Preparation method of quasi isotropic magnetic core film

A quasi-isotropic, magnetic core technology, applied in the application of magnetic film to substrate, magnetic film, inductor/transformer/magnet manufacturing, etc. High permeability, satisfying the effect of integration

Inactive Publication Date: 2017-03-15
UNIV OF ELECTRONICS SCI & TECH OF CHINA
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Problems solved by technology

[0003] On the other hand, due to the existence of uniaxial anisotropy, taking inductance as an example, when the magnetic field component of the electromagnetic wave is parallel to the difficult axis of the film, the gain of the inductance is close to the effective permeability, but when the magnetic field component of the electromagnetic wave is parallel to the film When the easy axis of the film is parallel, since the relative permeability of the easy axis of the film is close to 1, it means that the magnetic material has no gain to the inductance at this time
However, in the design of actual inductors, whether it is a spiral, solenoid type, or racetrack type on-chip inductor, it is difficult to make the anisotropy required by all magnetic cores in the same direction, which makes the film in each direction Both need to have a large magnetic permeability and "quasi-isotropy", that is, it is hoped that the magnetic core film has the same or similar effective anisotropy field in any in-plane direction

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  • Preparation method of quasi isotropic magnetic core film
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  • Preparation method of quasi isotropic magnetic core film

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Embodiment

[0030] A preparation method of a quasi-isotropic FeCoTiO nanoparticle magnetic core film, specifically comprising the following steps:

[0031] Step 1: Use acetone, HCl and H in sequence 2 o 2 Prepared acid solution, NH 3 .H 2 O and H 2 o 2 The prepared alkaline solution, alcohol, and deionized water were used to clean a four-inch monocrystalline silicon substrate, and then dried with nitrogen gas for later use;

[0032] Step 2: Etch the silicon substrate processed in step 1 to form a stripe-like pattern by photolithography, wherein the length of a single stripe is 2000 μm, the width is 10-40 μm, the spacing between stripes is 40 μm, and the depth of the stripes is 2- 3μm;

[0033] Step 3: Put the substrate obtained in step 2 into the sputtering chamber, and put the TiO 2 A single wafer is pasted on the surface of a 6-inch FeCo alloy target to form a composite target, which is loaded into target gun A; the SiO 2 Put the target into the target gun B; tilt the substrate ...

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Abstract

The invention provides a preparation method of a quasi isotropic magnetic core film, and relates to the field of preparation of magnetic thin films in high-frequency magnetic devices, especially on-chip integrated inductors. According to the preparation method, a substrate inclines, the substrate and target materials are sputtered at a certain angle to form an inclined columnar structure, and a uniaxial anisotropy field is introduced. In a magnetic thin film/insulating layer/magnetic thin film sandwich structure, the upper and lower layers of magnetic thin films are of an inclined columnar structure with opposite easy-axis directions to generate an appropriate interlayer exchange coupling effect and to offset a shape anisotropy field caused by different length-width ratios, so that the total effective anisotropy field only depends on an inclined sputtering-induced anisotropy field. The magnetic core film is formed by stacking a plurality of sandwich structures, easy axes of the magnetic thin films in adjacent sandwich structures are vertical to one another, and the interlayer exchange coupling effect is isolated through isolating layers which are greater than 20nm in thickness, so that the magnetic core film has similar effective anisotropy fields and relatively high magnetic conductivity in various directions.

Description

technical field [0001] The invention relates to the field of preparation of magnetic thin films in high-frequency magnetic devices, especially on-chip integrated inductance devices, in particular to a preparation method of a quasi-isotropic magnetic core film independent of shape anisotropy fields. Background technique [0002] With the rapid development and application of portable and wearable devices, higher requirements are put forward for the integration, high frequency and low power consumption of electronic components. At present, magnetic devices, which are an important part of electronic components, have been lagging behind the development of other devices due to various reasons. One of the main reasons is that the magnetic properties, high-frequency characteristics and bulk materials exist after the thin film and miniaturization of magnetic materials. Very big difference. How to utilize or eliminate the shape anisotropy field (or demagnetization field) introduced a...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01F41/18H01F10/14H01F10/18
CPCH01F10/145H01F10/18H01F41/183
Inventor 白飞明黄海明钟智勇张怀武
Owner UNIV OF ELECTRONICS SCI & TECH OF CHINA
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