Nonlinear localized modes in a higher-order anisotropic ferromagnetic nanowire with octupole–dipole interaction

IF 2.6 4区 物理与天体物理 Q2 PHYSICS, APPLIED
T. Pavithra, L. Kavitha, Awadesh Mani
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引用次数: 0

Abstract

Increasing demand for advanced technologies that depends on magnetic phenomena, understanding and controlling the behavior of discrete breather in ferromagnetic nanowires are crucial for enhancing the efficiency and performance of such devices. The presence of octupole–dipole interactions signifies a unique aspect that could potentially influence the stability and localization of breather excitations. Hence, we adopted a multifaceted approach to investigate the Heisenberg anisotropic ferromagnetic nanowire discrete model with the following interactions: bilinear, octupole–dipole, anisotropy and its higher-order terms. The dynamics is governed by a discrete nonlinear Schrödinger equation (DNLS) arrived with the aid of Holstein–Primakoff transformation. This transformation was facilitated by utilizing the Glauber coherent representation of the boson operators. Subsequently, the dynamical equation is incorporated to the Modulational Instability (MI) analysis which is a systematical gateway to explore the breather excitation in the region of instability influenced by the octupole–dipole interaction coupling parameter. Then, we pictorially demonstrated that the octupole–dipole interaction plays a pivotal role in promoting the localization of discrete breather on the surface of the spin lattice sites in the discrete ferromagnetic nanowire. The energy density distribution also implies that the increase in octupole–dipole interaction results in the highly dense breather localization. The result shows that the increment in the octupole–dipole interaction parameter increases the amplitude of the localized breathers. These discrete breathers could hold immense promise for applications in magnetic storage and Spintronic devices, where maintaining stable localized modes is crucial for the device functionality. Our novelty lies in being pioneers in the exploration of a fully discrete model that encompasses higher-order interactions, such as the octupole–dipole interaction. We already have confirmed the existence of instability region on the discrete spin lattice by incorporating the octupole–dipole interaction [T. Pavithra, L. Kavitha, Prabhu and A. Mani, Modulational instability analysis in an isotropic ferromagnetic nanowire with higher order octopole-dipole interaction, in Nonlinear Dynamics and Applications: Proceedings of the ICNDA 2022 (Springer, 2022), p. 1209], we attempting to explore the generation of discrete breathers in a discrete anisotropic ferromagnetic nanowire. This effectively bridges the gap between theoretical understanding and practical implications, paving the way for innovative advancements in magnetic technology.

具有八极-偶极相互作用的高阶各向异性铁磁纳米线中的非线性局部模式
对依赖于磁现象的先进技术的需求与日俱增,了解和控制铁磁纳米线中离散呼吸器的行为对于提高此类设备的效率和性能至关重要。八极-偶极相互作用的存在标志着一个独特的方面,有可能影响呼吸激发的稳定性和定位。因此,我们采用了一种多元方法来研究具有以下相互作用的海森堡各向异性铁磁纳米线离散模型:双线性、八极-偶极、各向异性及其高阶项。动力学受离散非线性薛定谔方程(DNLS)支配,并借助霍尔施泰因-普里马科夫变换。利用玻色子算子的格劳伯相干表示法促进了这种变换。随后,动力学方程被纳入调制不稳定性(MI)分析,这是探索受八极-偶极相互作用耦合参数影响的不稳定性区域的呼吸激发的系统途径。然后,我们用图像证明了八极-偶极相互作用在促进离散呼吸器在离散铁磁纳米线自旋晶格位点表面的定位中起着关键作用。能量密度分布也意味着八极-偶极相互作用的增加导致了高密度的呼吸器定位。结果表明,八极-偶极相互作用参数的增加会提高局部呼吸器的振幅。这些离散呼吸器在磁存储和自旋电子器件的应用中大有可为,因为保持稳定的局部模式对器件功能至关重要。我们的创新之处在于率先探索了一种完全离散的模型,该模型包含了更高阶的相互作用,例如八极-偶极相互作用。通过加入八极-偶极相互作用,我们已经证实了离散自旋晶格上不稳定区域的存在 [T. Pavithra, L. K., M., M., M., M., M., M., M., M., M., M.] 。Pavithra, L. Kavitha, Prabhu and A. Mani, Modulational instability analysis in an isotropic ferromagnetic nanowire with higher order octopole-dipole interaction, in Nonlinear Dynamics and Applications:Proceedings of the ICNDA 2022 (Springer, 2022), p. 1209],我们试图探索离散各向异性铁磁纳米线中离散呼吸器的产生。这有效地弥合了理论理解与实际意义之间的差距,为磁性技术的创新发展铺平了道路。
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来源期刊
International Journal of Modern Physics B
International Journal of Modern Physics B 物理-物理:凝聚态物理
CiteScore
3.70
自引率
11.80%
发文量
417
审稿时长
3.1 months
期刊介绍: Launched in 1987, the International Journal of Modern Physics B covers the most important aspects and the latest developments in Condensed Matter Physics, Statistical Physics, as well as Atomic, Molecular and Optical Physics. A strong emphasis is placed on topics of current interest, such as cold atoms and molecules, new topological materials and phases, and novel low dimensional materials. One unique feature of this journal is its review section which contains articles with permanent research value besides the state-of-the-art research work in the relevant subject areas.
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