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Artykuły w czasopismach na temat „Optical rewritable disks”

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Data publikacji: 6 września 2023

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1

Katayama, Ryuichi, Shunichi Meguro, Yuichi Komatsu i Yutaka Yamanaka. "Radial and Tangential Tilt Detection for Rewritable Optical Disks". Japanese Journal of Applied Physics 40, Part 1, No. 3B (30.03.2001): 1684–93. http://dx.doi.org/10.1143/jjap.40.1684.

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Shintani, Toshimichi, Motoyasu Terao, Hiroki Yamamoto i Takashi Naito. "A New Super-Resolution Film Applicable to Read-Only and Rewritable Optical Disks". Japanese Journal of Applied Physics 38, Part 1, No. 3B (30.03.1999): 1656–60. http://dx.doi.org/10.1143/jjap.38.1656.

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Lu, Yung-Hsin, Dimiter Dimitrov, Jia-Reuy Liu, Tsung-Eong Hsieh i Han-Ping David Shieh. "Mask Films for Thermally Induced Superresolution Readout in Rewritable Phase-Change Optical Disks". Japanese Journal of Applied Physics 40, Part 1, No. 3B (30.03.2001): 1647–48. http://dx.doi.org/10.1143/jjap.40.1647.

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NISHIUCHI, Kenichi, Takashi NISHIHARA i Noboru YAMADA. "Limitations for the Number of Layers of Multi-Layer Rewritable Phase-Change Optical Disks". Review of Laser Engineering 32, nr 1 (2004): 33–37. http://dx.doi.org/10.2184/lsj.32.33.

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Matsunaga, Toshiyuki, i Noboru Yamada. "Crystallographic Studies on High-Speed Phase-Change Materials Used for Rewritable Optical Recording Disks". Japanese Journal of Applied Physics 43, nr 7B (29.07.2004): 4704–12. http://dx.doi.org/10.1143/jjap.43.4704.

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6

van der Tempel, Leendert. "Transient Heat Conduction in a Heat Generating Layer Between Two Semi-Infinite Media". Journal of Heat Transfer 124, nr 2 (30.10.2001): 299–306. http://dx.doi.org/10.1115/1.1447930.

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The problem of transient heat conduction in a heat generating layer between two semi-infinite media has been solved. The one-dimensional thermal model is Laplace transformed. Three analytical temperature solutions are derived: two approximation solutions and an exact series solution. They are compared with respect to accuracy, convergence and computational efficiency. The approximations are computationally more efficient, and the series converge to the exact solution. The presented accurate solutions enable quick thermal analysis in terms of just 2 parameter groups, but overestimate the temperature during initialization of rewritable optical disks due to lateral heat conduction.
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7

Takeda, Toru, i Yoshihiro Isomura. "Image Coded Document Retrieval from Rewritable Optical Disks in Remote File Server on Local Area Network". Journal of the Institute of Television Engineers of Japan 44, nr 10 (1990): 1425–30. http://dx.doi.org/10.3169/itej1978.44.1425.

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Matsunaga, Toshiyuki, Noboru Yamada i Yoshiki Kubota. "Structures of stable and metastable Ge2Sb2Te5, an intermetallic compound in GeTe–Sb2Te3 pseudobinary systems". Acta Crystallographica Section B Structural Science 60, nr 6 (11.11.2004): 685–91. http://dx.doi.org/10.1107/s0108768104022906.

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The most widely used memory materials for rewritable phase-change optical disks are the GeTe–Sb2Te3 pseudobinary compounds. Among these compounds, Ge2Sb2Te5 crystallizes into a cubic close-packed structure with a six-layer period (metastable phase) in the non-thermal equilibrium state, and a trigonal structure with a nine-layer period (stable phase) in the thermal equilibrium state. The structure of the stable phase has Ge/Sb layers in which Ge and Sb are randomly occupied, as does the structure of the metastable phase, while the conventionally estimated structure had separate layers of Ge and Te. The metastable and stable phases are very similar in that Te and Ge/Sb layers stack alternately to form the crystal. The major differences between these phases are: (i) the stable phase has pairs of adjacent Te layers that are not seen in the metastable phase and (ii) only the metastable phase contains vacancies of ca 20 at. % in the Ge/Sb layers.
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9

Asthana, P., B. I. Finkelstein i A. A. Fennema. "Rewritable optical disk drive technology". IBM Journal of Research and Development 40, nr 5 (wrzesień 1996): 543–58. http://dx.doi.org/10.1147/rd.405.0543.

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10

Nakane, K., M. Ogawa, K. Yoshimoto, M. Ogura, Y. Kiyose i T. Furukawa. "90 mm rewritable optical disk drive". IEEE Transactions on Consumer Electronics 38, nr 3 (1992): 648–53. http://dx.doi.org/10.1109/30.156749.

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11

Mori, Masafumi. ""Standardization of rewritable optical disk cartridge"." Journal of the Institute of Television Engineers of Japan 43, nr 7 (1989): 692–96. http://dx.doi.org/10.3169/itej1978.43.692.

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12

Falk, Howard. "Rewritable optical discs move to 3½ inches". Electronic Library 10, nr 1 (styczeń 1992): 59–61. http://dx.doi.org/10.1108/eb045120.

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13

Nagata, Ken'ichi, Noboru Yamada, Kenichi Nishiuchi, Shigeaki Furukawa i Nobuo Akahira. "Rewritable Dual-Layer Phase-Change Optical Disk". Japanese Journal of Applied Physics 38, Part 1, No. 3B (30.03.1999): 1679–86. http://dx.doi.org/10.1143/jjap.38.1679.

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14

Iwata, Kazumi, Eiji Nakano, Atsushi Hosoda, Kenji Oishi, Katsunori Ohshima, Fumihiko Ito, Tetsuya Kondo i in. "High-Density Rewritable Optical Disk Using Groove Recording". Japanese Journal of Applied Physics 40, Part 1, No. 3B (30.03.2001): 1637–38. http://dx.doi.org/10.1143/jjap.40.1637.

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15

Miao, X. S., L. P. Shi, P. K. Tan, J. M. Li, R. Zhao, K. G. Lim i T. C. Chong. "Rewritable Dual-Layer Initialization-Free Phase-Change Optical Disk". Japanese Journal of Applied Physics 42, Part 1, No. 2B (28.02.2003): 1033–37. http://dx.doi.org/10.1143/jjap.42.1033.

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16

Nishihara, Takashi, Akio Tsuchino, Yuko Tomekawa, Hideo Kusada, Rie Kojima i Noboru Yamada. "Rewritable Triple-Layer Phase-Change Optical Disk Providing 100 Gbyte Capacity". Japanese Journal of Applied Physics 50, nr 6R (1.06.2011): 062503. http://dx.doi.org/10.7567/jjap.50.062503.

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17

Lin, Shih Kai, Peilin Yang, I. Chun Lin, Hao Wen Hsu i Din Ping Tsai. "Resolving Nano Scale Recording Bits on Phase-Change Rewritable Optical Disk". Japanese Journal of Applied Physics 45, nr 2B (24.02.2006): 1431–34. http://dx.doi.org/10.1143/jjap.45.1431.

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18

Nishihara, Takashi, Akio Tsuchino, Yuko Tomekawa, Hideo Kusada, Rie Kojima i Noboru Yamada. "Rewritable Triple-Layer Phase-Change Optical Disk Providing 100 Gbyte Capacity". Japanese Journal of Applied Physics 50, nr 6 (20.06.2011): 062503. http://dx.doi.org/10.1143/jjap.50.062503.

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19

Ikeda, Tetsuya, Takashi Hoshino, Yasuo Otsuka i Takashi Takeuchi. "3.5 inch rewritable optical disk drive for DBF and media compatibility." Journal of the Institute of Television Engineers of Japan 44, nr 10 (1990): 1418–24. http://dx.doi.org/10.3169/itej1978.44.1418.

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20

Zhao, Rong, Kianguan Lim, Zirui Li, Jingfeng Liu, Jiajun Ho, Towchong Chong, Zhejie Liu, BaoXi Xu i Luping Shi. "Computer-Aided Design and Analysis of Rewritable Phase-Change Optical Disk". Japanese Journal of Applied Physics 39, Part 1, No. 6A (15.06.2000): 3458–62. http://dx.doi.org/10.1143/jjap.39.3458.

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21

Tonami, Junichiro, Shuichiro Chaen, Masaki Mochizuki, Tetsuya Kondo, Hideki Nakamura, Eiji Nakagawa, Katsunori Ohshima, Tsuyoshi Oki, Atsushi Hayami i Makoto Itonaga. "A Format of High-Density Rewritable Optical Disk using Groove Recording". Japanese Journal of Applied Physics 40, Part 1, No. 3B (30.03.2001): 1639–40. http://dx.doi.org/10.1143/jjap.40.1639.

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22

Tomiyama, Takeo, Itsuo Watanabe, Atsushi Kuwano, Masanobu Habiro, Nobuaki Takane i Mitsuo Yamada. "Rewritable optical-disk fabrication with an optical recording material made of naphthalocyanine and polythiophene". Applied Optics 34, nr 35 (10.12.1995): 8201. http://dx.doi.org/10.1364/ao.34.008201.

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23

Watabe, K., S. Takehara, Y. Kashihara, H. Ohsawa i H. Satoh. "30GB/Side rewritable optical disk for HDTV utilizing a blue laser diode". IEEE Transactions on Consumer Electronics 49, nr 1 (luty 2003): 152–57. http://dx.doi.org/10.1109/tce.2003.1205469.

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24

Miao, Xiang Shui, Lu Ping Shi, Pik Kee Tan, Jian Ming Li, Kian Guan Lim, Xiang Hu i Tow Chong Chong. "Multispeed rewritable optical-recording method with an initialization-free phase-change disk". Applied Optics 43, nr 5 (10.02.2004): 1140. http://dx.doi.org/10.1364/ao.43.001140.

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25

Akiyama, Tetsuya, Mayumi Uno, Hideki Kitaura, Kenji Narumi, Rie Kojima, Kenichi Nishiuchi i Noboru Yamada. "Rewritable Dual-Layer Phase-Change Optical Disk Utilizing a Blue-Violet Laser". Japanese Journal of Applied Physics 40, Part 1, No. 3B (30.03.2001): 1598–603. http://dx.doi.org/10.1143/jjap.40.1598.

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Narumi, Kenji, Tetsuya Akiyama, Naoyasu Miyagawa, Takashi Nishihara, Hideki Kitaura, Rie Kojima, Kenichi Nishiuchi i Noboru Yamada. "Rewritable Dual-Layer Phase-Change Optical Disk with a Balanced Transmittance Structure". Japanese Journal of Applied Physics 41, Part 1, No. 5A (15.05.2002): 2925–30. http://dx.doi.org/10.1143/jjap.41.2925.

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27

Furuhata, Hitoshi, Youichi Konno, Hiroyuki Fueki, Yoshinori Shikano, Shin-ichi Okada, Seiichi Niizawa i Ryuichi Naito. "Development of an ISO Sampled Servo Rewritable/Write-Once Combination Optical Disk Drive". Japanese Journal of Applied Physics 28, S3 (1.01.1989): 77. http://dx.doi.org/10.7567/jjaps.28s3.77.

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28

Ohta, Takeo, Kazuo Inoue, Takashi Ishida, Yoshikazu Gotoh i Isao Satoh. "Thin Injection-Molded Substrate for High Density Recording Phase-Change Rewritable Optical Disk". Japanese Journal of Applied Physics 32, Part 1, No. 11B (30.11.1993): 5214–18. http://dx.doi.org/10.1143/jjap.32.5214.

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Kuwahara, Maho, Shintaro Takehara, Yutaka Kashihara, Kazuo Watabe, Toshiyuki Nakano, Masahiko Tanaka, Naomasa Nakamura, Hideaki Ohsawa i Hiroharu Satoh. "Experimental Study of High-Density Rewritable Optical Disk Using a Blue-Laser Diode". Japanese Journal of Applied Physics 42, Part 1, No. 2B (28.02.2003): 1068–71. http://dx.doi.org/10.1143/jjap.42.1068.

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30

Judkins, Justin B., Charles W. Haggans i Richard W. Ziolkowski. "Two-dimensional finite-difference time-domain simulation for rewritable optical disk surface structure design". Applied Optics 35, nr 14 (10.05.1996): 2477. http://dx.doi.org/10.1364/ao.35.002477.

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31

Shintani, Toshimichi, Harukazu Miyamoto, Takeshi Maeda, Yumiko Anzai, Hiroyuki Minemura i Takeshi Shimano. "One-Laser-Two-Beam Method for Double Overwrite Speed in Rewritable Phase-Change Optical Discs". Japanese Journal of Applied Physics 43, nr 10 (8.10.2004): 7091–96. http://dx.doi.org/10.1143/jjap.43.7091.

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32

Hatakeyama, Masaru, Toshio Ando, Koji Tsujita, Kenji Oishi i Ichiro Ueno. "Super-Resolution Rewritable Optical Disk Having a Mask Layer Composed of Thermo-Chromic Organic Dye". Japanese Journal of Applied Physics 39, Part 1, No. 2B (28.02.2000): 752–55. http://dx.doi.org/10.1143/jjap.39.752.

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33

Baoxi, Xu, Chong Tow Chong i Wilson Wang. "Comparison of Cross-Talks between Phase Encoding and Amplitude Encoding in Phase Change Rewritable Optical Discs". Japanese Journal of Applied Physics 38, Part 1, No. 3B (30.03.1999): 1652–55. http://dx.doi.org/10.1143/jjap.38.1652.

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34

Suh, Sang-Woon, Dae-Young Kim, Il-Yong Jong, Jong-Wook Park i Jin-Yong Kim. "A Rewritable Optical Disk with a New Addressing Method for Increasing Recording Density and Random Accessibility". Japanese Journal of Applied Physics 39, Part 1, No. 2B (28.02.2000): 925–28. http://dx.doi.org/10.1143/jjap.39.925.

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35

Miyagawa, Naoyasu, Eiji Ohno, Kenichi Nishiuchi i Nobuo Akahira. "Phase Change Optical Disk Using Land and Groove Method Applicable to Proposed Super Density Rewritable Disc Specifications". Japanese Journal of Applied Physics 35, Part 1, No. 1B (30.01.1996): 502–3. http://dx.doi.org/10.1143/jjap.35.502.

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36

Zhao, Weiwei, Shuang Cai, Xin Wei, Ting Zheng, Xin Xu, Amina Zafar, Hongwei Liu i in. "The Thinnest Light Disk: Rewritable Data Storage and Encryption on WS 2 Monolayers". Advanced Functional Materials 31, nr 36 (24.06.2021): 2103140. http://dx.doi.org/10.1002/adfm.202103140.

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Ishida, Takashi, Mamoru Shoji, Yoshiyuki Miyabata, Yasumasa Shibata, Eiji Ohno i Shunji Ohaira. "Optimization of mark edge recording waveform for a phase change rewritable optical disk using a 680 nm laser diode". Optical Review 1, nr 2 (styczeń 1994): 183–87. http://dx.doi.org/10.1007/bf03254857.

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38

Narumi, Kenji, Kazuya Hisada, Takashi Mihara, Haruhiko Habuta, Katsuhiko Hayashi, Yasuhiro Tanaka, Kousei Sano i in. "One-Head Near-Field Writing/Erasing on a Rewritable Dual-Layer Optical Disk Having High-Index Cover and Separation Layers". Japanese Journal of Applied Physics 50, nr 9S1 (1.09.2011): 09MG01. http://dx.doi.org/10.7567/jjap.50.09mg01.

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39

Narumi, Kenji, Kazuya Hisada, Takashi Mihara, Haruhiko Habuta, Katsuhiko Hayashi, Yasuhiro Tanaka, Kousei Sano i in. "One-Head Near-Field Writing/Erasing on a Rewritable Dual-Layer Optical Disk Having High-Index Cover and Separation Layers". Japanese Journal of Applied Physics 50, nr 9 (20.09.2011): 09MG01. http://dx.doi.org/10.1143/jjap.50.09mg01.

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40

Zhao, Weiwei, Shuang Cai, Xin Wei, Ting Zheng, Xin Xu, Amina Zafar, Hongwei Liu i in. "The Thinnest Light Disk: Rewritable Data Storage and Encryption on WS 2 Monolayers (Adv. Funct. Mater. 36/2021)". Advanced Functional Materials 31, nr 36 (wrzesień 2021): 2170267. http://dx.doi.org/10.1002/adfm.202170267.

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41

Lee, Tae-Yon, Byung-ki Cheong, Taek Sung Lee, Sung Jin Park, Won Mok Kim, Kyung Seok Lee, Ki-Bum Kim i Soon Gwang Kim. "A Novel Approach to Obtain GeSbTe-Based High Speed Crystallizing Materials for Phase Change Optical Recording". MRS Proceedings 674 (2001). http://dx.doi.org/10.1557/proc-674-v1.7.

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ABSTRACTA new approach is proposed to obtain fast crystallizing materials based on a conventional GeSbTe alloy for rewritable phase change optical data storage. By means of co-sputtering, Ge1Sb2Te4alloy was mixed with Sn1Bi2Te4alloy so as to form pseudo-binary alloys (Ge1Sb2Te4)1-x(Sn1Bi2Te4)x (x is a mole fraction). From structural and optical analyses of the co- sputtered and annealed alloy films, the formation of stable crystalline single phases was observed along with a Vegard's law behavior, suggesting a homogeneous mixing of the two alloys. By use of a 4 layered disk with (Ge1Sb2Te4)0.85(Sn1Bi2Te4)0.15 recording layer, a preliminary test of writing and erasing was carried out and the results were compared with the case of the disk with Ge1Sb2Te4recording layer. The (Ge1Sb2Te4)0.85(Sn1Bi2Te4)0.15 recording layer was found to yield markedly higher erasibility, especially with increasing disk linear velocity.
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42

"Robust Control for the Rewritable Optical Disk Drives with Sinusoidal Disturbance of Uncertain Frequencies". Journal of Control, Automation and Systems Engineering 8, nr 8 (1.08.2002): 682–90. http://dx.doi.org/10.5302/j.icros.2002.8.8.682.

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43

Tominaga, Junji, Paul Fons, Takayuki Shima, Masashi Kuwahara, Osamu Suzuki i Alexander Kolobov. "Large Optical Transitions in Rewritable Digital Versatile Discs: An Interlayer Atomic Zipper in a SbTe Alloy". MRS Proceedings 1072 (2008). http://dx.doi.org/10.1557/proc-1072-g06-02.

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ABSTRACTChalcogenides, in particular germanium-antimony-tellurium (GeSbTe) and antimony-rich tellurium (R-SbTe) based alloys, are the most technologically significant alloys currently being applied to recordable optical storage as typified by rewritable digital versatile discs (DVD-RW), DVD random access memory, (DVD-RAM). The same alloys are also being applied to nonvolatile random access memory electrical memory in the form of phase change random access memory (PCRAM). In 2004, the phase transition mechanism of GeSbTe was first revealed, demonstrating that the amorphous state is not a random configurational network but is locally well-ordered with the crystalline to amorphous switching process being based upon Ge atoms moving between octahedral and tetrahedral symmetry positions. The kinetic barrier between these two states gives rise to the non-volatile nature of GeSbTe as a storage medium. In contrast, no theoretical analysis has been proposed for SbTe alloys because a Ge-free system. In this paper, the Sb2Te structure has been investigated using the local density approximation (LDA) using a plane-wave basis and compared with experimental results. The effect of external stress on the structure was also investigated. It was found that Sb2Te undergoes two phase-transitions at around 18 GPa (compressive) and −3 GPa (tensile). In the case of negative stress, the c-axis was found to expanded more than the other axes, giving rise a large refractive index change. We report on coherent (uniaxial) melting induced by the breaking a sigma bond between Sb2Te3 and Sb superlattices. We believe this to be the origin of the phase transition that induces a large change in physical properties.
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44

Zalden, P., C. Bichara, J. v. Eijk, R. P. Hermann, I. Sergueev, G. Bruns, S. Buller i in. "Thermal and elastic properties of Ge-Sb-Te based phase-change materials". MRS Proceedings 1338 (2011). http://dx.doi.org/10.1557/opl.2011.1030.

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ABSTRACTPhase-change materials undergo a change in bonding mechanism upon crystallization, which leads to pronounced modifications of the optical properties and is accompanied by an increase in average bond lengths as seen by extended x-ray absorption fine structure (EXAFS), neutron and x-ray diffraction. The reversible transition between a crystalline and an amorphous phase and its related property contrast are already employed in non-volatile data storage devices, such as rewritable optical discs and electronic memories. The crystalline phase of the prototypical material GeSb2Te4 is characterized by resonant bonding and pronounced disorder, which help to understand their optical and electrical properties, respectively. A change in bonding, however, should also affect the thermal properties, which will be addressed in this study. Based on EXAFS data analyses it will be shown that the thermal and static atomic displacements are larger in the meta-stable crystalline state. This indicates that the bonds become softer in the crystalline phase. At the same time, the bulk modulus increases upon crystallization. These observations are confirmed by the measured densities of phonon states (DPS), which reveal a vibrational softening of the optical modes upon crystallization. This demonstrates that the change of bonding upon crystallization in phase-change materials also has a profound impact on the lattice dynamics and the resulting thermal properties.
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"209. A development of personal medical information archiving system by using 3.5 inch rewritable magneto optical disk as a memorizing media". Japanese Journal of Radiological Technology 48, nr 3 (1992): 518. http://dx.doi.org/10.6009/jjrt.kj00003533739.

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