Atomic Layer Deposition of AlO[sub x] for Thin Film Head Gap Applications

Paranjpe, Ajit; Gopinath, Sanjay; Omstead, Tom; Bubber, Randhir

doi:10.1149/1.1385822

Cited by 63 publications

(29 citation statements)

References 11 publications

(17 reference statements)

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“…5 Yet another new application for thin aluminum oxide films is as a thin-film magnetic head gap layer. 6 Aluminum oxide film can also improve the gas permeation properties of polymers. 7 In microelectronics new high-k dielectric oxide materials to replace silicon dioxide have been extensively studied.…”

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confidence: 99%

Low-Temperature Deposition of Aluminum Oxide by Radical Enhanced Atomic Layer Deposition

Niskanen¹,

Arstila

Ritala³

et al. 2005

J. Electrochem. Soc.

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Aluminum oxide was deposited by radical enhanced atomic layer deposition using trimethylaluminum ͑TMA͒ and oxygen radicals in the temperature range 25-300°C. The radicals were produced by dissociating oxygen gas in a remote microwave plasma discharge. Oxygen was mixed with argon which was also used as the carrier and purge gas. Films were grown on silicon, glass, and indium tin oxide coated glass substrates. Additional growth experiments were conducted on heat-sensitive materials: polyethene, polypropene, and wool. The time to complete one deposition cycle was nearly independent of the deposition temperature, being around 10 s for all deposition temperatures. Growth rates were between 1.5 and 2.9 Å per cycle, which is higher than what has been obtained with the TMA-H 2 O process in similar reactor conditions. The films were amorphous according to X-ray diffraction. The films were also very smooth; the surface root-mean-square roughness was less than 0.8 nm for 180 nm thick films. The films had breakdown fields, defined as the field corresponding to the leakage current density of 1 A/cm 2 , between 6 and 10 MV/cm, and dielectric constants between 6.5 and 8.1. The film impurity levels according to time-of-flight elastic recoil detection analysis were between 0.8 and 15 atom % for hydrogen and 0.2 and 4 atom % for carbon. The refractive indexes at 580 nm were between 1.60 and 1.64.

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confidence: 99%

Low-Temperature Deposition of Aluminum Oxide by Radical Enhanced Atomic Layer Deposition

Niskanen¹,

Arstila

Ritala³

et al. 2005

J. Electrochem. Soc.

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“…As can be seen, the thickness of SiO x layer increases with plasma power up to 100 W. The thickness of Al 2 O 3 layer does not vary with the plasma power. It is necessary to increase the plasma power in order to sustain a stable plasma which is advocated for the oxidation of the poly-Si surface [11]. It can be inferred from the results of Figs.…”

Section: Resultsmentioning

confidence: 99%

Stabilization of Al2O3 gate oxide on plastic substrate for low temperature poly-silicon by in situ plasma treatment

Park¹,

Lim²,

Park³

2010

Solid-State Electronics

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“…High quality ALD AlO x films of amorphous nature were obtained with near bulk properties and low pinhole density (3). AlO x films of thickness > 50 Å show a high breakdown strength over 9 MV/cm at a very low leakage current density ~ 1×10 -6 Amps/cm 2 .…”

Section: Resultsmentioning

confidence: 99%

ALD for Data Storage Applications

2006

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A variety of ALD applications were explored for manufacturing magnetic recording heads, concentrating on AlO x . ALD AlO x films were prepared in a broad thickness range from 5 to 4500 Å at temperatures from 80 to 300 °C and at a maximum growth rate of ~120 Å/min to meet the specific needs for various read and write head related processes. ALD has shown great potential to become an indispensable part of integrated magnetic recording head manufacturing.

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Atomic Layer Deposition of AlO[sub x] for Thin Film Head Gap Applications

Cited by 63 publications

References 11 publications

Low-Temperature Deposition of Aluminum Oxide by Radical Enhanced Atomic Layer Deposition

Low-Temperature Deposition of Aluminum Oxide by Radical Enhanced Atomic Layer Deposition

Stabilization of Al2O3 gate oxide on plastic substrate for low temperature poly-silicon by in situ plasma treatment

ALD for Data Storage Applications

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