Grinding Characteristics of Solid Immersion Mirrors with the ELID Grinding Method

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Periodical:

Key Engineering Materials (Volumes 238-239)

Edited by:

Yongsheng Gao, Jun'ichi Tamaki and Koichi Kitajima

Pages:

83-88

Citation:

Y. Uehara et al., "Grinding Characteristics of Solid Immersion Mirrors with the ELID Grinding Method", Key Engineering Materials, Vols. 238-239, pp. 83-88, 2003

Online since:

April 2003

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$38.00

[1] Chul Woo Lee, et al., Feasibility Study on Near Field Optical Memory Using a Catadioptic Optical System", Tech. Dig. Of ODS , 98, WA4, (1998) P. 137.

[2] Kiichi Ueyanagi and Takao Tomono, Proposal of a Near-Field Optical Head using a New Solid Immersion Lens", Tech. Dig. Of ISOM/ODS , 99, ThC5, (1999) P. 364; USP-No. 6, 154, 326.

DOI: https://doi.org/10.1143/jjap.39.888

[3] Koichiro Kishima, et al., Challenge for Near-Field Recording beyond 50 Gbit/in2, Tech. Dig. Of ISOM 2001, Fr-N-05, (2001) P. 242.

[4] Hideki Saga, et al., A New Recording Method Combining Thermo-Magnetic Writing and Flux Detection", Tech. Dig. Of ISOM , 98, Pd-8 (1998), P. 188.

[5] Hitoshi Ohmori, Electrolytic In-Process Dressing (ELID) Grinding for Optical Parts Manufacturing, International Progress in Precision Eng. IPES, 7(1993), P. 134㨪148.

DOI: https://doi.org/10.1016/b978-0-7506-9484-1.50018-x

[6] Sei Moriyasu, et al., Development of Ultraprecision Vertical-type Contact-Probe for On-Machine Form Measurement, ISSAT2000, (2000), P. 309-312.

[7] Yutaka Yamagata, et al., Fabrication of micro mechanical and optical components by ultra-precision cutting", SPIE, s MM96 Symposium (1996), Microelectronic Structures and MEMS for optical Processing , SPIE Volume 2881 (1996), P. 148-157.

DOI: https://doi.org/10.1117/12.251244

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