nanophotonics, METANANO 2019; St. Petersburg, Russian Federation; 15-19 July 2019
http://dx.doi.org/10.1088/1742-6596/1461/1/012033