摘要Multi-level run-length-limited read-only optical storage is a kind of high density storage method. The width and height of recording marks are varied with different levels, which is the key technology for the optical storage. When the readout signal of these discs with complex recording marks is computed by vector analysis method, it is very hard and time-consuming. Approximated vector computation combines the convenience of scalar method and precision of vector method, which is effective for multi-level run-length-limited read-only optical storage.
Abstract:Multi-level run-length-limited read-only optical storage is a kind of high density storage method. The width and height of recording marks are varied with different levels, which is the key technology for the optical storage. When the readout signal of these discs with complex recording marks is computed by vector analysis method, it is very hard and time-consuming. Approximated vector computation combines the convenience of scalar method and precision of vector method, which is effective for multi-level run-length-limited read-only optical storage.
SONG Jie;XIA Si-Fei;XU Duan-Yi. Approximated Vector Diffraction Theory for Readout Signal of Multi-Level Run-Length-Limited Discs[J]. 中国物理快报, 2008, 25(6): 2097-2100.
SONG Jie, XIA Si-Fei, XU Duan-Yi. Approximated Vector Diffraction Theory for Readout Signal of Multi-Level Run-Length-Limited Discs. Chin. Phys. Lett., 2008, 25(6): 2097-2100.
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