2000
DOI: 10.1063/1.372473
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Finite size effects in patterned magnetic permalloy films

Abstract: Electron beam lithography has been used to prepare 250-Å-thick square-shaped permalloy dots whose width and separation are in the range between 1 and 4 m. The static and dynamic magnetic properties of these structures have been investigated by complementary techniques such as magneto-optic Kerr effect ͑MOKE͒, magnetic force microscopy ͑MFM͒, and Brillouin light scattering ͑BLS͒. Longitudinal MOKE enabled us to compare the hysteresis loops of the specimens with different dot size and interdot separation, showin… Show more

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Cited by 39 publications
(17 citation statements)
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“…While in bulk systems the number of available states tends to be large, as the size is reduced the separation in energy between the different magnetic states becomes progressively larger, leading to the stabilization of a few relatively simple magnetic conf gurations that tend to ref ect the geometrical symmetry of the element. For example, mesoscopic square elements tend to fall into the quadrant, or Landau-Lifshitz, state [24][25][26][27], while discs tend to fall into the vortex state [19,[28][29][30], even though other high symmetry states are accessible in these geometries, such as the diamond and triangle state in disc elements [30][31][32][33][34] or other less symmetric states in squares [35,36]. As mentioned previously, micrometre size magnetic rings fall into two distinct magnetic states during the magnetization process.…”
Section: Energetics Of Equilibrium Statesmentioning
confidence: 99%
“…While in bulk systems the number of available states tends to be large, as the size is reduced the separation in energy between the different magnetic states becomes progressively larger, leading to the stabilization of a few relatively simple magnetic conf gurations that tend to ref ect the geometrical symmetry of the element. For example, mesoscopic square elements tend to fall into the quadrant, or Landau-Lifshitz, state [24][25][26][27], while discs tend to fall into the vortex state [19,[28][29][30], even though other high symmetry states are accessible in these geometries, such as the diamond and triangle state in disc elements [30][31][32][33][34] or other less symmetric states in squares [35,36]. As mentioned previously, micrometre size magnetic rings fall into two distinct magnetic states during the magnetization process.…”
Section: Energetics Of Equilibrium Statesmentioning
confidence: 99%
“…Many different techniques have been used to study the magnetic behaviour of the elements, for example, Lorentz transmission electron microscopy [1][2][3], magneto-optical Kerr effect [4][5][6], and magnetic force microscope (MFM) measurements [7][8][9]. Understanding the magnetization processes of these elements is of great fundamental value.…”
Section: Introductionmentioning
confidence: 99%
“…The elements are also of technological interest, the most usual application cited being computer data storage. Consequently, many magnetic materials such as cobalt [2], iron [4] and permalloy [1,5,[7][8][9] have been studied.…”
Section: Introductionmentioning
confidence: 99%
“…While in bulk systems the number of available states tends to be large, as the size is reduced the separation in energy between the different magnetic states becomes progressively larger, leading to the stabilization of a few relatively simple magnetic conf gurations that tend to ref ect the geometrical symmetry of the element. For example, mesoscopic square elements tend to fall into the quadrant, or Landau-Lifshitz, state [24][25][26][27], while discs tend to fall into the vortex state [19,[28][29][30], even though other high symmetry states are accessible in these geometries, such as the diamond and triangle state in disc elements [30][31][32][33][34] or other less symmetric states in squares [35,36]. As mentioned previously, micrometre size magnetic rings fall into two distinct magnetic states during the magnetization process.…”
Section: Energetics Of Equilibrium Statesmentioning
confidence: 99%