The role of hydrogen during plasma beam deposition of amorphous thin films

Sanden, van de Mcm Richard; Severens, RJ René; Meulenbroeks, Rfg Ralph; Graaf, de Mj Mark; Qing, Z Zhou; Otorbaev, DK; Engeln, Rah Richard; Gielen, Jwam John; Mullen, van der Jjam Joost; Schram, DC Daan

doi:10.1016/0257-8972(95)08356-1

Cited by 10 publications

(1 citation statement)

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“…[20,21] There are large variations even within each class of materials, depending on the method and parameters of deposition. Diamond-like carbon films can be synthesized by argon sputter deposition using a graphite target [12,22], by pulsed laser ablation of graphite [19], direct ion beam deposition [23], plasma beam deposition [24], mass-selected ion beam deposition [25,26], electron-cyclotronresonance plasma chemical vapor deposition (ECR plasma CVD) [27], radio-frequency-CVD [11], and by filtered cathodic arc plasma deposition [6,16,20,21]. Research over the last years has identified filtered cathodic arc deposition as one of the promising techniques for hard carbon films thinner than 5 nm [28,29].…”

Section: Introductionmentioning

confidence: 99%

Ultrathin diamondlike carbon films deposited by filtered carbon vacuum arcs

Anders¹,

Ryan²,

Fong³

et al.

Proceedings ISDEIV. 19th International Symposium on Discharges and Electrical Insulation in Vacuum (Cat. No.00CH37041)

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This work was supported through the CRADA BG98-084 (01) ABSTRACTUltrathin (< 5 nm) hard carbon films are of great interest to the magnetic storage industry as the areal density approaches 100 Gbit/in 2 . These films are used as overcoats to protect the magnetic layers on disk media and the active elements of the read-write slider. Tetrahedral amorphous carbon films can be produced by filtered cathodic arc deposition, but the films will only be accepted by the storage industry only if the "macroparticle" issue has been solved. Better plasma filters have been developed over recent years. Emphasis is put on the promising twist filter system -a compact, open structure that operates with pulsed arcs and high magnetic field. Based on corrosion tests it is shown that the macroparticle reduction by the twist filter is satisfactory for this demanding application, while plasma throughput is very high. Ultrathin hard carbon films have been synthesized using Sfilter and twist filter systems. Film properties such as hardness, elastic modulus, wear, and corrosion resistance have been tested. Index Terms: diamond-like carbon, cathodic vacuum arc, macroparticle filtering, magnetic storage, carbon overcoats 3 I. INTRODUCTIONUltrathin (< 5 nm) hard carbon films are used as protective overcoats on hard disks and readwrite heads. The tribological properties of the head-disk interface are not only of mechanical but also of chemical nature: the overcoat should protect the magnetic layers against wear and corrosion [1, 2]. The areal density of information stored in disk drive products increased at an amazing rate of over 65% for many years rate, and continues to accelerate to even greater rates [3]. To accomplish this, the "magnetic spacing" between the magnetic layers of the disk and read/write sensor of the head must continue to decrease. The magnetic spacing includes the overcoats, lubrication, and the fly height. Thinner overcoats allow the read-write head to be closer to the magnetic layer of the disk, and hence, the size of individual bits on the disk to be smaller. As we work toward an areal density of 100 Gbit/in

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