ebook img

Journal of Magnetism and Magnetic Materials 1999: Vol 193 Index PDF

11 Pages·1999·3.1 MB·English
by  
Save to my drive
Quick download
Download
Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.

Preview Journal of Magnetism and Magnetic Materials 1999: Vol 193 Index

J \ournal ot Ame ELSEVIER Journal of Magnetism and Magnetic Materials 193 (1999) 526-532 Author index to volume 193 Abe, M., see Kitamoto, Y. Bijker, M.D., L. Abelmann, J.C. Lodder and Th.J.A. Abelmann, L., see Bolhuis, T. Popma, The role of oxygen in obliquely deposited Abelmann, L., see Bijker, M.D. tapes Abelmann, L., see Vellekoop, S.J.L. Birtwistle, J.K., see Casey, S.M. Abelmann, L., see Haast, M.A.M. Bissell, P.R., see Mercer, T. Akimoto, H., Y. Yoshida, C. Okuyama, I. Okamoto and Bissell, P.R., see McCann, S.M. M. Shinohara, Magnetic relaxation in thin film media Bissell, P.R., see McCann, S.M. as a function of orientation ratio Bissell, P.R., see Stancu, A. Andriessen, W., ‘THE WINNER’; compact cassette. Bissell, P.R., see Kay, G.E. A commercial and technical look back at the greatest Bissell, P.R., see Jones, H.V. success story in the history of AUDIO up to now Blazek, D., see Ilkovic, V. Antonov, V.N., see Uba, L. Bolhuis, T., see Lisfi, A. Aoyama, T., see Hattori, K. Bolhuis, T., L. Abelmann, J.C. Lodder and E.O. Samwel, Ariake, J.. T. Kiya, N. Honda and K. Ouchi, Magnetic On the vectorial calibration of a vibrating sample and noise properties of Nb added Co—Cr perpendicu- magnetometer for thin film measurements lar medium Bolhuis, T., see Samwel, E.O. Arnett, P., T. Minvielle and S. Nair, Extracting media Bonningue, C., see Tailhades, P. noise characteristics from MFM images Bordel, C., S. Pizzini, J.C. Toussaint, B. Kervorkian and Arnold, R.H., M. Dresenkamp and H. Faber, Two-di- J. Voiron, Magnetic properties of amorphous nitro- mensional measurements and presentation of media genated TbFeCo thin films recording properties Borg, H.J. and R. van Woudenberg, Trends in optical Aso, K., T. Sato and M. Ishibashi, Magnetic force micro- recording scopic study of magnetic tapes recorded at MHz Bottoni, G., D. Candolfo and A. Cecchetti, Thermal frequencies relaxation of the magnetization in recording media Ata, M., see Kurihara, K. Bottoni, G., D. Candolfo and A. Cecchetti, Experimental Aziz, M.M., B.K. Middleton and J.J. Miles, The nature of study of the interactions in CoCr thin films recorded magnetisation transitions in thin film media Bottoni, G., D. Candolfo, A. Cecchetti and F. Masoli, Aziz, M.M., B.K. Middleton and J.J. Miles, The effect of Magnetic anisotropy distribution in Ba ferrite par- finite pole lengths of replay heads on the signal and ticles noise characteristics of thin film recording media Bottoni, G., D. Candolfo, A. Cecchetti and F. Masoli, Analysis of the magnetization switching using the Badescu, R., see Badescu, St.C. rotational hysteresis integral Badescu, St.C., V. Badescu, N. Rezlescu and R. Badescu, Bouet, L., see Furuya, A. Modeling the nonlinear dynamics of magnetic do- Bouet, L., see Tailhades, P. main walls Burgelman, M., see Jia, H. Badescu, V., see Badescu, St.C. Burgelman, M., see Veldeman, J. Barnard, J.A, see Weston, J.L. Burkett, S., see Goodman, A.M. Béchevet, B., see Saluel, D. Butera, A., see Weston, J.L. Bennett, L.H., see Fry, R.A. Bertram, H.N. and C. Seberino, Numerical simulations of hysteresis in longitudinal magnetic tape Candolfo, D., see Bottoni, G. Bijker, M.D., E.M. Visser, J.C. Lodder and Th.J.A. Candolfo, D., see Bottoni, G. Popma, Optimisation of obliquely sputter deposited Candolfo, D., see Bottoni, G. media 352 Candolfo, D., see Bottoni, G. 0304-8853/99/$ see front matter ©) 1999 Elsevier Science B.V. All rights reserved. PII: S0304-8853(99)00083-9 Author index to volume 193 527 Casey, S.M., see Sharma, N. 93 Feng, J., N. Matsushita, T. Murakoso, S. Nakagawa and Casey, S.M., E.W. Hill, J.J. Miles, P. Sivasamy, J.K. M. Naoe, Effects of Al substitution for Fe in Ba ferrite Birtwistle, B.K. Middleton, J. Rose and J.N. Chap- thin films man, A study of recorded bit patterns using TEM and Fry, R.A., L.H. Bennett, E.D. Torre, R.D. Shull, W.F. MFM Egelhoff Jr., R.F.C. Farrow and C.H. Lee, Magneto- Cecchetti, A., see Bottoni, G. optical measurements of Co-Pt (1 1 1) multilayers 162 Cecchetti, A., see Bottoni, G. Fukushima, H., see Uesaka, Y. 399 Cecchetti, A., see Bottoni, G. Furuya, A., H. Yoshikawa, T. Ohkubo, M. Yamamoto, Cecchetti, A., see Bottoni, G. P. Tailhades, L. Bouet, C. Despax, L. Presmanes and Chang, H.C., see Chern, G. A. Rousset, Magneto-optical properties of a sputtered Chantrell, R.W., see Walmsley, N.S. Bi-substituted Dy iron garnet-ferrite/spinel-ferrite bi- Chantrell, R.W., see Hannay, J.D. layer Chantrell, R.W., see Coverdale, G.N. Futamoto, M., N. Inaba, Y. Hirayama, K. Ito and Y. Chantrell, R.W., see Stancu, A. Honda, Microstructure and micromagnetics of future Chantrell, R.W., see Jones, H.V. thin-film media Chantrell, R.W., see Walmsley, N.S. Futamoto, M., see Hirayama, Y. Chantrell, R.W., see Ridley, P.H.W. Futamoto, M., see Yoshida, K. Chapman, J.N., see Casey, S.M. Chen, B.-M., see Wu, T.-h. Chern, G., D.S. Lee, H.C. Chang and T.-h. Wu, Crystal- Gan’shina, E., V. Guschin, I. Romanov, A. Skobelev and A. Tselev, Co—Pd alloy films for magneto-optical re- line anisotropy effects on magnetoresistance in epi- cording 174 taxial spin-valve sandwiches with antiferromagnetic Germain, C., see Saluel, D. 488 NiO films Gilson, R.G., see Mercer, T. 284 Christodoulides, J.A., see Stavroyiannis, S. Gilson, R.G., see Coverdale, G.N. 322 Clark, M.H., Making magnetic recording commercial: 1920-1955 Gilson, R.G., see McCann, S.M. 362 Clark, T.D., see Prance, R.J. Gontarz, R., see Uba, L. 159 Goodman, A.M., K. O'Grady, M.R. Parker and S. Bur- Cord, B., O. Keitel, H.R ohrmann and J. Scherer, Influ- kett, Competing sweep-rate dependent effects in the ence of target composition and sputter conditions on hard loop of spin-valve multilayers magnetic properties of hard disks Gotaas, J.A., see Mercer, T. 284 Coughlin, T., see Wood, R. Greaves, S.J., H. Muraoka, Y. Sugita and Y. Nakamura, Coughlin, T.M., see Laidler, H. Simulations of time dependence in perpendicular me- Coverdale, G.N., A. Satoh, R.G. Gilson and R.W. dia Chantrell, Computational studies of the orientation Groenland, J.P.J., see Lalbahadoersing, S. of advanced particulate media during coating and Groenland, J.P.J., see Lalbahadoersing, S. drying Grundy, P.J., see Sharma, N. Cumpson, S.R., see Draaisma, E.A. Guschin, V., see Gan’shina, E. Daval, J., see Saluel, D. De Haan, P., see Lisfi, A. Haast, M.A.M., I.R. Heskamp, L. Abelmann, J.C. Lodder Despax, C., see Furuya, A. and Th.J.A. Popma, Magnetic characterization of Dickson, D.P.E., see Morales, M.P. large area arrays of single and multi domain CoNi/Pt Djayaprawira, D.D., see Suzuki, H. multilayer dots 511 Draaisma, E.A., S.R. Cumpson, T.P.H.G. Jansen, P. Hadjipanayis, G.C., see Stavroyiannis, S. 181 Hidding and S.B. Luitjens, Performance of advanced Hannay, J.D., N.S. Walmsley and R.W. Chantrell, tapes with DigaMax™ thin film heads A computational model of thermally activated high Dresenkamp, M., see Arnold, R.H. speed magnetisation reversal in longitudinal thin film Duc Hien, T., see Kim, P.L. media 245 Duller, A.W.G., see Jones, H.V. Harada, K., see Suzuki, T. 85 Hart, A., see Kay, G.E. 406 Hasman, D., see Kim, K.J. 265 Egelhoff Jr., W.F., see Fry, R.A. Hatakeyama, M., see Nakagawa, S. 63 Hattori, K., T. Aoyama and I. Sato, Three-dimensional Faber, H., see Arnold, R.H. magnetization analysis of longitudinal media using Farkas, J., see Kim, K.J. merged MR head with submicron track width 412 Farrow, R.F.C., see Fry, R.A. Hayashi, N., see Uesaka, Y. 399 Feng, J., see Matsushita, N. Hayashi, N., see Sakamoto, I. 507 528 Author index to volume 193 He, L.N., Z.G. Wang, D.J. Mapps, D.T. Wilton and P. Ito, K., see Hirayama, Y. 253 Robinson, Comparison of track edge noise between Iwasaki, S., see Honda, N. oriented and isotropic thin film media in quasi-con- Jackson, M., see Jones, G.R. tact magnetic recording 52 Jackson, M., L.S. Prichard, K. O'Grady and P.I. Mayo, He, L.N., see Wang, Z.G. 452 Determination of switching field distribution and Heskamp, I.R., see Haast, M.A.M. 511 easy axis distribution in metal particle tape Hidding, P., see Draaisma, E.A. 384 Jacobs, P., see Kim, K.J. Hill, E.W., see Casey, S.M. 470 Jansen, T.P.H.G., see Draaisma, E.A. Hirayama, Y., see Futamoto, M. 36 Jeon, K.S. and A.M. Lane, Polymer adsorption on mag- Hirayama, Y., K. Ito, Y. Honda, N. Inaba and M. netic particles Futamoto, Thermal stability of CoCr-alloy perpen- Jeon, K.S., see Peikov, V.T. dicular magnetic recording media 253 Jeon, K.S., see Peikov, V.T. Hirayama, Y., see Yoshida, K. 462 Jia, H., J. Veldeman and M. Burgelman, Effect of helium Hoare, A., see Jones, H.V. 416 partial pressure on DC-magnetron sputtering of Honda, N., see Suzuki, T. 85 Co-Cr films Honda, N., see Wu, L. 89 Jia, H., see Veldeman, J. Honda, N., see Ariake, J. 101 Jones, G.A., see Sharma, N. Honda, N., K. Ouchi and S. Iwasaki, Noise source Jones, G.R., M. Jackson and K. O’Grady, Determination and noise spectrum of perpendicular recording of grain size distributions in thin films media 106 Jones, H.V., A.W.G. Duller, R.W. Chantrell, A. Hoare Honda, S., H. Yamane, M. Nishino and M. Nawate, and P.R. Bissell, Application of neural networks to Granular-type giant magnetoresistance of Co-Ag the determination of H, distributions from transverse and FeCo—CoAg films deposited with tandem susceptibility data method 492 Jorgensen, F., The inventor Valdemar Poulsen Honda, S., see Sakamoto, I. 507 Judy, J.H., see Laidler, H. Honda, Y., see Futamoto, M. 36 Honda, Y., see Hirayama, Y. 253 Kadokura, S. and M. Naoe, Perpendicular Co—Cr thin Hosoe, Y., see Tanahashi, K. 232 films using a new sputtering plasma generating ap- Howells, G., see Prance, R.J. 437 paratus Hsu, A.C., see Huang, J.C.A. 166 Kadokura, S., see Naoe, M. Hu, Y., see Warren, G.W. 276 Kamei, T., N. Kishii and K.-i. Kurihara, Removal of Hu, Y.M., see Huang, J.C.A. 166 brown stain on magnetic head by a chelating agent Huang, J.C.A., see Wu, T.-h. 136 on magnetic tapes Huang, J.C.A., T.H. Wu, A.C. Hsu, L.C. Wu and Y.M. Kanbe, T., see Tanahashi, K. Hu, Structure and perpendicular magnetic anisot- Kang, H.-J., see Perettie, D.J. ropy of a new CoPt, alloy grown by MBE 166 Kantake, S., see Kitamoto, Y. Hutchings, J.A., see Morales, M.P. 314 Kawanabe, T., see Noda, K. Kay, G.E., P.R. Bissell, A. Hart and D.A. Parker, A mi- Ichinose, M., see Matsushita, N. 68 cromagnetic model of metal-evaporated tape Igarashi, M., see Yoshida, K. 462 Keitel, O., see Cord, B. Ikeda, Y., see Sakamoto, I. 507 Kervorkian, B., see Bordel, C. Ilkovic, V., S. Tuleja and D. Blazek, Magnetic properties Kikuchi, A., see Takahashi, M. of superlattice-configured thin films with variable in- Kim, K.J., J. Farkas, D.H asman, T. Miller, J. Zellia and terlayer couplings 177 P. Jacobs, Recent developments in binder design for Ilmer, A., see Veitch, R.J. 279 advanced media Inaba, N., see Futamoto, M. 36 Kim, P.L., C. Lodder, N.H. Luong and T.D. Hien, The Inaba, N., see Hirayama, Y. 253 influence of tantalum content in relation to substrate Inamura, R., K. Sato and T. Mizoguchi, Reduction of temperature on magnetic and structural properties of remanence in CoCrTaPt high density recording me- Co-—Cr-Ta thin films dia by pulse field 229 Kim, P.L., C. Lodder and T. Popma, Field dependence of Ishibashi, M., see Aso, K. 430 magnetic viscosity of CoCrTa in-plane media Ishigaki, H., Y. Konishi, K. Kondo and K. Koterazawa, Kishii, N., see Kamei, T. Possibility as a magnetic recording media of aus- Kishii, N., see Kurihara, K. tenitic stainless steel using stress-induced phase trans- Kitamoto, Y., S. Kantake, F. Shirasaki, M. Abe and M. formation 466 Naoe, Low-temperature fabrication of Co ferrite thin Ishikawa, A., see Suzuki, H. 59 films with high coercivity for perpendicular recording Ito, K., see Futamoto, M. 36 disks by wet process 97 Author index to volume 193 Kitamura, H., see Kohmoto, O. 349 Luitjens, $.B. and A.M.A. Rijckaert, The history of con- Kiya, T., see Wu, L. 89 sumer magnetic video tape recording, from a rarity to Kiya, T., see Ariake, J. 101 a mass product Kohmoto, O., T. Tsuda and H. Kitamura, Ferromagnetic Luitjens, S.B., see Lalbahadoersing, S. resonance in digital-video ME tapes 349 Luitjens, S.B., see Draaisma, E.A. Kondo, H., see Kurihara, K. 296 Luitjens, S.B., see Lalbahadoersing, S. Kondo, H., see Omura, T. 303 Luong, N.H., see Kim, P.L. Kondo, H., see Okamoto, K. 378 Kondo, K.., see Ishigaki, H. 466 Maeda, N., see Okamoto, K. Konishi, Y., see Ishigaki, H. 466 Mapps, D.J., see He, L.N. Koterazawa, K., see Ishigaki, H. 466 Mapps, D.J., see Wang, Z.G. Kratzert, A., F. Obernosterer and W.F. Oehme, Estima- Masoli, F., see Bottoni, G. tion of data dependent transition displacement in thin Masoli, F., see Bottoni, G. film media Matsumoto, M., see Morisako, A. Kudo, T., see Okamoto, K. Matsushita, N., M. Ichinose, 8. Nakagawa and M. Naoe, Kuga, K., Y. Yoneda, J. Numazawa and M. Naoe, Large Co-Zn ferrite films prepared by facing targets sput- output and high density recording tape with perpen- tering system for longitudinal recording layer dicular magnetic Co—Cr-Ta film for VCR Matsushita, N., J. Feng, T. Siosawa, S. Nakagawa and M. Kurihara, K., M. Matsute, H. Watanabe, N. Kishii, T. Naoe, Relationship between coercivity and depos- Ono, H. Kondo and M. Ata, Development of highly ition conditions of Ba ferrite films prepared by facing reactive hardening agents for MP tapes targets sputtering apparatus Kurihara, K.-i., see Kamei, T. Matsushita, N., see Feng, J. Matsute, M., see Kurihara, K. Laidler, H., K. O’Grady, T.M. Coughlin and J.H. Judy, Mayo, P.I., see Jackson, M. Demagnetising field reduction in keepered media McCann, S.M., P.R. Bissell, T. Onions and R.G. Gilson, Lalbahadoersing, S., J.P.J. Groenland, S.B. Luitjens and Effects of playback on saturation remanent state J.C. Lodder, Recording characteristics as a result of noise the special morphology of ME tape McCann, S.M., P.M. Sollis, P.R. Bissell and T. Onions, Lalbahadoersing, S., J.P.J. Groenland, S.B. Luitjens and Noise characterisation of barium ferrite dispersions J.C. Lodder, Modeling and analysis of overwrite be- Mercer, T., P.R. Bissell, J.A. Gotaas and R.G. Gilson, havior versus increasing head field in thin MP tape Hindered settling of particulate dispersions Lane, A.M., see Jeon, K.S. Middleton, B.K., Developments in magnetic recording Lane, A.M., see Peikov, V.T. on rigid disks Lane, A.M., see Peikov, V.T. Middleton, B.K., see Aziz, M.M. Lebrun, S., see Tailhades, P. Middleton, B.K., see Aziz, M.M. Ledue, D., see Veiller, L. Middleton, B.K., see Casey, S.M. Lee, C.H., see Fry, R.A. Miles, J.J., see Walmsley, N.S. Lee, D.S., see Chern, G. Miles, J.J., see Aziz, M.M. Lenz, W., see Veitch, R.J. Miles, J.J., see Aziz, M.M. Lisfi, A., J.C. Lodder, P. de Haan, T. Bolhuis and F.J.G. Miles, J.J., see Casey, S.M. Roesthuis, Magnetic relaxation in barium ferrite films Miles, J.J., see Vellekoop, S.J.L. with perpendicular anisotropy Milford, G.H., see Morales, M.P. Lodder, C., see Kim, P.L. Miller, T., see Kim, K.J. Lodder, C., see Kim, P.L. Minvielle, T., see Arnett, P. Lodder, J.C., see Lisfi, A. Mizoguchi, T., see Inamura, R. Lodder, J.C., see Bolhuis, T. Monson, J., see Wood, R. Lodder, J.C., see Samwel, E.O. Morales, M.P., C.J. Serna, K. O’Grady, L.S. Prichard, Lodder, J.C., see Lalbahadoersing, S. J.A. Hutchings, G.H. Milford and D.P.E. Dickson, Lodder, J.C., see Bijker, M.D. Origin of switching field distribution in M-P pigments Lodder, J.C., see Bijker, M.D. Morgan, T.A., see Perettie, D_J. Lodder, J.C., see Lalbahadoersing, S. Morisako, A., M. Matsumoto and M. Naoe, Properties Lodder, J.C., see Vellekoop, S.J.L. of c-axis oriented Ba-ferrite sputtered films Lodder, J.C., see Haast, M.A.M. Murakoso, T., see Feng, J. Lu, J.Q., see Wu, T.-h. Muraoka, H., T. Shoji, I. Watanabe, Y. Sugita and Y. Lucinski, T. and G. Reiss, In situ monitoring of GMR Nakamura, Recording characteristics of perpendicu- and M(H) evolution during Co/Cu multilayers lar media deposited on a ferrite disk substrate growth Muraoka, H., see Greaves, S.J. 530 Author index to volume 193 Nagai, N., see Omura, T. 303 Onions, T., see McCann, S.M. 366 Nair, S., see Arnett, P. 479 Ono, T., see Suzuki, H. 59 Nakagawa, S., M. Hatakeyama, K. Takayama and M. Ono, T., see Kurihara, K. 296 Naoe, Study of initial growth region of Cog3Cr,7 in Ono, T., see Omura, T. 303 Cog3Cr, 7/Cog7Cr33/Cr trilayered films for longitudi- Otte, D., see Weston, J.L. 515 nal recording media 63 Ouchi, K., see Suzuki, T. 85 Nakagawa, S., see Matsushita, N. 68 Ouchi, K., see Wu, L. 89 Nakagawa, S., see Matsushita, N. 121 Ouchi, K., see Ariake, J. 101 Nakagawa, S., see Feng, J. 152 Ouchi, K., see Honda, N. 106 Nakai, J., see Takahashi, M. 79 Nakamura, Y., see Muraoka, H. 55 Panagiotopoulos, I., see Stavroyiannis, S. 181 Nakamura, Y., see Greaves, S.J. 409 Parker, D.A., see Kay, G.E. 406 Nakatani, Y., see Uesaka, Y. 399 Parker, M.R., see Goodman, A.M. 504 Naoe, M. and S. Kadokura, Preparation of Co—Cr—Ta Pasquet, I., see Tailhades, P. 148 films with nano-size magnetic domains for 1000 kfci Peikov, V.T., K.S. Jeon and A.M. Lane, Characterization media 185 of magnetic inks by measurements of frequency de- Naoe, M., see Nakagawa, S. 63 pendence of AC susceptibility 307 Naoe, M., see Matsushita, N. 68 Peikov, V.T., K.S. Jeon and A.M. Lane, Transverse sus- Naoe, M., see Noda, K. 71 ceptibility of magnetic inks. milling process 311 Naoe, M., see Kitamoto, Y. 97 Perettie, D.J., T.A. Morgan, Q. Zhao, H.-J. Kang and Naoe, M., see Morisako, A. 110 F.E. Talke, The use of phosphazene additives to en- Naoe, M., see Kadokura, S. 114 hance the performance of PFPAE lubricants 318 Naoe, M., see Matsushita, N. 121 Perlov, A.Ya., see Uba, L. 159 Naoe, M., see Feng, J. 152 Phillips, G.N., T. Suzuki, K. Takano and M. Takahashi, Naoe, M., see Kuga, K. 370 MFM analysis of recorded bits written by trimmed Nawate, M., see Honda, S. 492 and untrimmed MR heads 434 Nawate, M., see Sakamoto, I. 507 Pizzini, S., see Bordel, C. 170 Niarchos, D., see Stavroyiannis, S. 181 Popa, P.D., see Rezlescu, L. 288 Nikles, D.E., see Warren, G.W. 276 Popma, T., see Kim, P.L. 249 Nishida, Y., see Okamoto, K. 378 Popma, Th.J.A., see Bijker, M.D. 352 Nishino, M., see Honda, S. 492 Popma, Th.J.A., see Bijker, M.D. 357 Noda, K., T. Kawanabe and M. Naoe, Recording charac- Popma, Th.J.A., see Haast, M.A.M. 511 teristics and magnetic grains of rigid disks using sili- Porthun, S., see Vellekoop, S.J.L. 474 con substrates deposited by facing targets sputtering 71 Prance, H., see Prance, R.J. 437 Numazawa, J., see Kuga, K. 370 Prance, R.J., T.D. Clark, H. Prance and G. Howells, Imaging of magnetically recorded data using a novel O'Grady, K., see Jones, G.R. 75 scanning magnetic microscope 437 O'Grady, K., see Prichard, L.S. 220 Presmanes, L., see Furuya, A. 143 O'Grady, K., see Laidler, H. 262 Prichard, L.S. and K. O’Grady, High speed switching in O’Grady, K., see Morales, M.P. 314 metal particle recording media 220 O'Grady, K., see Jackson, M. 342 Prichard, L.S., see Morales, M.P. 314 O’Grady, K., see Walmsley, N.S. 420 Prichard, L.S., see Jackson, M. 342 O’Grady, K., see Goodman, A.M. 504 Obernosterer, F., see Kratzert, A. 455 Ranjan, R.Y., see Richter, H.J. 213 Ocehme, W.F., see Kratzert, A. 455 Reiss, G., see Lucinski, T. 484 Ohkubo, T., see Furuya, A. 143 Rezlescu, E. and N. Rezlescu, Garnet films for storage Okamoto, I., see Sato, K. 224 applications: growth and properties 140 Okamoto, I., see Akimoto, H. 240 Rezlescu, E. and N. Rezlescu, Magnetoresistance effect in Okamoto, K., Y. Sasaki, T. Kudo, K. Sasaki, Y. Nishida, the Mn, _,Zn,Fe,O,4 ceramics 501 N. Maeda and H. Kondo, Development of high capa- Rezlescu, E., see Rezlescu, L. 288 city floppy disk “HiFD” 378 Rezlescu, L., E. Rezlescu, P.D. Popa and N. Rezlescu, Okuyama, C., see Sato, K. 224 Fine barium hexaferrite powder prepared by the crys- Okuyama, C., see Akimoto, H. 240 tallisation of glass 288 Omura, T., T. Ono, N. Nagai and H. Kondo, Effect of Rezlescu, N., see Badescu, St.C. 132 dispersibility of fine particles on electromagnetic Rezlescu, N., see Rezlescu, E. 140 property 303 Rezlescu, N., see Rezlescu, L. 288 Onions, T., see McCann, S.M. 362 Rezlescu, N., see Rezlescu, E. 501 Author index to volume 193 531 Richter, H.J. and R.Y. Ranjan, Relaxation effects in thin Stavroyiannis, S., 1. Panagiotopoulos, D. Niarchos, J.A. film media and their consequences Christodoulides, Y. Zhang and G.C. Hadjipanayis, Richter, V., see Veitch, R.J. Investigation of CoPt/M (M = Ag, C) films for high Ridley, P.H.W.,G.W. Roberts, M.A. Wongsam and R.W. density recording media 181 Chantrell, Finite element modelling of nanoelements Street, S.C., see Warren, G.W. 276 Rijckaert, A.M.A., see Luitjens, S.B. Sugita, T., see Greaves, S.J. 409 Roberts, G.W., see Ridley, P.H.W. Sugita, Y., see Muraoka, H. 55 Robinson, P., see He, L.N. Sugita, Y., see Yoshida, K. 462 Roesthuis, F.J.G., see Lisfi, A. Suzuki, H. D.D. Djayaprawira, Y. Takahashi, A. Rohrmann, H., see Cord, B. Ishikawa, T. Ono and Y. Yahisa, Effects of Romanov, I., see Gan’shina, E. Cr—N-—ZrO, seed layer formed on glass substrates for Rose, J., see Casey, S.M. longitudinal recording media 59 Rousset, A., see Furuya, A. Suzuki, T., K. Harada, N. Honda and K. Ouchi, Prepara- Rousset, A., see Tailhades, P. tion of ordered Fe—Pt thin films for perpendicular magnetic recording media 85 Suzuki, T., Particle size effect on recording performance Sakamoto, I., H. Tanoue, N. Hayashi, S. Honda, M. and thermal stability in high-density particulate tapes 374 Nawate and Y. Ikeda, Ar ion irradiation in Au/Fe Suzuki, T., see Phillips, G.N. 434 multilayers 507 Saluel, D., J. Daval, B. Bechevet, C. Germain and B. Valon, Ultra high density data storage on phase Tailhades, P., see Furuya, A. 143 change materials with electrical micro-tips Tailhades, P., C. Bonningue, A. Rousset, L. Bouet, I. Samwel, E.O., see Bolhuis, T. Pasquet and S. Lebrun, About the interesting proper- Samwel, E.O., T. Bolhuis, D. Speliotis and J.C. Lodder, ties of mixed-valence defect spinel ferrites for mass Vectorial measurements of the angular coercive field storage media 148 Sasaki, K., see Okamoto, K. Takahashi, M. and H. Shoji, Physics of high density Sasaki, Y., see Okamoto, K. recording thin film media established by ultra clean Sato, I., see Hattori, K. sputtering process Sato, K., Y. Yoshida, C. Okuyama, I. Okamoto and M. Takahashi, M., A. Kikuchi, J. Nakai and H. Shoji, Effect Shinohara, Reproduced output reduction in thin film of ultraclean sputtering process on Cr segregation in media by thermal fluctuations CoCrTa thin film media Sato, K., see Inamura, R. Takahashi, M., see Phillips, G.N. Sato, T., see Aso, K. Takahashi, Y., see Suzuki, H. Satoh, A., see Coverdale, G.N. Takahashi, Y., see Tanahashi, K. Scherer, J., see Cord, B. Takano, K., see Phillips, G.N. Seberino, C., see Bertram, H.N. Takayama, K., see Nakagawa, S. Serna, C.J., see Morales, M.P. Talke, F.E., see Perettie, D.J. Sharma, N., S.M. Casey, G.A. Jones and P.J. Grundy, lon Tamai, I., see Tanahashi, K. beam assisted deposition of CoPt films Tanahashi, K., I. Tamai, Y. Takahashi, T. Kanbe and Y. Sharma, R., see Warren, G.W. Hosoe, Reduction of thermal decay in longitudinal Shieh, H.-P.D., see Wu, T.-h. recording media with a CoCr intermediate layer Shinohara, M., see Sato, K. Tanoue, H., see Sakamoto, I. Shinohara, M., see Akimoto, H. Teillet, J., see Veiller, L. Shirasaki, F., see Kitamoto, Y. Torre, E.D., see Fry, R.A. Shoji, H., see Takahashi, M. Toussaint, J.C., see Bordel, C. Shoji, H., see Takahashi, M. Tselev, A., see Gan’shina, E. Shoji, T., see Muraoka, H. Tsuda, T., see Kohmoto, O. Shull, R.D., see Fry, R.A. Tuleja, S., see Ilkovic, V. Siosawa, T., see Matsushita, N. Sivasamy, P., see Casey, S.M. Skobelev, A., see Gan’shina, E. Uba, L., S. Uba, A.N. Yaresko, A.Ya. Perlov, V.N. Anto- Sollis, P.M., see McCann, S.M. nov and R. Gontarz, Ab initio study of interface Speliotis, D., see Samwel, E.O. alloying effect on magneto-optical spectra in Co/Pt Speliotis, D.E., Magnetic recording beyond the first 100 multilayers 159 Years Uba, S., see Uba, L. 159 Stancu, A., P.R. Bissell and R.W. Chantrell, Interactions Uesaka, Y., Y. Nakatani, N. Hayashi and H. Fukushima, characterisation in particulate magnetic recording Computer simulation of SNR in longitudinal and media. Experiments and Preisach model 395 perpendicular recording 399 532 Author index to volume 193 Valon, B., see Saluel, D. 488 Wongsam, M.A., see Ridley, P.H.W. Van Woudenberg, R., see Borg, H.J. 519 Wood, R., J. Monson and T. Coughlin, On the thermal Veiller, L., D. Ledue and J. Teillet, Magnetic properties of decay of magnetization in the presence of demag- Fe/Tb multilayers: a Monte Carlo investigation netizing fields and a soft magnetic layer Veitch, R.J., A. Ilmer, W. Lenz and V. Richter, MP Wu, J.C., see Wu, T.-h. technology for a new generation of magnetic tapes Wu, L., T. Kiya, N. Honda and K. Ouchi, Medium noise Veldeman, J., see Jia, H. properties of Co/Pd multilayer films for perpendicu- Veldeman, J., H. Jia and M. Burgelman, Influence of lar magnetic recording magnetron configuration on CoCr films sputtered on Wu, L.C., see Wu, T.-h. flexible substrates Wu, L.C., see Huang, J.C.A. Vellekoop, S.J.L., L. Abelmann, S. Porthun, J.C. Lodder Wu, T.-h., J.C.A. Huang, L.C. Wu, L.X. Ye and J.Q. Lu, and J.J. Miles, Calculation of playback signals from Buffer layer effect on magnetic domain structure and MFM images using transfer functions coercivity in epitaxial Co/Pt multilayers 136 Visser, E.M., see Bijker, M.D. Wu, T.-h., J.C. Wu, B.-M. Chen and H.-P.D. Shieh, Voiron, J., see Bordel, C. Pinning magnetic domain via patterning artificial lat- tice under amorphous magnetic layer Wu, T.-h., see Chern, G. Walmsley, N.S., R.W. Chantrell and J.J. Miles, Micro- Wu, T.H., see Huang, J.C.A. structural effects in computer simulations of the mag- netic and recording properties of thin film media Yahisa, Y., see Suzuki, H. Walmsley, N.S., see Hannay, J.D. Yamamoto, M., see Furuya, A. Walmsley, N.S., R.W. Chantrell and K. O’Grady, Simu- Yamane, H., see Honda, S. lation of the effects of FCC grains on the remanence Yaresko, A.N., see Uba, L. of thin film media Ye, L.X., see Wu, T.-h. Wang, Z.G., see He, L.N. Yoneda, Y., see Kuga, K. Wang, Z.G., L.N. He, D.J. Mapps and D.T. Wilton, Yoshida, K., Y. Hirayama, M. Igarashi, M. Futamoto Read-while-write operation in magnetic recording and Y. Sugita, Switching mechanism of a perpendicu- Warren, G.W., R. Sharma, D.E. Nikles, Y. Hu and S.C. lar magnetic recording medium at very low temper- Street, Amine quinone polyurethane polymers for ature improved performance in advanced particulate media Yoshida, Y., see Sato, K. Watanabe, H., see Kurihara, K. Yoshida, Y., see Akimoto, H. Watanabe, I., see Muraoka, H. Yoshikawa, H., see Furuya, A. Weston, J.L., A. Butera, D. Otte and J.A Barnard, Nanos- tructured magnetic networks: a materials comparison Zellia, J., see Kim, K_J. Wilton, D.T., see He, L.N. Zhang, Y., see Stavroyiannis, S. Wilton, D.T., see Wang, Z.G. Zhao, Q., see Perettie, DJ. J, \ournal ot Ma iiaterais ELSEVIER Journal of Magnetism and Magnetic Materials 193 (1999) 533-535 Subject index to volume 193 A new type of facing target sputtering 185 Computer simulations 409, 412 Ferromagnetic resonance 349 Ab initio calculations 159 Contour plot 441 Ferromagnetic/antiferromagnetic AC bias 8 Correlation plots 196 coupling 497 AC susceptibility 300 Corrosion 276 Field calculations 423 Activation volume 59, 204, 249, 258 Cross talk 332 Films 71 Advanced digital recording (ADR) 384 Crystal structure 166 Fine particles 288 Advanced particulate media 322 Crystalline anisotropy 497 Fine powders 148 AFM 488 Finite element method 423 Alloy composition 166 Danish 1 Forced oscillations 132 Alloy films 174 Fourier analysis 196 Data storage 488 Amine-quinone 276 DC magnetron sputtering 128 Fourier space 474 Amorphous thin films 170 Demagnetisation 332 Frequency dependence 307 Amorphous-like structure 71 Demagnetizing fields 207, 224 Friction 466 Analytical model 249 FTIR 276 oI plot 420 Anhysteretic remanent magnetisation Digital video 349 process 395 Discrete magnetic recording 511 Garnet 140 Anisotropy constants 326 Disk recorder 1 Garnet-ferrite 143 Anisotropy energy 232 Disk recordings 24 Giant magnetoresistance 484, 492, 497, 507 Anisotropy field 349 Dispersion 366 Grain diameter 44 Anisotropy field distribution 326 quality 300, 307 Gyromagnetic ratio 349 Anisotropy-perpendicular 174 Distortion analysis 455 Annealing 166 Distribution of anisotropy field 229 Hard disks 192 Arc generator | DMA 265 Head passivation 318 Audio 8 Domain structure 85, 136 Heisenberg model 427 Domain wall 132 Helium 124 Barium ferrite 258, 288, 366 Double coating 279 Hexagonal ferrite 110 Binder 303 Dual layer tape 279 High argon pressure 85 Biography | Dual-magnetoresistive heads 452 High capacity floppy disk 378 Brown stain 29] Durability 296, 378 High density magnetic recording 44 Bubble domains 140 Dynamic modulus 265 High density recording 370, 374 Buffer layer 136 High density recording media 229, 352, E-beam lithography 155 357 Calibration 332 Eddy current effect 55 High speed switching 245 Celating agent 291 Effective track width 412 Hindered settling 284 Chemical adsorption 300 Energy barrier 213 History 8, 11, 17 Chemical ordering 166 Hydrogen bonding 300 Chemical shift 296 Facing targets sputtering 68, 71, 121 Co-alloys 192 Faraday effect 143 IBAD 93 Cobalt 349 FCC grains 420 Imaging 437 Coercive field 337 Ferrite films 68, 121, 152 In-plane media 249 Coercivity 63, 121, 136, 288 Ferrite substrates 55 Interface structure 159 Compact cassette 11 Ferrite-plating 97 Intergranular exchange coupling 44, 79, Computer memories 29 Ferrites 110 245 0304-8853/99/$ — see front matter © 1999 Elsevier Science B.V. All rights reserved. PIl: $0304-8853(99)00084-0 534 Subject index to volume 193 Intergranular magnetostatic coupling 44 Magnetic susceptibility 307, 311 Multilayers 89, 136, 143, 159, 162, 181, 484, Intrinsic length 140 Magnetic video tape 430 492 Inventor | Magnetic viscosity 204, 258, 374 Inverse problems 416 Magnetisation distributions 24 Nanostructures 185, 515 Ion bombardment 124, 128 Magnetization 288, 484 Narrow transitions 24 Ion irradiation 507 Magnetization decay 253 Nb addition 101 Irreversible susceptibility 258 Magnetization reversal 220, 329, 337 Neural networks 416 Isocyanate hardening agent 296 Magnetization time decay 374 NMR 296 Isolated ferromagnetic areas 114, 185 Magneto-optical 155 Noise 362, 366 Isotropic media 52 Magneto-optical Kerr effect 159 Noise model 106 Magneto-optical property 143 Noise property 101 Keeper 207 Magneto-optical recording 519 Noise spectrum 106 Keepered media 262 Magneto-optical recording medium 170 Nucleation site 462 Kerr effect 162 Magneto-optics 162, 174 Numerical simulations 388 Kerr rotation 166 Magnetocrystalline anisotropy energy Kneading condition 303 constant 44 Oblique media 352, 357 Kozeny—Carman equation 284 Magnetocrystalline anisotropy field 79 Oblique sputter deposition 352 Magnetophone 8 Optical recording 519 Laser interference lithography 511 Magnetoresistance 501 Optics 174 Liquid-phase epitaxy 140 Magnetostatic interactions 237 Optimum head current 441 Lognormal distribution 75 Magnetostriction 362 Ordering 85 Longitudinal 36 Magnetron sputtering 124 Orientation ratio 240 Longitudinal magnetic recording media 63 Mangan-zinc ferrite 501 Oriented media 52 Longitudinal magnetic thin films 124, 128 Martensite 466 Output level 303 Longitudinal media 399 ME tape 345 Overwrite behavior 444 Longitudinal recording 207 ME-tape 332 Oxygen content 79 Longitudinal recording media 59 Mechanical properties 300 Longitudinal recording system 68 Media noise 59, 434, 455 Paramagnetic host matrix 185 Longitudinal thin film 196, 420 Medium noise 89, 106, 253 Paramagnetic matrix 114 Loss modulus 265 Merged MR head 412 Partial erasure 412 Loss of signal amplitude 291 Metal evaporated tape 352, 357, 384 Particle reversal 388 Low noise 71 Metal particle tape 342 Particle size 374 Lubricants 318 Metal particles 220, 279, 378 Particle size distribution 374 Metal pigments 314 Particulate 366 Magnetic anisotropy 515 Metal-evaporated tape 349, 406 Particulate dispersions 284 Magnetic ceramics 501 Metallic multilayers 507 Particulate recording media 395 Magnetic dispersion 265, 322 MFM 434, 474 Particulate tape 374, 384 Magnetic domains 185 MFM response 430 Patterned substrate 155 Magnetic force microscopy 89, 430, 479 Micromagnetic model 406 Permalloy 423 Magnetic ink 307, 311 Micromagnetic Monte Carlo simulation Perpendicular 36 Magnetic interactions 395 240 Perpendicular anisotropy 101 Magnetic magneto-optical and optical Micromagnetics 52, 423 Perpendicular coercivity 114, 185 recording 148 Micromagnetism 474 Perpendicular magnetic anisotropy 85, 97, Magnetic materials 437 Microscopy 470 166, 507 Magnetic measurements 362 Microstructural effects 196 Perpendicular magnetic recording 55, 89, Magnetic media noise 479 Microstructure 36, 93, 352, 357 121, 462 Magnetic memory 466 Milling process 311 Perpendicular magnetic recording media Magnetic multilayers 427, 511 MOKE spectra 159 253 Magnetic particles 300, 329 Molecular beam epitaxy 136, 166, 497 Perpendicular magnetic recording tape Magnetic properties 93, 177, 262, 515 Molecular dynamics 322 370 Magnetic recording 17, 29, 101, 192, 207, Molecular orbital calculation 296 Perpendicular magnetization 162 213, 279, 384, 430, 434, 437, 448, 452, Monte Carlo simulation 427 Perpendicular magnetization component 455, 470, 479 Mossbauer effect 97 68 Magnetic recording media 97, 284, 430 Moving-Preisach Stoner—-Wohlfarth Perpendicular media 55, 399 Magnetic recording pigments 314 model 345 Perpendicular recording 207, 237, 409 Magnetic sensor 492 MP tape 291, 444 Perpendicular recording media 106 Magnetic stability 213 MR heads 434 Perpendicular uniaxial anisotropy 170 Subject index to volume 193 PET substrate 128 Signal model 455 Thermal relaxation 204, 240 Phase change materials 488 Signal output decay 253 Thermal stability 36, 232 Phase change recording 519 Signal-to-noise ratio (SNR) 213, 303, 384, Thin film media 36, 44, 79, 110, 240, 262 Phase transitions 177 399 Thin film nitrogenation 170 Phase-transformation 466 Soft magnetic layers 207 Thin films 75, 85, 97, 114, 117, 140, 143, Pinned magnetic domain 155 Solid-phase epitaxy 143 148, 177, 181, 185, 237, 245, 332, 448, Pinning field 504 Spin-echo spectra 185 458 Plasma generating unit 114 Spin-valve sandwiches 497 Time dependence 249, 409, 504 Poulsen 1 Spin-valves 504 Track edge noise 52 Preferred grain orientation 44 Spinel ferrites 143, 148 Transfer functions 474 Preisach model 395 Sputter deposition 85 Transition length 224 Pulsed magnetic fields 220, 229 Sputtered media 110 Transition temperature 427 PWS50 444 Sputtering of ferrite films 152 Transmission electron microscopy 75 Stainless steel 466 Transmitter | Read-while-write operation 452 STM 488 Transverse susceptibility data 416 Read/write characteristics 68 Storage technologies 29 Tribochemical reaction 291 Recording media 110, 366, 458 Stray magnetic field 430 Tribology 318, 466 Recording model 444 Stress 362 Trim 412 Recording simulation 474 Substitution 152 Two-dimensional distribution 441 Relaxation 213 Substrate temperature 117 Remanence 229 Superparamagnetism 213 Ultrahigh density 488 Remanence curves 420 Surface roughness 378 Uniaxial anisotropy 229 Remanent coercive field 337 Sweep-rate dependence 504 Uniformity 124 Remanent magnetisation processes 395 Switching 229 Reversed domain 106 Switching field 337 Valdemar 1 Review 17 Switching field distribution 314, 342 Vector measurements 337 RF-sputtering 117 Switching mechanism 462 Vector VSM 332 Very low temperature 462 Rheology 265 Video recording 17 Rotational hysteresis 329 Tan delta 265 Viscosity 249 Tantalum 117 Saturation magnetization 140, 349 Tape hysteresis 388 Wettability 303 Scanning microscopy 437 Tape recorder 1 Wire 8 Scratching 466 Tape recording 345 Seed layer 59 Telegraphone 1 X-ray diffraction 288 Segregated boundary 79 TEM 352, 357 XPS 276 Shape effects 388 Theory of DIMAG 311 XRD 352 Shear strain 265 Thermal activation 245 XRF 352, 357 Shear stress 265 Thermal decay 207 Si-disk substrate 71 Thermal fluctuations 224, 399, 462 Yield stress 265

See more

The list of books you might like

Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.