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Available online at www.sciencedirect.com science @oinecr: DA een and magnetic materials ELSEVIER Journal of Magnetism and Magnetic Materials 287 (2005) 507-512 www.elsevier.com/locate/jmmm Author index to volume 287 Abarra, E.N., see Choe, G. Chiba, T., J. Ariake and N. Honda, Structure and Abe, Y., see Doi, M. magnetic properties of Co-Pt-Ta,Os film for per- Abelmann, L., see Onoue, T. pendicular magnetic recording media Acharya, B.R., see Choe, G. Chiba, T., see Ariake, J. Ahmed, M.Z., P.J. Davey and Y. Kurihara, Construc- Choe, G., M. Zheng, E.N. Abarra, B.G. Demezyk, J.N. tive inter-track interference (CITI) codes for perpen- Zhou, B.R. Acharya and K.E. Johnson, High- dicular magnetic recording performance CoPtCrO perpendicular media: opti- AlHajDarwish, M., see Covington, M. mizing exchange coupling and anisotropy orientation Aoi, H., see Xia, W. dispersion Aoi, H., see Hashimoto, M. Chong, T.-C., see Liu, B. Aoi, H., see Yatagai, A. Covington, M., M. AlHajDarwish, Y. Ding, A. Rebei, Aoi, H., see Miura, K. G.J. Parker, N. Gokemeijer and M.A. Seigler, Spin Aoi, H., see Suzuki, Y. transfer effects in current perpendicular to the plane Aoi, H., see Yamakawa, K. spin valves Aoi, H., see Yamada, H. Cruz, J.R., see Tan, W. Aoyagi, Y., T.K. Taguchi, M. Takagishi and Y. Tanaka, Practical resolution analysis of perpendicular Das, S. and S. Nakagawa, An approach to estimate the recording magnetic anisotropy constants in a CoCrPt record- Aoyama, T., I. Sato, H. Ito and S. Ishio, B ion ing layer with a NiFe soft underlayer implantation effects on Ll, chemical ordering of Das, S. and S. Nakagawa, Study of magnetization FePt thin films reversal phenomena in CoCrTaPt perpendicular Ariake, J.. T. Chiba, S. Watanabe, N. Honda and K. recording thin film media in a tilted magnetic Ouchi, Magnetic and structural properties of Co-Pt field perpendicular recording media with large magnetic Davey, P.J., see Ahmed, M.Z. anisotropy Demezyk, B.G., see Choe, G. Ariake, J., see Kiya, T. Dewi, M., see Piramanayagam, S.N. Ariake, J., see Yamane, H. Ding, Y., see Covington, M. Ariake, J., see Chiba, T. Do, H., see Moser, A. Ariake, J., see Keitoku, T. Do, H., see Heidmann, J. Ariake, J., see Sayama, J. Dobin, A.Yu., see Richter, H.J. Asahi, T.. M. Tanaka, J. Sayama, J. Kawaji, S. Doi, M., M. Izumi, Y. Abe, H. Fukuzawa, H.N. Fuke, Matsunuma and T. Osaka, Effect of N> additive H. Iwasaki and M. Sahashi, Exchange coupling and gas during sputtering on magnetic properties and NOL magnetism consideration in Co, \Fe, specular microstructure of CoB/Pd multilayered media spin-valves Asahi, T., see Tanaka, M. Asahi, T., see Sayama, J. Egelhoff, W.F., Jr.. L. Gan, H. Ettedgui, Y. Kadmon, Asahi, T., see Osaka, T. C.J. Powell, P.J. Chen, A.J. Shapiro, R.D. McMi- chael, J.J. Mallett, T.P. Moffat, M.D. Stiles and E.B. Bain, J.A.. Analysis and optimization of terabit mag- Svedberg, Artifacts that mimic ballistic magnetore- netic recording systems limited by down-track and sistance cross-track write field gradients Eppler, W.R., see Ozgunes, I. Bekkers, G., see Kao, A.S. Ettedgui, H., see Egelhoff, W.F., Jr. Chang, C.-R., see Yang, J.-S. Fuke, H.N., see Doi, M. Chen, P.J., see Egelhoff, W.F., Jr. Fukuzawa, H., see Doi, M. dot: 10.1016/S0304-8853(05)00027-2 508 Author index to volume 287 Funabashi, N., E. Miyashita, R. Taguchi, T. Tamaki Ikeda, Y., see Heidmann, J. and S. Nakamura, Read/write characteristics and Inamura, R., see Shimoda, K. thermal decay on Tb—Fe-Co/Co—Cr-—Pt-B hybrid Ise, K., K. Yamakawa, N. Honda, K. Ouchi, H. perpendicular magnetic recording media Muraoka and Y. Nakamura, Cusp-field single-pole Funabashi, N., see Miyashita, E. head with narrow trailing gap Ise, K., see Shintaku, K. Gan, L., see Egelhoff, W.F., Jr. Ise, K., see Yamakawa, K. Gokemeijer, N., see Covington, M. Ishikawa, C., see Mochizuki, M. Goodman, A.M., see Greaves, S.J. Ishio, S., see Saito, H. Greaves, S.J.. A.M. Goodman, H. Muraoka and Y. Ishio, S., see Aoyama, T. Nakamura, Exchange coupling and grain-size dis- Ishio, S., see Li, G. tributions in perpendicular recording media Isozaki, H., Y. Okamoto, H. Osawa, H. Muraoka and Guarisco, D., Y. Wu, P. Luo, B.E. Higgins and K. Saito, Y. Nakamura, Influence of overwrite noise on Perpendicular integration challenges performance of PRML channels in perpendicular Gustafson, R.W., see Kryder, M.H. magnetic recording Ito, H., see Aoyama, T. Ito, H., see Li, G. Hara, M., see Igarashi, M. Ito, S., T. Okamoto, S.-H. Kong and S. Nakagawa, Fe Hashimoto, A., S. Saito and M. Takahashi, Magnetiza- Co-B/[Ni-Fe/Si] soft magnetic underlayer with high tion reversal mechanism of soft magnetic underlayer anisotropy field along cross-track direction on disk pinned by antiferromagnetic layer substrate Hashimoto, M., K. Miura, H. Muraoka, H. Aoi and Y. Iwasaki, H., see Doi, M. Nakamura, Influence of magnetic cluster size dis- Iwasaki, S., see Yamane, H. tribution on SNR and bit error rate in perpendicular magnetic recording Iwasaki, S.-i., Development of perpendicular magnetic recording conference Hayashi, N., Y. Miyamoto, K. Machida and T. Tamaki, Iwasaki, S.-i., Principal complementarity between per- Influence of underlayers on the soft magnetic pendicular and longitudinal magnetic recording properties of Fe-Co—Al-O films Heidmann, J.. H. Do, M. Xiao, K. Takano and Y. Iwasaki, S.-i., see Takahashi, S. Izumi, M., see Doi, M. Ikeda, Experimental study of the head/medium magneto dynamics in perpendicular recording Higgins, B.E., see Guarisco, D. Johnson, K.E., see Choe, G. Hirata, K., T. Roppongi and K. Noguchi, A study of Judy, J.H., Advancements in PMR thin-film media pole material properties for pole erasure suppression Judy, J.H., see Speetzen, N. in perpendicular recording heads Homma, T., see Tanaka, M. Kadmon, Y., see Egelhoff, W.F., Jr. Homma, T., see Kawaji, J. Kamiki, T., see Nakagawa, S. Honda, N., T. Kiya and K. Ouchi, Simulation study of Kanai, Y., H. Watanabe, H. Muraoka and Y. Naka- nonlinear transition shift in perpendicular magnetic mura, Single-pole-type head showing a large record- recording media with increased M—H loop slope ing field suitable for 1 Tbpsi with discrete-track media Honda, N., see Komakine, T. Kaneko, D., see Shimoda, K. Honda, N., see Kiya, T. Kao, A.S., H.J. Lee, G. Bekkers and S. Hong, Wide-area Honda, N., see Yamane, H. track erasure in perpendicular recording Honda, N., see Chiba, T. Kappenberger, P., see Moser, A. Honda, N., see Keitoku, T. Kawabata, K., see Kawai, K. Honda, N., see Ariake, J. Kawai, K., S. Honda, R. Sugiki, M. Komatsu and K. Honda, N., see Kurosawa, T. Kawabata, High coercive FePt alloys prepared by a Honda, N., see Ise, K. new sputtering method Honda, S., see Kawai, K. Kawaji, J.. F. Kitaizumi, H. Oikawa, D. Niwa, T. Honda, S., see Nawate, M. Homma and T. Osaka, Area selective formation of Hong, S., see Kao, A.S. magnetic nanodot arrays on Si wafer by electroless Hug, H.J., see Moser, A. deposition Kawaji, J., see Tanaka, M. Igarashi, M., M. Hara, A. Nakamura and Y. Sugita, Kawaji, J., see Asahi, T. Computer simulation of the thermal stability in Kawaji, J., see Osaka, T. perpendicular recording media using the thermal Keitoku, T., J. Ariake and N. Honda, Preparation acceleration method condition of Co-Pt-Cr-SiO, films with high Ikeda, Y., see Moser, A. coercivity Author index to volume 287 Kikuchi, N., R. Murillo and J.C. Lodder, AHE Miura, K., see Hashimoto, M. measurements of very thin films and nanosized dots Miura, K., see Yatagai, A. Kimura, K., see Tanaka, M. Miyamoto, Y., see Hayashi, N. Kitaizumi, F., see Kawaji, J. Miyashita, E., N. Funabashi, R. Taguchi, T. Tamaki Kiya, T., N. Honda, J. Ariake and K. Ouchi, Effect of and S. Nakamura, Dependence of thermal decay on parameters of media on perpendicular magnetic the magnetic cluster size of perpendicular magnetic recording properties recording media Kiya, T., see Honda, N. Miyashita, E., see Funabashi, N. Kiya, T., see Shintaku, K. Mizutani, K., see Sayama, J. Komakine, T., N. Honda and K. Ouchi, Analysis of over- Mochizuki, M., C. Ishikawa, Y. Okada and K. write spectrum in perpendicular magnetic recording Nakamoto, Reduction in remanent magnetization Komatsu, M., see Kawai, K. using a multi-layered single-pole writer Kong, S.-H., see Ito, S. Moffat, T.P., see Egelhoff, W.F., Jr. Kryder, M.H. and R.W. Gustafson, High-density Morisako, A., see Rahman, T. perpendicular recording—advances, issues, and ex- Moser, A., M. Xiao, P. Kappenberger, K. Takano, W. tensibility Weresin, Y. Ikeda, H. Do and H.J. Hug, High- Kurihara, Y., see Ahmed, M.Z. resolution magnetic force microscopy study of high- Kurisu, H., see Tanaka, T. density transitions in perpendicular recording media Kurosawa, T. and N. Honda, Distributions and Moser, A., see Williams, M. dynamics of spike noise in double-layered perpendi- Muraoka, H., see Greaves, S.J. cular recording media Muraoka, H., see Xia, W. Kusumi, T., K. Yamakawa and K. Ouchi, Head position Muraoka, H., see Hashimoto, M. control on quasi-static read/write tester Muraoka, H., see Yatagai, A. Muraoka, H., see Miura, K. Muraoka, H., see Kanai, Y. Lee, H.J., see Kao, A.S. Muraoka, H., see Yamakawa, K. Lee, J. and J. Lee, A PRML with modified branches of a Muraoka, H., see Ise, K. dual MTR code for high-density PMR channels Muraoka, H., see Nakamura, Y. Lee, J., see Lee, J. Muraoka, H., see Isozaki, H. Lengsfield, B., see Williams, M. Muraoka, H., see Yamada, H. Li, G., H. Takahoshi, H. Ito, T. Washiya, H. Saito, S. Murillo, R., see Kikuchi, N. Ishio, T. Shima and K. Takanashi, Mechanism of magnetization process of island-like L1y FePt films Lim, B.C., see Piramanayagam, S.N. Nakagawa, S. and H. Yoshikawa, Effect of roughness Liu, B., J. Liu and T.-C. Chong, Slider design for sub-3- and continuity of Co layers to magnetic properties of nm flying height head-disk systems Co/Pd multilayers Liu, J., see Liu, B. Nakagawa, S. and T. Kamiki, Highly (001) oriented Liu, X., see Rahman, T. FePt ordered alloy thin films fabricated from Lodder, J.C., see Kikuchi, N. Pt(100)/Fe(100) structure on glass disks without Lodder, J.C., see Onoue, T. seed layers Luo, P., see Guarisco, D. Nakagawa, S., see Ito, S. Nakagawa, S., see Das, S. Machida, K., see Hayashi, N. Nakagawa, S., see Das, S. Maekawa, M.., see Nishio, H. Nakamoto, K., see Mochizuki, M. Mallett, J.J., see Egelhoff, W.F., Jr. Nakamura, A., see Igarashi, M. Matsumoto, M., see Rahman, T. Nakamura, K., T. Shimakura and H. Suzuki, Magnetic Matsunuma, S., see Tanaka, M. field measurement for analysis of GHz response in Matsunuma, S., see Asahi, T. SPT head using electron beam tomography Matsunuma, S., see Sayama, J. Nakamura, S., see Miyashita, E. Matsuura, M., see Tanaka, T. Nakamura, S., see Funabashi, N. McMichael, R.D., see Egelhoff, W.F., Jr. Nakamura, Y., Basic design concepts for perpendicular Middleton, B.K., see Ntokas, I.T. magnetic recording—from viewpoints of high writing Mita, S., A generalized data discrimination scheme using ability and resolution kernel machines in the presence of pattern-dependent Nakamura, Y., Y. Okamoto, H. Osawa, H. Muraoka noise and Y. Nakamura, Performance comparison of post- Miura, K., H. Muraoka, H. Aoi and Y. Nakamura, processor for PRML channel in_ perpendicular Correlation between transition parameter and transi- magnetic recording tion jitter using Voronoi cell modeling Nakamura, Y., see Greaves, S.J. 510 Author index to volume 287 Nakamura, .. see Xia, W. Ouchi, K., see Yamakawa, K. Nakamura, .. see Hashimoto. M. Ouchi, K., see Ise, K. Nakamura. .. see Yatagai, A. Ouchi, K., see Kusumi, T. Nakamura, ., see Miura, K. Ozgunes, I. and W.R. Eppler, Modeling of the nonlinear Nakamura, .. see Kanai, Y. perpendicular recording readback signal Nakamura, .. see Yamakawa, K. Nakamura, ., see Ise, K. Parker, G.J., see Covington, M. Nakamura, .. see Nakamura, Y. Payne, R., see Williams, M. Nakamura, Y., see Isozaki, H. Perumal, A., see Zhang, Z. Nakamura, ewnYe., eseeee eYaemacdaH, H. Piramanayagam, S.N., H.B. Zhao, M. Dewi and B.C. Nawate, M., S. Honda and H. Tanaka, Domain wall Lim, Investigations on annealed Ni-P in Al-Mg/Ni confinement with thin film edges P substrates as soft underlayer for perpendicular Nishida, Y., see Suzuki, Y. recording media Nishio, H., Y. Ota, M. Maekawa and H. Yamamoto, Pohkil, T., see Speetzen, N. Thermal stability of information storage tapes Powell, C.J., see Egelhoff, W.F., Jr. prepared from very fine metal particles Niwa, D., see Kawaji, J. Qi, X., see Speetzen, N. Nix, L., see Williams, M. Noguchi, K., see Hirata, K. Rahman, T., X. Liu, A. Morisako and M. Matsumoto, Ntokas, I.T., P.W. Nutter and B.K. Middleton, Evalua- Tbfeco film with W underlayer and overlayer for tion of read channel performance for perpendicular perpendicular magnetic recording patterned media Rebei, A., see Covington, M. Nutter, P.W., see Ntokas, I.T. Rheem, Y.W., see Saito, H. Richter, H.J. and A.Yu. Dobin, Angle effects at high- Ohsawa, Y.. Fabrication and in situ magnetoresistance density magnetic recording measurement of a Ni point-contact in planar Roppongi, T., see Hirata, K. configuration Ohshima, T., see Shimoda, K. Sagae, K., see Yamakawa, K. Ohtake, M., see Takahashi, N. Sahashi, M., see Doi, M. Oikawa, H., see Kawaji, J. Saito, H., Y.W. Rheem and S. Ishio, Simulation of high- Okada, Y., see Mochizuki, M. resolution MFM tips for high-density magnetic Okamoto, T., see Ito, S. recording media with low bit aspect ratio Okamoto, Y., see Nakamura, Y. Saito, H., see Li, G. Okamoto, Y., see Isozaki, H. Saito, K., see Guarisco, D. Onoue, T.. M.H. Siekman, L. Abelmann and J.C. Saito, S., see Hashimoto, A. Lodder, Heat-assisted magnetic probe recording on Sato, I., see Aoyama, T. a CoNi/Pt multilayered film Sayama, J., K. Mizutani, T. Asahi, J. Ariake, K. Ouchi, Osaka, T., T. Asahi, T. Yokoshima and J. Kawaji, S. Matsunuma and T. Osaka, Magnetic properties Electroless-deposited soft magnetic underlayer on and microstructure of SmCos thin film with perpen- silicon disk substrate for double-layered perpendicu- dicular magnetic anisotropy lar magnetic recording media Sayama, J., see Asahi, T. Osaka, T., see Tanaka, M. Seigler, M.A., see Covington, M. Osaka, T., see Asahi, T. Shapiro, A.J., see Egelhoff, W.F., Jr. Osaka, T.. see Sayama, J. Shima, T., see Li, G. Osaka, T., see Kawaji, J. Shimakura, T., see Nakamura, K. Osawa, H., see Nakamura, Y. Shimatsu, T., see Yamada, H. Osawa, H., see Isozaki, H. Shimoda, K., T. Sugimoto, R. Inamura, T. Ohshima, D. Ota, Y., see Nishio, H. Kaneko, S. Takefusa, T. Uzumaki and A. Tanaka, Ouchi, K., see Komakine, T. Recording characteristics of CoPtCr-SiO» perpendi- Ouchi, K., see Honda, N. cular media Ouchi, K.. see Kiya, T. Shinagawa, K., see Takahashi, N. Ouchi, K., see Taguchi, K. Shintaku, K., K. Ise, T. Kiya, K. Yamakawa and K. Ouchi, K., see Yamane, H. Ouchi, Fe-Co-Al-O soft magnetic films for main Ouchi, K., see Ariake, J. pole of CF-SPT head and underlayer of perpendi- Ouchi, K., see Sayama, J. cular double-layered media Ouchi, K., see Takahashi, S. Siekman, M.H., see Onoue, T. Ouchi, K., see Shintaku, K. Singh, A.K., see Zhang, Z. Author index to volume 287 Speetzen, N., B.J.H. Stadler, E. Yuan, R.H. Victora, X. Tanaka, Y., Recording performance and system inte- Qi, J.H. Judy, N. Supper and T. Pohkil, Co/Pd gration of perpendicular magnetic recording multilayers for perpendicular magnetic recording Tanaka, Y., see Aoyagi, Y. media Tsuchiyama, R., see Yamada, H. Stadler, B.J.H., see Speetzen, N. Stiles, M.D., see Egelhoff, W.F., Jr. Uzumaki, T., see Shimoda, K. Sugiki, R., see Kawai, K. Sugimoto, T., see Shimoda, K. Victora, R.H., see Speetzen, N. Sugita, Y., see Igarashi, M. Supper, N., see Speetzen, N. Washiya, T., see Li, G. Suzuki, A., see Yoshida, K. Watanabe, H., see Kanai, Y. Suzuki, H., ssee e Nakamura, K. Watanabe, I., see Yamada, H. Suzuki, T., see Zhang, Z. Watanabe, S., see Yamane, H. Suzuki, Y., Y. Nishida and H. Aoi, Spacing loss factor Watanabe, S., see Ariake, J. for the read back from a perpendicular medium with Weresin, W., see Williams, M. a soft underlayer Weresin, W., see Moser, A. Svedberg, E.B., see Egelhoff, W.F., Jr. Williams, M., W. Weresin, B. Lengsfield, A. Moser, L. Nix and R. Payne, Studies of transition Taguchi, K., S. Takahashi, K. Yamakawa and K. noise in media recorded by heads with trailing Ouchi, Control of transition shift using DC-bias shields current Wu. Y., see Guarisco, D. Taguchi, R., see Miyashita, E. Taguchi, R., see Funabashi, N. Xia, W., T. Yamada, H. Aoi, H. Muraoka and Y. Taguchi, T.K., see Aoyagi, Y. Nakamura, Reduction of track width in perpendi- Takagishi, M., see Aoyagi, Y. cular magnetic recording Takahashi, M., see Hashimoto, A. Xiao, M., see Moser, A. Takahashi, N., M. Ohtake and K. Shinagawa, 3-D FEM Xiao, M., see Heidmann, J. analysis of writing characteristics of CF-SPT head in cross-track and down-track directions Yamada, H., T. Shimatsu, I. Watanabe, R. Tsuchiyama, Takahashi. S.. K. Yamakawa, K. Ouchi and S.-i. H. Aoi, H. Muraoka and Y. Nakamura, Read/write Iwasaki, Grooved soft-underlayer for double-layered performance of perpendicular double-layered cylind- medium rical media Takahashi, S., see Taguchi, K. Yamada, T., see Xia, W. Takahoshi, H., see Li, G. Yamakawa, K., K. Ise, K. Ouchi, K. Sagae, H. Takanashi, K., see Li, G. Muraoka, H. Aoi and Y. Nakamura, New high Takano, K., Magnetization dynamics of perpendicular field single-pole head design with an_ ultra-fine writers coil Takano, K., see Moser, A. Yamakawa, K., see Taguchi, K. Takano, K., see Heidmann, J. Yamakawa, K., see Takahashi, S. Takefusa, S., see Shimoda, K. Yamakawa, K., see Shintaku, K. Tamaki, T., see Miyashita, E. Yamakawa, K., see Ise, K. Tamaki, T., see Funabashi, N. Yamakawa, K., see Kusumi, T. Tamaki, T., see Hayashi, N. Yamamoto, H., see Nishio, H. Tan, W. and J.R. Cruz, Evaluation of detection Yamamoto, S., see Tanaka, T. algorithms for perpendicular recording channels with Yamane, H., S. Watanabe, J. Ariake, N. Honda, K. intertrack interference Ouchi and S. Iwasaki, Effect of oxygen on magnetic Tanaka, A., see Shimoda, K. properties of Co-Pt-Cr-SiO, thin films for perpen- Tanaka, H., see Nawate, M. dicular recording media Tanaka, M., J. Kawaji, K. Kimura, T. Asahi, T. Yanagihara, H., see Yoshida, K. Homma, S. Matsunuma and T. Osaka. Microstruc- Yang, J.-S. and C.-R. Chang, Fast switching in ture of a Co/Pd multilayered perpendicular recording single-domain particles with uniaxial quartic aniso- medium with Pd seeds prepared by electrochemical tropy process Yatagai, A., K. Miura, H. Muraoka, H. Aoi and Y. Tanaka, M., see Asahi, T. Nakamura, Noise characterization of perpen- Tanaka, T., S. Yamamoto, H. Kurisu and M. Matsuura, dicular magnetic media using autocorrelation Eddy current effect in soft magnetic backlayer for method PMR media Yin, J., see Zhang, Z. Author index to volume 287 Yokoshima, T., see Osaka, T. 292 Zhang, Z., A.K. Singh, J. Yin, A. Perumal and T. Yoshida, K., A. Suzuki and H. Yanagihara, Calcula- Suzuki, Double-layered perpendicular magnetic re- tions of magnetization configurations of SPT head cording media of granular-type FePt-MgO films using micromagnetic model Zhao, H.B., see Piramanayagam, S.N. Yoshikawa, H., see Nakagawa, S. Zheng, M., see Choe, G. Yuan, E., see Speetzen, N. Zhou, J.N., see Choe, G. Available online at www.sciencedirect.com FA \ournal ot SCIENCE @emnecr- magnetism and magnetic materials ELSEVIER Journal of Magnetism and Magnetic Materials 287 (2005) 513-515 www.elsevier.com/locate/jmmm Subject index to volume 287 3-D finite element method 89 Cu seedlayer 239 Field gradient 367 Current perpendicular to the plane 325 Field strength 367 Additive N» gas 199 Cusp-field single-pole head 265 Film edge 392 Aerodynamics 339 Cusp-field single-pole-type head 89 Finite-Element methods 362 Angle effects 41 Cylindrical magnetic storage system 486 Flying height 339 Anisotropy constants 308 Frequency response 333 Data 475 Anisotropy dispersion 159 Anisotropy field 234 DC-bias current 144 Giant magnetoresistance 325 Dibit 442 Annealing 271 Glass disks 204 Anomalous Hall effect 314, 320 Differential pulse width 149 Grain size 172 Antiferromagnetic layer 176 Distribution 172 Groove 260 Domain size 250 Antiferromagnetic/ferromagnetic stacking Domain structure 219, 352 structure 287 Hard disk drive 468 Domain wall confinement 392 Ar pressure 167 Head field 346 Area selective formation 245 Domain-wall displacement 287 Head-disk interface 339 Double layer perpendicular media 468 Artifacts 496 Head-medium magneto-static interaction Double-layered media 308 27 Double-layered medium 83 Backlayer 118 Double-layered perpendicular recording Heat assist 501 Ballistic 491 High saturation magnetic flux density 265 media 118 Ballistic magnetoresistance 496 Double-layered perpendicular recording High saturation magnetization 387 Bit curvature 260 medium 27 High-density magnetic recording 421 High-density recording 298 High-speed switching 357 c-axis orientation 204 Easy/hard transition 107 Historical view | Channel detection 397 Eddy currents 481 Hybrid media 255 Chemical ordering 209 Effective magnetization vector. 314 Hysteresis loop slope 118 Cluster size distribution 123 Electrochemical process 188 Co thin layer 193 Electroless deposition 245, 292 Incident angle of sputtered particles 281 Co/Pd multilayered perpendicular record- Electron beam tomography 333 InSn seedlayer 181 ing media 188 Electroplating 271 Integration 468 Co/Pd multilayers 16, 181, 193 Erasure 475 Interleaved parity-check code 405 Co/Pt multilayer 320 Error rate performance 123 Intermediate layer 118, 176 Co/Sm laminate structure 239 Exchange coupling 66, 159, 381 Intertrack interference (ITI) 397, 432 CoB/Pd multilayered film 199 External field 144 Ion implantation 209 CoCr alloys 16 Iterative decoding 426 CoCrPtSiO, oxides 16 Fast switching 303 Coercivity 214, 219, 250 Fe-Co alloy 387 Coil 367 Fe-Co particle 234 Jitter 61, 66, 432, 449 Joint-track detection 397 Complementarity 9 Fe-Co-Al-O 265 Complementary features 468 Fe-Co-B 281 CoNiP alloys 245 FEM calculation 77 Kernel machines 426 Constructive inter-track interference 432 FePt 209 CoPtCrO 159 FePt film 224 LI, 209 Co-Pt-Cr-SiO, 153, 176 FePt-ordered alloy film 204 Ll, FePt 214 Co-Pt-Ta,O; 167 Ferromagnetic hall effect 308 Lly FePt film 219 Crystallite size 234 Field calculation 138 LLG equation 392 doi:10.1016/S0304-8853(05)00028-4 514 Subject index to volume 287 Longitudinal recording 9 Overwrite noise 107, 416 Recording codes 432 Low bit aspect ratio 102 Oxygen effect 153 Recording potential 41 Recording systems 459 Magnetic anisotropy field 281 Pattern-dependent noise 426 Recording write heads 362 Magnetic cluster 149 Patterned media 245, 320, 437 Remanent magnetization 372 Magnetic cluster size 96 Pd activation process 245 Return pole 83 Magnetic disk drive 339 Pd seeds 188 Return-yoke 376 Magnetic domain 83 Perpendicular recording heads 459 Reverse 61 Magnetic field 333 Perpendicular recording media 459 Rotation magnetization 287 Magnetic field calculations 362 Perpendicular 61, 442, 475 Magnetic field gradient 51 Perpendicular coercivity 167, 172 Shield 61 Magnetic force microscopy 102, Perpendicular double-layered media Si-doping 181 298, 501 486 Signal-induced noise 276 Magnetic memory 339 Perpendicular head 346 Silicon disk 292 Magnetic property 153 Perpendicular magnetic anisotropy Simulation 66, 96 Magnetic recording 89, 138 239 Simulation study 113 Magnetic recording channels 426 Perpendicular magnetic recording 1, Single pole type perpendicular head Magnetic recording density anaiysis 21, U1, V3, 123, 128, 133; 138, 18t, 468 51 250, 255, 276, 298, 362, 372, 376, Single-domain structure 308 Magnetic recording media 102 405, 459 Single-pole head 27, 77, 367, 376 Magnetic recording-perpendicular Perpendicular magnetic recording media Single-pole writer 372 229 224 Single-pole-type head 83 Magnetization dynamics 325, 346 Perpendicular magnetic recording medium Single-pole-type writer 486 Magnetization process 219 199, 292 SmCo; thin film 239 Magnetization rotation 314 Perpendicular magnetic recording thin SNR 224 Magnetization-reversal 229 SNRow 416 film media 16 Magnetoresistance 491 Perpendicular magnetization component Soft magnetic backlayer 481 Media 167 314 Soft magnetic layer 276 Media noise 159 Perpendicular media 96, 159 Soft magnetic underlayer 265, 271, Medium hysteresis model 89 Perpendicular recording 9, 41, 51, 287, 292, 308 Metal particle tape 9 107, 271, 357, 397, 432, 437, 449, Soft underlayer 376 Metal particulate tape 234 468, 481 Soft-magnetic back-layer 27 MFM 149 Perpendicular recording head 352 Soft-underlayer 357 MFM image 255 Perpendicular recording media 153 Spatial resolution 102 MFM tips 102 Perpendicular recording medium 72 Specular spin valve 381 M-H loop slope 113 Phase change 214 Spike noise 276 Micromagnetic simulation 72 PMRC 1 Spin momentum transfer 325 Micromagnetics 83, 346, 392 Point-contact 491 Spin valve 325 Microstructure 188, 229 Pole erasure 352 Spin waves 357 Micro-track model 149 SPT head 333 Pole material properties 352 MMPC 214 Post-processing 405 Sputter Ar gas pressure 193 Modulation code 410 Sputtering 214 PR channel 416 MTR coding 410 Stoner-Wohlfarth astroid 41 Precessional switching 303 Multilayer 501 PRML 410, 437 SUL 260 Multi-layered film 372 Probe recording 501 Surface morphology 172 Pt(1 00)/Fe(1 00) bilayer 204 Surface roughness 193 Nanocontacts 392, 491, 496 Surface-free energy 387 Nano-oxide layer 381 Quartic anisotropy 303 New classification of research work | TbFeCo film 250 Quasi-static read/write tester 421 NLTS 144 Thermal acceleration method 72 Noise 66 Thermal decay 96, 255 Noise autocorrelation 128 Read channel 437 Thermal stability 72, 224, 234 Noise predictive 416 Read head 138 Thin films-sputtered 229 Noise spectrum 107 Read sensitivity 449 three-dimensional finite element method Nonlinear 442 Read/ write characteristics 255 481 Nonlinear transition shift 113 Recording 475 Tilted magnetic field 314 Non-servo tracks 421 Recording characteristics 176 Tilted media 303 Subject index to volume 287 Time-domain Kerr microscopy Transition shift 144 Voronoi cells 133 357 Transition width 133 Track density 260 W underlayer 250 Track following 421 Write efficiency 449 Track width 77 Viterbi detector with modified branch Write head materials 387 Transition jitter 133, 149 metric 410 Transition percolation 123 Volterra 442 X-ray photoelectron spectroscopy 153

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