Abstract
This paper gives an overview of the research and development progress on Blu-Ray Disc™ (BD) rewritable/recordable media for more than 20 years. The writable BD media had been developed for consumer use like video-recording/personal computer (PC) buck-up and professional use like broadcasting with increasing storage capacity and data rate. The key technology in each innovation was explained according to referenced papers.
Similar content being viewed by others
References
Hashimoto S, Maesaka A, Ochiai Y. Recording on Co/Pt magneto-optical disks using a 488 nm wavelength laser. Journal of Applied Physics, 1991, 70(9): 5133–5135
Mizuno O, Yoshida K, Characteristics of high density recording on phase change optical disc using short wavelength light source (488 nm). Technical Digest of Optical Memory Symposium 1992. 1992, 55–56 (in Japanese)
Mansfield S M, Studenmund W R, Kino G S, Osato K. Highnumerical-aperture lens system for an optical storage head. Optics Letters, 1993, 18(4): 305–307
Yamamoto K, Osato K, Ichimura I, Maeda F, Watanabe T. 0.8-numerical-aperture two-element objective lens for the optical disk. Japanese Journal of Applied Physics, 1997, 36(Part 1, No. 1B 1B): 456–459
Decré M M J, Vromans P H G M. Cover layer technology for the high-numerical-aperture digital video recording system. Japanese Journal of Applied Physics, 2000, 39(Part 1, No. 2B): 775–778
Ichimura I, Maeda F, Osato K, Yamamoto K, Kasami Y. Optical disk recording using a GaN blue-violet laser diode. Japanese Journal of Applied Physics, 2000, 39(Part 1, No. 2B): 937–942 (Presented in ISOM/ODS 1999)
Nagata K, Yamada N, Nishiuchi K, Furukawa S, Akahira N. Rewritable dual-layer phase-change optical disk. Japanese Journal of Applied Physics, 1999, 38(Part 1, No. 3B): 1679–1686 (Presented in ISOM 1998)
Akiyama T, Uno M, Kitaura H, Narumi K, Kojima R, Nishiuchi K, Yamada N. Rewritable dual-layer phase-change optical disk utilizing a blue-violet laser. Japanese Journal of Applied Physics, 2001, 40(Part 1, No. 3B): 1598–1603 (Presented in ISOM 2000)
kurokawa K, Yamasaki T, Yukumoto T, Nakao T, Mano K, Yasuda K, Takagawa S, Nakamura M. 41.8-GB double-decker phase change disc. Topical Meeting of Optical Data Storage, 2001, 28–29
Narumi K, Akiyama T, Miyagawa N, Nishihara T, Kitaura H, Kojima R, Nishiuchi K, Yamada N. Rewritable dual-layer phasechange optical disk with a balanced transmittance structure. Japanese Journal of Applied Physics, 2002, 41(Part 1, No. 5A): 2925–2930 (Presented in ISOM 2001)
Hayashi K, Hisada K, Ohno E. New replication process using function-assigned resins for dual-layered disc with 0.1 mm thick cover layer. Technical Digest of ISOM 2001. 2001, 312–313.12
Inoue H, Hirata H, Kato T, Shingai H, Utsunomiya H. Phase change disc for high data rate recording. Japanese Journal of Applied Physics, 2001, 40(Part 1, No. 3B): 1641–1642 (Presented in ISOM 2000)
Kato T, Hirata H, Komaki T, Inoue H, Shingai H, Hayashida N, Utsunomiya H. The phase change optical disc with the data recording rate of 140 Mbps. Japanese Journal of Applied Physics, 2002, 41(Part 1, No. 3B): 1664–1667 (Presented in ISOM 2001)
Nishihara T, Kitaura H, Kojima R, Miyagawa N, Akiyama T, Nishiuchi K, Yamada N. Rewritable 2X-speed dual-layer Blu-ray Disc. Technical Digest of ISOM 2003. 2003, 58–59
Inoue H, Mishima K, Aoshima M, Hirata H, Kato T, Utsunomiya H. Inorganic write-once disc for high speed recording. Japanese Journal of Applied Physics, 2003, 42(Part 1, No. 2B): 1059–1061 (Presented in ISOM/ODS 2002)
Hosoda Y, Izumi T, Mitsumori A, Yokogawa F, Jinno S, Kudo H. Inorganic recordable disk with more eco-friendly material for blue. Japanese Journal of Applied Physics, 2003, 42(Part 1, No. 2B): 1040–1041
Uno M, Akiyama T, Kitaura H, Kojima R, Nishiuchi K, Yamad N. Dual-layer write-once media for 1X-4X speed recording based on Blu-ray Disc format. Proceedings of the Society for Photo-Instrumentation Engineers, 2003, 5069: 82–89
Furumiya S, Takahashi K, Kitaura H, Miyagawa N, Yamada N. Over-500-Mbps data recording on write-once media with L-shaped write strategy. Japanese Journal of Applied Physics, 2006, 45(2B): 1223–1225 (Presented in ISOM/ODS 2005)
Minemura H, Watanabe K, Adachi K, Tamura R. High-speed write/read techniques for Blu-ray write-once discs. Japanese Journal of Applied Physics, 2006, 45(2B): 1213–1218
Hayashida N, Hirata H, Komaki T, Usami M, Ushida T, Itoh H, Yoneyama K, Utsunomiya H. High-performance hard coat for cartridge-free Blu-ray Disc. Japanese Journal of Applied Physics, 2003, 42(Part 1, No. 2B): 750–753
Kitaura H, Hisada K, Narumi K, Nishiuchi K, Yamada N. Multilayer write-once media with Te-O-Pd films utilizing violet laser. Proceedings of the Society for Photo-Instrumentation Engineers, 2002, 4342: 340–347
Mishima K, Inoue H, Aoshima M, Komaki T, Hirata H, Utsunomiya H. Inorganic write-once disc with quadruple recording layers for Blu-ray Disc system. Proceedings of the Society for Photo-Instrumentation Engineers, 2003, 5069: 90–97
Ichimura I, Maruyama T, Shiraishi J, Osato K. High-density multilayer optical disc storage. Proceedings of the Society for Photo-Instrumentation Engineers, 2006, 6282: 185–187
Nishihara T, Tsuchino A, Tomekawa Y, Kusada H, Kojima R, Yamada N. Rewritable triple-layer phase-change optical disk providing 100 Gbyte capacity. Japanese Journal of Applied Physics, 2011, 50(6R): 062503
Nakamura A, Kobayashi I, Narumi K, Takaoka T, Furumiya S, Miyagawa N. 33.4 Gbyte/layer recording with adaptive write strategy for 100 Gbyte rewritable triple-layer disc. Japanese Journal of Applied Physics, 2010, 49(8): 08KG01
Shingai H, Kato T, Kosuda M, Takagi Y, Oyake H, Hirata H. Triplelayer rewritable disc with Sb-based phase-change material. Japanese Journal of Applied Physics, 2010, 49(8): 08KG02
Lee K, Zhao H, Hwang I, Hwang W, Park H, Chung C, Park I. Approach to high density more than 40 GB per layer with Blu-ray Disc format. Proceedings of the Society for Photo-Instrumentation Engineers, 2007, 6620(66200V): 66200V–7
Ishihara H, Nakamura Y, Hoshizawa T. Inter-track crosstalk canceling PRML decoder for high density optical disc. Technical Digest of ISOM/ODS 2011, 2011, OTuC3
Takahashi K, Miyawaki M, Kosaka H, Miki T, Nakano J, Shiraishi J. A record high area density based on the BD optical parameters. Technical Digest of International Symposium on Optical Memory (ISOM) 2011. 2011, OWC4
Mikami T, Mochizuki H, Sasaki T, Kitahara T, Tsuyama H, Inoue K, Ito M. Twenty-layer optical disc fabricated by Web coating and lamination. Japanese Journal of Applied Physics, 2013, 52(9S2): 09LC01
Author information
Authors and Affiliations
Corresponding author
Additional information
Naoyasu Miyagawa was born in Fukuoka, Japan. He received the B.S. degree in physics from the University of Kyoto, Kyoto, Japan in 1984. In the same year, he joined R&D division of Matsushita Electric Industrial Co-Ltd, i.e., Panasonic Corp. at present and attended the development of optical disc system. After he engaged in the works of holographic optical pick-up for compact disc and land & groove recording method for DVD-RAM discs, he temporally transferred to the University of Arizona, USA and received the degree of M.S. in optical science, in 2001. Since he returned to Panasonic R&D division again, he has developed rewritable and recordable Blu-ray discs media with dual and triple information layers. He is currently in charge of engineering design on Blu-ray disc in manufacturing division of storage media. He was a chair of technical program committee and advisory committee of topical meeting of optical data storage in Society for Photo-Instrumentation Engineers (SPIE) in 2003 and 2004 respectively. He is now a member of advisory committee of International Symposium on Optical memory.
Rights and permissions
About this article
Cite this article
Miyagawa, N. Overview of Blu-Ray Disc™ recordable/rewritable media technology. Front. Optoelectron. 7, 409–424 (2014). https://doi.org/10.1007/s12200-014-0413-7
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s12200-014-0413-7