| 0 | -- | 0 | . Subject index |
| 0 | -- | 0 | . Author Index |
| 2007 | -- | 2008 | Francis T. S. Yu. Scanning the special issue on photorefractive materials, devices and applications, Part 2: Applications |
| 2009 | -- | 2020 | Satoshi Kawata. Photorefractive optics in three-dimensional digital memory |
| 2021 | -- | 2029 | Min Gu. Confocal readout of three-dimensional data bits recorded by the photorefractive effect under single-photon and two-photon excitation |
| 2030 | -- | 2049 | Osamu Matoba, Kazuyoshi Itoh, Kazuo Kuroda. Photorefractive optics in dynamic interconnection |
| 2050 | -- | 2058 | Arnaud Brignon, Jean-Pierre Huignard. Rhodium-doped barium titanate nonlinear mirror for high beam quality pulsed Nd: YAG lasers |
| 2059 | -- | 2073 | Nicolas Huot, Jean-Michel C. Jonathan, Gerarld Roosen. Dynamic wavefront correction of Nd: YAG lasers by self-pumped phase conjugation in photorefractive BaTiO/sub 3/: Rh |
| 2074 | -- | 2085 | Arthur E. Chiou. Photorefractive phase-conjugate optics for image processing, trapping, and manipulation of microscopic objects |
| 2086 | -- | 2097 | Pang-Chen Sun, Kazutaka Oba, Yuri T. Mazurenko, S. Y. Fainman. Space-time processing with photorefractive volume holography |
| 2098 | -- | 2120 | George Barbastathis, David J. Brady. Multidimensional tomographic imaging using volume holography |
| 2121 | -- | 2126 | Sandor Erdei, Richard G. Schlecht. Growth of low-scattering single-domain photorefractive LiNbO/sub 3/ crystals |
| 2127 | -- | 2129 | Lawrence Lessig. Change and choices: introduction to "On the social role of computer communications" |
| 2130 | -- | 2135 | Robert M. Fano. On the social role of computer communications |
| 2136 | -- | 2137 | John C. Fisher. Man's future in space |
| 2138 | -- | 2141 | Norman R. Augustine. The future will be like the present...only longer [man's future in space] |
| 2143 | -- | 2145 | . Computers in everything: from the pushbutton factory to the Y2K bug |