Your search keyword '"Bostrem, I. G."' showing total 18 results

1. Dark discrete breather modes in monoaxial chiral helimagnet with easy-plane anisotropy

Author

Bostrem, I. G., Ekomasov, E. G., Kishine, J., Ovchinnikov, A. S., and Sinitsyn, V. E.

Subjects

Condensed Matter - Materials Science, Condensed Matter - Other Condensed Matter, Mathematical Physics, Nonlinear Sciences - Exactly Solvable and Integrable Systems

Abstract

Nonlinearity and discreteness are two pivotal factors for an emergence of discrete breather excitations in various media. We argue that these requirements are met in the forced ferromagnetic phase of the monoaxial chiral helimagnet CrNb$_3$S$_6$ due to specific domain structure of the compound. The stationary, time-periodic breather modes appear as the discrete breather lattice solutions whose period mismatches with a system size. Thanks to easy-plane single-ion anisotropy intrinsic to CrNb$_3$S$_6$, these modes are of the dark type with frequencies lying within the linear spin-wave band, close to its bottom edge. They represent cnoidal states of magnetization, similar to the well-known soliton lattice ground state, with differing but limited number of embedded $2\pi$-kinks. Linear stability of these dark breather modes is verified by means of the Floquet analysis. Their energy controlled by two parameters, namely the breather lattice period and amplitude, falls off linearly with a growth of the kink number. These results may pave a new path to design spintronic resonators on the base of chiral helimagnets., Comment: 13 pages, 13 figures; accepted in Physical Review B

Published

2021

2. Theory of standing spin waves in finite-size chiral spin soliton lattice

Author

Kishine, J., Sinitsyn, Vl. E., Bostrem, I. G., Proskurin, Igor, Goncalves, F. J. T., Togawa, Y., and Ovchinnikov, A. S.

Subjects

Condensed Matter - Materials Science

Abstract

We present a theory of standing spin wave (SSW) in a monoaxial chiral helimagnet. Motivated by experimental findings on the magnetic field-dependence of the resonance frequency in thin films of Cr${}$Nb$_{3} $S${}_{6}$[Goncalves et al., Phys. Rev. B95, 104415 (2017)], we examine the SSW over a chiral soliton lattice (CSL) excited by an ac magnetic field applied parallel and perpendicular to the chiral axis. For this purpose, we generalize Kittel-Pincus theories of the SSW in ferromagnetic thin films to the case of non-collinear helimagnet with the surface end spins which are softly pinned by an anisotropy field. Consequently, we found there appear two types of modes. One is a Pincus mode which is composed of a long-period Bloch wave and a short-period ripple originated from the periodic structure of the CSL. Another is a short-period Kittel ripple excited by space-periodic perturbation which exists only in the case where the ac field is applied perpendicular the chiral axis. We demonstrate that the existence of the Pincus mode and the Kittel ripple is consistent with experimentally found double resonance profile., Comment: 17 pages, 14 figures

Published

2019

3. Coherent sliding dynamics and spin motive force driven by crossed magnetic fields in chiral helimagnet

Author

Kishine, Jun-ichiro, Bostrem, I. G., Ovchinnikov, A. S., and Sinitsyn, Vl. E.

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science

Abstract

We demonstrated that the chiral soliton lattice formed out of a chiral helimagnet exhibits coherent sliding motion by applying a time-dependent magnetic field parallel to the helical axis, in addition to a static field perpendicular to the helical axis. To describe the coherent sliding, we use the collective coordinate method and numerical analysis. We also show that the time-dependent sliding velocity causes a time-varying Berry cap which causes the spin-motive-force. A salient feature of the chiral soliton lattice is appearance of the strongly amplified spin motive force which is directly proportional to the macroscopic number of solitons (magnetic kinks)., Comment: 13 pages, 13figures,accepted for publication in Physical Review B

Published

2012

4. Magnetization and spin gap in two-dimensional organic ferrimagnet BIPNNBNO

Author

Sinitsyn, V. E., Bostrem, I. G., Ovchinnikov, A. S., Hosokoshi, Y., and Inoue, K.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

A magnetization process in two-dimensional ferrimagnet BIPNNBNO is analyzed. The compound consists of ferrimagnetic (1,1/2) chains coupled by two sorts of antiferromagnetic interactions. Whereas a behavior of the magnetization curve in higher magnetic fields can be understood within a process for the separate ferrimagnetic chain, an appearance of the singlet plateau at lower fields is an example of non-Lieb-Mattis type ferrimagnetism. By using the exact diagonalization technique for a finite clusters of sizes 4x8 and 4x10 we show that the interchain frustration coupling plays an essential role in stabilization of the singlet phase. These results are complemented by an analysis of four cylindrically coupled ferrimagnetic (1,1/2) chains via an abelian bosonization technique and an effective theory based on the XXZ spin-1/2 Heisenberg model when the interchain interactions are sufficiently weak/strong, respectively.

Published

2011

5. Bose-Einstein condensation of semi-hard bosons in S=1 dimerized organic compound F2PNNNO

Author

Bostrem, I. G., Sinitsyn, V. E., and Ovchinnikov, A. S.

Subjects

Condensed Matter - Statistical Mechanics, Condensed Matter - Other Condensed Matter

Abstract

An analysis of the energy spectrum and the magnetization curve of two-dimensional organic antiferromagnet F2PNNNO with a spin-one dimerized structure shows that a behavior of the compound in an external magnetic field can be explained within a lattice boson model with an extended Pauli's exclusion principle, i.e. no more than two bosons per a dimer. The unusual magnetization curve observed experimentally in the compound reflects a sequence of phase transitions intrinsic for a lattice boson system with strong on-site and inter-site repulsions due to a tuning of magnon density by the applied magnetic field.

Published

2009

6. Magnetic soliton transport over topological spin texture in chiral helimagnet with strong easy-plane anisotropy

Author

Borisov, A. B., Kishine, Jun-ichiro, Bostrem, I. G., and Ovchinnikov, A. S.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We show the existence of an isolated soliton excitation over the topological ground state configuration in chiral helimagnet with the Dzyaloshinskii-Moryia exchange and the strong easy-plane anisotropy. The magnetic field perpendicular to the helical axis stabilizes the kink crystal state which plays a role of "topological protectorate" for the traveling soliton with a definite handedness. To find new soliton solution, we use the B\"{a}cklund transformation technique. It is pointed out that the traveling soliton carries the magnon density and a magnetic solition transport may be realized., Comment: 10 pages, 3 figures

Published

2009

7. Hidden Galilean symmetry, conservation laws and emergence of spin current in the soliton sector of chiral helimagnet

Author

Bostrem, I. G., Kishine, J., Lavrov, R. V., and Ovchinnikov, A. S.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

Motivated by the spin current problem in chiral helimagnet, we rigorously elucidated the hidden Galilean invariance in the chiral XY model under the magnetic field. The Lie group analysis is applied to the differential equations of the continuum theory of the chiral helimagnet with the parity-violating Dzyaloshinskii-Morya coupling under a transversal magnetic field. Lie point symmetries and the invariant solutions under these symmetries are found. They present sliding solutions that come up as a consequence of breaking of both spin rotational symmetry by the external magnetic field and a parity violation due to the Dzyaloshinskii-Morya interaction. We found that variational symmetries are related with translations in space and time, the corresponding energy and momentum conservation laws are derived. We therefore succeeded in justifying the existence of the transport spin current in chiral helimagnet., Comment: 14 pages

Published

2008

8. Theory of spin current in chiral helimagnet

Author

Bostrem, I. G., Kishine, Jun-ichiro, and Ovchinnikov, A. S.

Subjects

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

Abstract

We give detailed description of the transport spin current in the chiral helimagnet. Under the static magnetic field applied perpendicular to the helical axis, the magnetic kink crystal (chiral soliton lattice) is formed. Once the kink crystal begins to move under the Galilean boost, the spin-density accumulation occurs inside each kink and there emerges periodic arrays of the induced magnetic dipoles carrying the transport spin current. The coherent motion of the kink crystal dynamically generates the spontaneous demagnetization field. This mechanism is analogous to the D\"{o}ring-Becker-Kittel mechanism of the domain wall motion in ferromagnets. To describe the kink crystal motion, we took account of not only the tangential $\phi$-fluctuations but the longitudinal $\theta$-fluctuations around the helimagnetic configuration. Based on the collective coordinate method and the Dirac's canonical formulation for the singular Lagrangian system, we derived the closed formulae for the mass, spin current and induced magnetic dipole moment accompanied with the kink crystal motion. To materialize the theoretical model presented here, symmetry-adapted material synthesis would be required, where the interplay of crystallographic and magnetic chirality plays a key role there., Comment: 16 pages, 6 figures, to be published in Phys. Rev. B

Published

2008

9. Transport magnetic currents driven by moving kink crystal in chiral helimagnets

Author

Bostrem, I. G., Kishine, Jun-ichiro, and Ovchinnikov, A. S.

Subjects

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

Abstract

We show that the bulk transport magnetic current is generated by the moving magnetic kink crystal (chiral soliton lattice) formed in the chiral helimagnet under the static magnetic field applied perpendicular to the helical axis. The current is caused by the non-equilibrium transport momentum with the kink mass being determined by the spin fluctuations around the kink crystal state. An emergence of the transport magnetic currents is then a consequence of the dynamical off-diagonal long range order along the helical axis. We derive an explicit formula for the inertial mass of the kink crystal and the current in the weak field limit., Comment: 5 pages, 3 figures, to appear in Phys. Rev. B

Published

2008

10. Symmetry adapted finite-cluster solver for quantum Heisenberg model in two-dimensions: a real-space renormalization approach

Author

Sinitsyn, V. E., Bostrem, I. G., and Ovchinnikov, A. S.

Subjects

Condensed Matter - Statistical Mechanics

Abstract

We present a quantum cluster solver for spin-$S$ Heisenberg model on a two-dimensional lattice. The formalism is based on the real-space renormalization procedure and uses the lattice point group-theoretical analysis and nonabelian SU(2) spin symmetry technique. The exact diagonalization procedure is used twice at each renormalization group step. The method is applied to the spin-half antiferromagnet on a square lattice and a calculation of local observables is demonstrated. A symmetry based truncation procedure is suggested and verified numerically., Comment: willm appear in J. Phys. A

Published

2006

11. Quantum dissipation theory of slow magnetic relaxation mediated by domain-wall motion in one-dimensional chain compound [Mn(hfac)_{2}BNO_{H}}]

Author

Ovchinnikov, A. S., Bostrem, I. G., Sinitsyn, V. E., Boyarchenkov, A. S., Baranov, N. V., and Inoue, K.

Subjects

Condensed Matter - Materials Science

Abstract

Based on a quantum dissipation theory of open systems, we present a theoretical study of slow dynamics of magnetization for the ordered state of the new molecule-based magnetic complex [Mn(hfac)_{2}BNO_{H}] composed from antiferromagnetically coupled ferrimagnetic (5/2,1) spin chains. Experimental investigations of the magnetization process in pulsed fields have shown that this compound exhibits a metamagnetic AF-FI transition at a critical field in the order of the interchain coupling. A strong frequency dependence for the ac-susceptibility has been revealed in the vicinity of the AF-FI transition and was associated with an AF-FI interface kink motion. We model these processes by a field-driven domain-wall motion along the field-unfavorable chains correlated with a dissipation effect due to a magnetic system-bath coupling. The calculated longitudinal magnetization has a two-step relaxation after the field is switched off and are found in good agreement with the experiment. The relaxation time determined from the imaginary part of the model ac-susceptibility agrees qualitatively with that found from the remanent magnetization data.

Published

2006

12. Spiral vortices in a 2D ferromagnet

Author

Borisov, A. B., Bostrem, I. G., and Ovchinnikov, A. S.

Subjects

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

Abstract

We present a study of a new class of exact solutions having a form of spiral vortices for an isotropic two-dimensional Heisenberg ferromagnet using a continuum theory and direct numerical simulations of the spin system on a square lattice. We find their features issued from the conservation laws and describe their interaction. Reasons behind the formation of the proper spin configurations on a square lattice are investigated., Comment: accepted in Phys. Rev. B

Published

2005

13. Real-space renormalization group study of the anisotropic antiferromagnetic Heisenberg model of spin S=1 on a honeycomb lattice

Author

Boyarchenkov, A. S., Ovchinnikov, A. S., Bostrem, I. G., Baranov, N. V., Hosokoshi, Y., and Inoue, K.

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Statistical Mechanics

Abstract

The real-space RG approach is applied to study critical temperatures of system consisting of interacting spin chains of spin S=1 with an inner antiferromagnetic exchange which form a honeycomb crystal lattice. Using anisotropic Heisenberg model we calculate critical temperature as a function of anisotropic parameter and the ratio of interchain and intrachain interactions. A comparison our results with those obtained from RGRS calculations for the same model of spin-1/2 on a square lattice is given.

Published

2005

14. Topological stripelike coreless textures with inner incommensurability in two-dimensional Heisenberg antiferromagnet

Author

Sinitsyn, E. V., Bostrem, I. G., and Ovchinnikov, A. S.

Subjects

Condensed Matter - Statistical Mechanics, Condensed Matter - Materials Science

Abstract

For two-dimensional Heisenberg antiferromagnet we present an analysis of topological coreless excitations having a stripe form. These textures are characterized by singularities at boundaries. A detailed classification of the stripe textures results in a certain analogy with the coreless excitations in $^3He-A$ phase: Mermin-Ho and Anderson-Toulouse coreless vortices. The excitations of the last type may have a low bulk energy. The stripe textures may be observed as an occurrence of short-range incommensurate order in the antiferromagnetic environment.

Published

2004

15. Topological phase separation in 2D hard-core Bose-Hubbard system away from half-filling

Author

Moskvin, A. S., Bostrem, I. G., and Ovchinnikov, A. S.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

We suppose that the doping of the 2D hard-core boson system away from half-filling may result in the formation of multi-center topological defect such as charge order (CO) bubble domain(s) with Bose superfluid (BS) and extra bosons both localized in domain wall(s), or a {\it topological} CO+BS {\it phase separation}, rather than an uniform mixed CO+BS supersolid phase. Starting from the classical model we predict the properties of the respective quantum system. The long-wavelength behavior of the system is believed to remind that of granular superconductors, CDW materials, Wigner crystals, and multi-skyrmion system akin in a quantum Hall ferromagnetic state of a 2D electron gas., Comment: 6 pages, 1 figure

Published

2004

16. The variational symmetries and conservation laws in classical theory of Heisenberg (anti)ferromagnet

Author

Egorov, R. F., Bostrem, I. G., and Ovchinnikov, A. S.

Subjects

Condensed Matter - Statistical Mechanics

Abstract

The nonlinear partial differential equations describing the spin dynamics of Heisenberg ferro and antiferromagnet are studied by Lie transformation group method. The generators of the admitted variational Lie symmetry groups are derived and conservation laws for the conserved currents are found via Noether's theorem.

Published

2003

17. A long-wave action of spin Hamiltonians and the inverse problem of the calculus of variations

Author

Bostrem, I. G., Ovchinnikov, A. S., and Egorov, R. F.

Subjects

Condensed Matter - Statistical Mechanics

Abstract

We suggest a method of derivation of the long-wave action of the model spin Hamiltonians using the non-linear partial differential equations of motions of the individual spins. According to the Vainberg's theorem the set of these equations are (formal) potential if the symmetry analysis for the Frechet derivatives of the system is true. The case of Heisenberg (anti)ferromagnets is considered. It is shown the functional whose stationary points are described by the equations coincides with the long-wave action and includes the non-trivial topological term (Berry phase).

Published

2003

18. A new class of nodal stationary states in 2D Heisenberg ferromagnet

Author

Bostrem, I. G. and Ovchinnikov, A. S.

Subjects

Condensed Matter - Statistical Mechanics

Abstract

A new class of nodal topological excitations in a two-dimensional Heisenberg model is studied. The solutions correspond to a nodal singular point of the gradient field of the azimuthal angle. An analytical solution found for the isotropic case. An effect of in-plane exchange anisotropy is studied numerically. It results in solutions which are analogues of the conventional out-of-plane solitons in the two-dimensional magnets., Comment: 5 figures

Published

2003