Studies of Dielectric Originated Matter Waves
By: Goswami, Bangshidhar
.
Publisher: Ghaziabad MAT Journals 2021Edition: Vol.6(2), May-Aug.Description: 1-8p.Subject(s): EXTC EngineeringOnline resources: Click here
In:
Journal of digital integrated circuits in electrical devicesSummary: article is studied to understand electron segregate oriented preparation based on the change in sign of group velocity and carrier density of graphene dielectric composite surface have subjected dispersion among magnon, plasmon and polariton. THz magnon polariton frequency has induced resonating axial antiferromagnetic insulator by interplay of exchange and anisotropy, whereas GHz range of usual resonance frequency from ferromagnetic matter has been linked to usual magnetic anisotropy. Spin stiffness has been a positive quantity to infer stability of the system, while magnon stiffness becomes negative after spin polarization by an external magnetic field. Minimized interactive geometrical design of artificial spin ices (ASIs) have linked to energy surfaces to compose super-lattice of magnonic crystals. Thus, miniaturized microwave electronic functionality is controlled by spin wave band structure. Spin wave optics and gate logic has suggestive issues as a toolbox for spin wave regulation, emission and conversion.
| Item type | Current location | Call number | Status | Date due | Barcode | Item holds |
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Articles Abstract Database
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School of Engineering & Technology Archieval Section | Not for loan | 2022-0036 |
article is studied to understand electron segregate oriented preparation based on the change in sign of group velocity and carrier density of graphene dielectric composite surface have subjected dispersion among magnon, plasmon and polariton. THz magnon polariton frequency has induced resonating axial antiferromagnetic insulator by interplay of exchange and anisotropy, whereas GHz range of usual resonance frequency from ferromagnetic matter has been linked to usual magnetic anisotropy. Spin stiffness has been a positive quantity to infer stability of the system, while magnon stiffness becomes negative after spin polarization by an external magnetic field. Minimized interactive geometrical design of artificial spin ices (ASIs) have linked to energy surfaces to compose super-lattice of magnonic crystals. Thus, miniaturized microwave electronic functionality is controlled by spin wave band structure. Spin wave optics and gate logic has suggestive issues as a toolbox for spin wave regulation, emission and conversion.
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