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48 results on '"Grishunin, K. A."'

1. Effective rectification of THz electromagnetic fields in a ferrimagnetic iron garnet

Author

Blank, T. G. H., Mashkovich, E. A., Grishunin, K. A., Schippers, C., Logunov, M. V., Koopmans, B., Zvezdin, A. K., and Kimel, A. V.

Subjects
Condensed Matter - Materials Science, Physics - Optics
Abstract

It is found that single-cycle THz electromagnetic fields efficiently excite a GHz spin resonance mode in ferrimagnetic Tm$_3$Fe$_5$O$_{12}$, despite the near absence of GHz spectral components in the exciting THz pulse. By analyzing how the efficiency of excitation depends on the orientation and strength of the THz electric field, we show that it can be explained in terms of the nonlinear THz inverse Cotton-Mouton effect. Here, the THz electric field gets effectively rectified and acts on the ferrimagnetic spins as a uni-polar effective magnetic field pulse. This interpretation is confirmed by a theoretical model based on the phenomenological analysis of the effective magnetic field, combined with the equations of motion derived from the effective Lagrangian for a ferrimagnet. Moreover, by using the outcome of two-dimensional THz spectroscopy, we conjecture a quantum-mechanical interpretation of the observed effect in terms of stimulated Raman scattering of THz photons by the crystal-field split f-f electronic transitions of Tm$^{3+}$., Comment: 15 pages, 9 figures

Published
2023
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2. Empowering Control of Antiferromagnets by THz-induced Spin Coherence

Author

Blank, T. G. H., Grishunin, K. A., Ivanov, B. A., Mashkovich, E. A., Afanasiev, D., and Kimel, A. V.

Subjects
Condensed Matter - Materials Science
Abstract

Finding efficient and ultrafast ways to control antiferromagnets is believed to be instrumental in unlocking their potential for magnetic devices operating at THz frequencies. Still, it is challenged by the absence of net magnetization in the ground state. Here, we show that the magnetization emerging from a state of coherent spin precession in antiferromagnetic iron borate FeBO$_3$ can be used to enable the nonlinear coupling of light to another, otherwise weakly susceptible, mode of spin precession. This nonlinear mechanism can facilitate conceptually new ways of controlling antiferromagnetism., Comment: 19 pages, 9 figures

Published
2022
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3. Two-dimensional THz spectroscopy of nonlinear phononics in the topological insulator $\mathrm{MnBi}_2\mathrm{Te}_4$

Author

Blank, T. G. H., Grishunin, K. A., Zvezdin, K. A., Hai, N. T., Wu, J. C., Su, S. -H., Huang, J. -C. A., Zvezdin, A. K., and Kimel, A. V.

Subjects
Condensed Matter - Materials Science
Abstract

The interaction of a single-cycle THz electric field with the topological insulator $\mathrm{MnBi}_2\mathrm{Te}_4$ triggers strongly anharmonic lattice dynamics, promoting fully coherent energy transfer between the otherwise non-interacting Raman-active $E_g$ and infrared (IR)-active $E_u$ phononic modes. Two-dimensional (2D) THz spectroscopy combined with modeling based on the classical equations of motion and symmetry analysis reveals the multi-stage process underlying the excitation of the Raman-active $E_g$ phonon. In this process, the THz electric field first prepares a coherent IR-active $E_u$ phononic state and subsequently interacts with this state to efficiently excite the $E_g$ phonon., Comment: 27 pages, 20 figures

Published
2022
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4. Excitation and Detection of THz Coherent Spin Waves in Antiferromagnetic $\mathrm{\alpha-Fe_2O_3}$

Author

Grishunin, K., Mashkovich, E. A., Balbashov, A. M., Zvezdin, A. K., and Kimel, A. V.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

The efficiency of ultrafast excitation of spins in antiferromagnetic $\mathrm{\alpha-Fe_{2}O_{3}}$ using nearly single-cycle THz pulse is studied as a function of the polarization of the THz pulse and the sample temperature. Above the Morin point the most efficient excitation is achieved when the magnetic field of the THz pulse is perpendicular to the antiferromagnetically coupled spins. Using the experimental results and equations of motion for spins, we show that the mechanism of the spin excitation above and below the Morin point relies on magnetic-dipole interaction of the THz magnetic field with spins and the efficiency of the coupling is proportional to the time derivative of the magnetic field.

Published
2021
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5. THz Field-induced Spin Dynamics in Ferrimagnetic Iron Garnets

Author

Blank, T. G. H., Grishunin, K. A., Mashkovich, E. A., Logunov, M. V., Zvezdin, A. K., and Kimel, A. V.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons
Abstract

THz magnetization dynamics is excited in ferrimagnetic thulium iron garnet with a picosecond, single-cycle magnetic field pulse and seen as a high-frequency modulation of the magneto-optical Faraday effect. Data analysis combined with numerical modelling and evaluation of the effective Lagrangian allow us to conclude that the dynamics corresponds to the exchange mode excited by Zeeman interaction of the THz field with the antiferromagnetically coupled spins. We argue that THz-pump IR-probe experiments on ferrimagnets offer a unique tool for quantitative studies of dynamics and mechanisms to control antiferromagnetically coupled spins., Comment: 17 pages, 16 figures

Published
2021
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6. Laser induced THz emission from femtosecond photocurrents in Co/ZnO/Pt and Co/Cu/Pt multilayers

Author

Li, G., Mikhaylovskiy, R. V., Grishunin, K. A., Costa, J. D., Rasing, Th., and Kimel, A. V.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The ultrashort laser excitation of Co/Pt magnetic heterostructures can effectively generate spin and charge currents at the interfaces between magnetic and nonmagnetic layers. The direction of these photocurrents can be controlled by the helicity of the circularly polarized laser light and an external magnetic field. Here, we employ THz time-domain spectroscopy to investigate further the role of interfaces in these photo-galvanic phenomena. In particular, the effects of either Cu or ZnO interlayers on the photocurrents in Co/X/Pt (X = Cu, ZnO) have been studied by varying the thickness of the interlayers up to 5 nm. The results are discussed in terms of spin-diffusion phenomena and interfacial spin-orbit torque., Comment: 15 pages, 6 figures, 2 tables

Published
2017
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13. Terahertz wave rectification in a ferroelectric triglycine sulfate single crystal

Author

Bilyk, V., Grishunin, K., Tinnemans, P., Rasing, T.H.M., Kirilyuk, A., Sergeeva, O., Sherstyuk, N., Mishina, E., Lavrov, S., Sigov, A., Bilyk, V., Grishunin, K., Tinnemans, P., Rasing, T.H.M., Kirilyuk, A., Sergeeva, O., Sherstyuk, N., Mishina, E., Lavrov, S., and Sigov, A.

Abstract

Contains fulltext : 293345.pdf (Publisher’s version ) (Closed access)

Published
2023

19. Nonlinear terahertz Kerr effect in quasi-2D MnPS3

Author

Cheng, Long, Formisano, Fabio, Grishunin, K., Gorelov, Sergey D., Loosdrecht, P.H.M. van, Yan, J, Sheng, Zhigao, Mashkovich, Evgeny A., Cheng, Long, Formisano, Fabio, Grishunin, K., Gorelov, Sergey D., Loosdrecht, P.H.M. van, Yan, J, Sheng, Zhigao, and Mashkovich, Evgeny A.

Abstract

Contains fulltext : 253553.pdf (Publisher’s version ) (Closed access)

Published
2022

20. Terahertz-driven magnetization dynamics of bismuth-substituted yttrium iron-gallium garnet thin film near a compensation point

Author

Mashkovich, E.A., Grishunin, K., Zvezdin, A.K., Blank, T.G.H., Zavyalov, A.G., Loosdrecht, P.H.M. van, Kalashnikova, A.M., Kimel, A.V., Mashkovich, E.A., Grishunin, K., Zvezdin, A.K., Blank, T.G.H., Zavyalov, A.G., Loosdrecht, P.H.M. van, Kalashnikova, A.M., and Kimel, A.V.

Abstract

Contains fulltext : 286742.pdf (Publisher’s version ) (Open Access)

Published
2022

21. THz-control of antiferromagnetic spins

Author

Kimel, A.V., Grishunin, K., Kimel, A.V., and Grishunin, K.

Abstract

Radboud University, 29 november 2022, Promotor : Kimel, A.V., Contains fulltext : 283336.pdf (Publisher’s version ) (Open Access)

Published
2022

22. Effect of antiferromagnetic order on a propagating single-cycle THz pulse

Author

Metzger, T.W.J., Grishunin, K., Afanasiev, D., Dubrovin, R.M., Mashkovich, E.A., Pisarev, R.V, Kimel, A.V., Metzger, T.W.J., Grishunin, K., Afanasiev, D., Dubrovin, R.M., Mashkovich, E.A., Pisarev, R.V, and Kimel, A.V.

Abstract

Contains fulltext : 286741.pdf (Publisher’s version ) (Closed access)

Published
2022

23. Effect of antiferromagnetic order on a propagating single-cycle THz pulse

Author

Metzger, T. W. J., Grishunin, K. A., Afanasiev, D., Dubrovin, R. M., Mashkovich, E. A., Pisarev, R. V., Kimel, A. V., Metzger, T. W. J., Grishunin, K. A., Afanasiev, D., Dubrovin, R. M., Mashkovich, E. A., Pisarev, R. V., and Kimel, A. V.

Abstract

Employing polarization sensitive terahertz (THz) transmission spectroscopy, we explored how the waveform of initially single-cycle linearly polarized THz pulses changes upon propagation through a thick antiferromagnetic crystal of CoF2. The changes upon propagation through CoF2 are found to depend strongly on both the incoming polarization and temperature. In particular, the ellipticity and polarization rotation acquired by initially linearly polarized light are quantified and explained in terms of magnetic linear birefringence and dichroism. Although the magneto-optical effects are often considered to be relatively weak, our experiments reveal that the polarization of the THz pulse substantially changes along the pulse duration. The pulse shape is further complicated by features assigned to the formation of magnon-polaritons. The findings clearly show the importance of accounting for propagation effects in antiferromagnetic spintronics and magnonics.

Published
2022

26. Magneto-optical detection of terahertz cavity magnon-polaritons in antiferromagnetic HoFeO3.

Author

Blank, T. G. H., Grishunin, K. A., and Kimel, A. V.

Subjects
*MAGNONS, *MAGNETOOPTICS, *MAXWELL equations, *FARADAY effect, *MAGNETIC resonance, *HEART beat
Abstract

An intense THz pulse excites a high-Q magnetic resonance mode in the antiferromagnetic insulator HoFeO3 by the THz Zeeman torque. By using magneto-optical detection and sweeping the temperature, we observed an anomalous beating in the magnon dynamics for certain temperatures. The beating originates from the formation of cavity magnon-polaritons upon the intersection of the antiferromagnetic resonance frequency with the frequencies of the Fabry–Pérot modes inside the etalon formed by the sample cavity in the weak coupling limit. The validity of this idea is demonstrated by simulations using Maxwell's equations. Furthermore, the observed beating pattern depends on the polarization of the probe pulse. This dependence can be reproduced in the simulations by considering an imaginary Verdet constant, which could be a result of an interplay between the magneto-optical Faraday effect and static linear birefringence. [ABSTRACT FROM AUTHOR]

Published
2023
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27. Magneto-optical detection of terahertz cavity magnon-polaritons in antiferromagnetic HoFeO3.

Author

Blank, T. G. H., Grishunin, K. A., and Kimel, A. V.

Subjects
MAGNONS, MAGNETOOPTICS, MAXWELL equations, FARADAY effect, MAGNETIC resonance, HEART beat
Abstract

An intense THz pulse excites a high-Q magnetic resonance mode in the antiferromagnetic insulator HoFeO3 by the THz Zeeman torque. By using magneto-optical detection and sweeping the temperature, we observed an anomalous beating in the magnon dynamics for certain temperatures. The beating originates from the formation of cavity magnon-polaritons upon the intersection of the antiferromagnetic resonance frequency with the frequencies of the Fabry–Pérot modes inside the etalon formed by the sample cavity in the weak coupling limit. The validity of this idea is demonstrated by simulations using Maxwell's equations. Furthermore, the observed beating pattern depends on the polarization of the probe pulse. This dependence can be reproduced in the simulations by considering an imaginary Verdet constant, which could be a result of an interplay between the magneto-optical Faraday effect and static linear birefringence. [ABSTRACT FROM AUTHOR]

Published
2023
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31. THz-Scale Field-Induced Spin Dynamics in Ferrimagnetic Iron Garnets

Author

Blank, T.G.H., Grishunin, K., Mashkovich, E.A., Logunov, M., Zvezdin, A.K., Kimel, A.V., Blank, T.G.H., Grishunin, K., Mashkovich, E.A., Logunov, M., Zvezdin, A.K., and Kimel, A.V.

Abstract

Contains fulltext : 236045.pdf (Publisher’s version ) (Open Access)

Published
2021

32. Excitation and detection of terahertz coherent spin waves in antiferromagnetic alpha-Fe2O3

Author

Grishunin, K., Mashkovich, E. A., Kimel, A., V, Balbashov, A. M., Zvezdin, A. K., Grishunin, K., Mashkovich, E. A., Kimel, A., V, Balbashov, A. M., and Zvezdin, A. K.

Abstract

The efficiency of the ultrafast excitation of spins in antiferromagnetic alpha-Fe2O3 using a nearly single-cycle THz pulse is studied as a function of the polarization of the THz pulse and the sample temperature. Above the Morin point the most efficient excitation is achieved when the magnetic field of the THz pulse is perpendicular to the antiferromagnetically coupled spins. Using the experimental results and equations of motion for spins, we show that the mechanism of the spin excitation above and below the Morin point relies on a magnetic-dipole interaction of the THz magnetic field with spins, and the mechanism implies that the efficiency of the coupling is proportional to the time derivative of the magnetic field.

Published
2021

36. Terahertz Optomagnetism: Nonlinear THz Excitation of GHz Spin Waves in Antiferromagnetic FeBO3

Author

Mashkovich, E.A., Grishunin, K., Mikhaylovskiy, R., Zvezdin, A.K., Pisarev, R., V, Strugatsky, M.B., Christianen, P.C.M., Rasing, T.H.M., Kimel, A.V., Mashkovich, E.A., Grishunin, K., Mikhaylovskiy, R., Zvezdin, A.K., Pisarev, R., V, Strugatsky, M.B., Christianen, P.C.M., Rasing, T.H.M., and Kimel, A.V.

Abstract

Contains fulltext : 208926.pdf (publisher's version ) (Open Access)

Published
2019

37. Terahertz modulation of the Cotton-Mouton effect

Author

Barsaume, S., Mashkovich, E.A., Grishunin, K., Telegin, A.V., Sukhorukov, Y.P., Christianen, P.C.M., Rasing, T.H.M., Kimel, A.V., Barsaume, S., Mashkovich, E.A., Grishunin, K., Telegin, A.V., Sukhorukov, Y.P., Christianen, P.C.M., Rasing, T.H.M., and Kimel, A.V.

Abstract

Contains fulltext : 215060.pdf (publisher's version ) (Open Access)

Published
2019

38. Terahertz Optomagnetism:Nonlinear THz Excitation of GHz Spin Waves in Antiferromagnetic FeBO3

Author

Mashkovich, E. A., Grishunin, K. A., Mikhaylovskiy, R. V., Zvezdin, A. K., Pisarev, R. V., Strugatsky, M. B., Christianen, P. C.M., Rasing, Th, Kimel, A. V., Mashkovich, E. A., Grishunin, K. A., Mikhaylovskiy, R. V., Zvezdin, A. K., Pisarev, R. V., Strugatsky, M. B., Christianen, P. C.M., Rasing, Th, and Kimel, A. V.

Abstract

A nearly single cycle intense terahertz (THz) pulse with peak electric and magnetic fields of 0.5 MV/cm and 0.16 T, respectively, excites both modes of spin resonances in the weak antiferromagnet FeBO3. The high frequency quasiantiferromagnetic mode is excited resonantly and its amplitude scales linearly with the strength of the THz magnetic field, whereas the low frequency quasiferromagnetic mode is excited via a nonlinear mechanism that scales quadratically with the strength of the THz electric field and can be regarded as a THz inverse Cotton-Mouton effect. THz optomagnetism is shown to be more energy efficient than similar effects reported previously for the near-infrared spectral range.

Published
2019

46. Terahertz Optomagnetism: Nonlinear THz Excitation of GHz Spin Waves in Antiferromagnetic FeBO3.

Author

Mashkovich, E. A., Grishunin, K. A., Mikhaylovskiy, R. V., Zvezdin, A. K., Pisarev, R. V., Strugatsky, M. B., Christianen, P. C. M., Rasing, Th., and Kimel, A. V.

Subjects
*SPIN excitations, *MAGNETIC flux density, *MAGNETIC fields, *ELECTRIC fields, *SPIN waves, *ANTIFERROMAGNETISM
Abstract

A nearly single cycle intense terahertz (THz) pulse with peak electric and magnetic fields of 0.5 MV/cm and 0.16 T, respectively, excites both modes of spin resonances in the weak antiferromagnet FeBO3. The high frequency quasiantiferromagnetic mode is excited resonantly and its amplitude scales linearly with the strength of the THz magnetic field, whereas the low frequency quasiferromagnetic mode is excited via a nonlinear mechanism that scales quadratically with the strength of the THz electric field and can be regarded as a THz inverse Cotton-Mouton effect. THz optomagnetism is shown to be more energy efficient than similar effects reported previously for the near-infrared spectral range. [ABSTRACT FROM AUTHOR]

Published
2019
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47. Research of influence of technological admissions on characteristics of a solid-state wave gyroscope

Author

Pevtsov, E Ph, Demenkova, T A, and Grishunin, K A

Abstract

The route of design and technique of simulation of a wave solid-state gyroscope with the ring resonator are developed. Simulation of dependences of gyroscope characteristics on design data and their optimization for the job of the necessary mode of movement, in particular, of resonance frequency of excitation of the second mode are executed. The technique of compensation of the mass defects resulting from admissions on technological operations of production of a wave solid-state gyroscope (technological defects) and leading to the shift of initial provision of nodal points is presented.

Published
2019

48. Two-Dimensional Terahertz Spectroscopy of Nonlinear Phononics in the Topological Insulator MnBi_{2}Te_{4}.

Author

Blank TGH, Grishunin KA, Zvezdin KA, Hai NT, Wu JC, Su SH, Huang JA, Zvezdin AK, and Kimel AV

Abstract

The interaction of a single-cycle terahertz electric field with the topological insulator MnBi_{2}Te_{4} triggers strongly anharmonic lattice dynamics, promoting fully coherent energy transfer between the otherwise noninteracting Raman-active E_{g} and infrared (IR)-active E_{u} phononic modes. Two-dimensional terahertz spectroscopy combined with modeling based on the classical equations of motion and symmetry analysis reveals the multistage process underlying the excitation of the Raman-active E_{g} phonon. In this nonlinear combined photophononic process, the terahertz electric field first prepares a coherent IR-active E_{u} phononic state and subsequently interacts with this state to efficiently excite the E_{g} phonon.

Published
2023
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