The Physical Principles of Magneto-optical Recording
Mansuripur, M.
Japaneses Journal of Applied Physics Part 2[Letters]
v.37
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The near-field super-resolution properties of an antimony thin film
Tominage, J.;Fuji, H.;Sato, A.;Nakano, T.;Fukaya, T.;Atoda, N.
Applied Physics Letters
v.61
no.8
Thermomechanical writing with an atomic force microscope tip
Main, H. J.;Rugar, D.
Nanotechnology
v.8
SPM-base data storage for Ultahigh density recording
Hosaka, S.;Kikukawa, A.;Koyanagi, H.;Shintani, T.;Miyamoto, M.;Nakamura, K.;Etoh, K.
Appl. Phys. Lett.
v.61
Mear-field magneto-optics and high density data storage
Betzing, E.;Trautman, J. K.;Wolfe, R.;Gyorgy E. M.;Finn, P. L.;Kryder, M. H.;Chang, C. -H.
Appl. Phys. Lett.
v.65
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Near-field optical data storage using a solid immersion lens
Terris, B. D.;Mamin, H. J.;Rugar, D.;Studenmund, W. R.;Kino, G. S.
Appl. Phys. Lett.
v.68
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Near-field optical data storage
Terris, B. D.;Mamin, J. J.;Rugar, D.
IEEE Trans. of Magnetics
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SPM Based Storage
Hosaka, S.
J. Vac. Sci. Technol. B.
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Fabrication of nanometer-scale structures on insulators and in magnetic materials using a scanning probe microscope
Hosaka, S.;Koyanagi, H.;Kikukawa, A.;Miyamoto, M.;Imura, Ryo
Jpn. J. Appl. Phys.
v.32B
Nanometer recording on graphite and Si substrate using an atomic force microscope in air
Hosoki, S.;Koyanagi, H.;Kikykawa, A.
