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240   References
                            5.24  Ukita H, Uemi H, Hirata A (2004) Near Field Observation of a Re-
                                 fractive Index Gratingand a Topographical Gratingby an Optically
                                 Trapped Gold Particle. Opt Rev 11:365–369
                            5.25  Ukita H, Saitoh T (1999) Optical Micro-Manipulation of Beads in Ax-
                                 ial and Lateral Directions with Upward and Downward-Directed Laser
                                 Beams. In: Harder E (ed) IEEE Lasers and Electro-Optics Society An-
                                 nual MeetingLEOS’99 1: San Francisco USA, 169–170
                            5.26  Okuyama K (1985) Interaction between two particles. Funtai Kogaku
                                 22:27–51 (in Japanese).
                            5.27  Felgner H, Muller O, Schliwa M (1995) Calibration of light forces in
                                 optical tweezers. Appl Opt 34:977–982
                            5.28  Hill KO, Malo B, Bilodeau F, Johnson DC, Albert J (1993) Bragg
                                 gratings fabricated in monomode photosensitive optical fiber by UV
                                 exposure through a phase mask. Appl Phys Lett 62:1035–1037
                            5.29  Krenn JR, Dereux A, Weeber JC, Bourillot E, Lacrout Y, Goudonnet
                                 JP (1999) Squeezingthe optical near-field zone by plasmon couplingof
                                 metallic nanoparticles. Phys Rev Lett 82:2590–2593
                            5.30  WangMD, Yin Y, Landick R, Gelles J, Block SM (1997) Stretching
                                 DNA with optical tweezers. Biophys J 72:1335–1346
                            5.31  Hesselink L (2000) Ultra-High-Density Data Storage. Communication
                                 of the ACM 43:33–36 / Technical Digest of International Symposium on
                                 Optical Memory and Optical Data Storage (ISOM/ODS 2005), Hawaii
                                 USA
                            5.32  Concerning the coaxial read/write holographic memory or holographic
                                 versatile disc (HVD) visit http://www.optware.co.jp/english/tech.htm
                            5.33  Tominaga J, Nakano T, Atoda N (1998) An approach for recording and
                                 readout beyond the diffraction limit with an Sb thin film. Appl Phys
                                 Lett 73:2078–2080
                            5.34  BetzigE, Trautman JK, Wolfe R, Gyorgy EM, Finn PL (1992) Near-
                                 field magneto-optics and high density data storage. Appl Phys Lett
                                 61:142–144
                            5.35  Nakano M, Kawata Y (2003) Compact confocal readout system for
                                 three-dimensional memories usinga laser feedback semiconductor laser.
                                 Opt Lett 28:1356–1359
                            5.36  Yasuda K, Ono M, Aratani K, Fukumoto A, Kaneko M (1993) Pre-
                                 mastered optical disk by superresolution. Jpn J Appl Phys 32:5210–
                                 5213/Kaneko M, Aratani K, Fukumoto A, Miyaoka S (1994) IRISTER-
                                 Magneto optical disk for magnetically induced superresolution. Proc
                                 IEEE 82:544–553
                            5.37  Maeda T, Treao M, Shimano T (2003) A review of optical disk systems
                                 with blue-violet laser pickups. Jpn J Appl Phys 42:1044–1051
                            5.38  Wu Y, ChongCT (1997) Theoretical analysis of a thermally induced
                                 super-resolution optical disk with different readout optics. Appl Opt
                                 36:6668–6677
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