A hybrid nano-probe for precision nanofabrication of complex surfaces

W. Gao; S. Genda; Y. Kudo; S. Kiyono; J. Patten

A hybrid nano-probe for precision nanofabrication of complex surfaces

W. Gao, S. Genda, Y. Kudo, S. Kiyono, J. Patten

ENG - Finemechanics

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

This paper describes an intelligent nano-probe for precision nanofabrication of complex surfaces. The probe is a hybrid of a fast controlled diamond cutting unit (FTC-unit) and a highly-sensitive piezoelectric force sensor. The FTC-unit consists of a diamond cutting tool and a PZT actuator. Complex surfaces can be generated through fast controlling the position of the tool, which corresponds to the depth of cut into the surface, by the PZT actuator. The cutting force is detected by the force sensor coupled into the FTC-unit. The information of the cutting force is employed not only for monitoring the complex fabricating process but also for obtaining the fabricated surface profile, which are important for the purpose of precision nanofabrication of complex surfaces. Two structures of coupling the force sensor to the FTC-unit are designed and compared.

Original language	English
Title of host publication	2004 8th International Conference on Control, Automation, Robotics and Vision (ICARCV)
Pages	173-177
Number of pages	5
Publication status	Published - 2004
Event	8th International Conference on Control, Automation, Robotics and Vision (ICARCV) - Kunming, China Duration: 2004 Dec 6 → 2004 Dec 9

Publication series

Name	2004 8th International Conference on Control, Automation, Robotics and Vision (ICARCV)
Volume	1

Conference

Conference	8th International Conference on Control, Automation, Robotics and Vision (ICARCV)
Country/Territory	China
City	Kunming
Period	04/12/6 → 04/12/9

Cite this

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title = "A hybrid nano-probe for precision nanofabrication of complex surfaces",

abstract = "This paper describes an intelligent nano-probe for precision nanofabrication of complex surfaces. The probe is a hybrid of a fast controlled diamond cutting unit (FTC-unit) and a highly-sensitive piezoelectric force sensor. The FTC-unit consists of a diamond cutting tool and a PZT actuator. Complex surfaces can be generated through fast controlling the position of the tool, which corresponds to the depth of cut into the surface, by the PZT actuator. The cutting force is detected by the force sensor coupled into the FTC-unit. The information of the cutting force is employed not only for monitoring the complex fabricating process but also for obtaining the fabricated surface profile, which are important for the purpose of precision nanofabrication of complex surfaces. Two structures of coupling the force sensor to the FTC-unit are designed and compared.",

author = "W. Gao and S. Genda and Y. Kudo and S. Kiyono and J. Patten",

year = "2004",

language = "English",

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booktitle = "2004 8th International Conference on Control, Automation, Robotics and Vision (ICARCV)",

note = "8th International Conference on Control, Automation, Robotics and Vision (ICARCV) ; Conference date: 06-12-2004 Through 09-12-2004",

}

Gao, W, Genda, S, Kudo, Y, Kiyono, S & Patten, J 2004, A hybrid nano-probe for precision nanofabrication of complex surfaces. in 2004 8th International Conference on Control, Automation, Robotics and Vision (ICARCV). 2004 8th International Conference on Control, Automation, Robotics and Vision (ICARCV), vol. 1, pp. 173-177, 8th International Conference on Control, Automation, Robotics and Vision (ICARCV), Kunming, China, 04/12/6.

A hybrid nano-probe for precision nanofabrication of complex surfaces. / Gao, W.; Genda, S.; Kudo, Y. et al.
2004 8th International Conference on Control, Automation, Robotics and Vision (ICARCV). 2004. p. 173-177 (2004 8th International Conference on Control, Automation, Robotics and Vision (ICARCV); Vol. 1).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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T1 - A hybrid nano-probe for precision nanofabrication of complex surfaces

AU - Gao, W.

AU - Genda, S.

AU - Kudo, Y.

AU - Kiyono, S.

AU - Patten, J.

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N2 - This paper describes an intelligent nano-probe for precision nanofabrication of complex surfaces. The probe is a hybrid of a fast controlled diamond cutting unit (FTC-unit) and a highly-sensitive piezoelectric force sensor. The FTC-unit consists of a diamond cutting tool and a PZT actuator. Complex surfaces can be generated through fast controlling the position of the tool, which corresponds to the depth of cut into the surface, by the PZT actuator. The cutting force is detected by the force sensor coupled into the FTC-unit. The information of the cutting force is employed not only for monitoring the complex fabricating process but also for obtaining the fabricated surface profile, which are important for the purpose of precision nanofabrication of complex surfaces. Two structures of coupling the force sensor to the FTC-unit are designed and compared.

AB - This paper describes an intelligent nano-probe for precision nanofabrication of complex surfaces. The probe is a hybrid of a fast controlled diamond cutting unit (FTC-unit) and a highly-sensitive piezoelectric force sensor. The FTC-unit consists of a diamond cutting tool and a PZT actuator. Complex surfaces can be generated through fast controlling the position of the tool, which corresponds to the depth of cut into the surface, by the PZT actuator. The cutting force is detected by the force sensor coupled into the FTC-unit. The information of the cutting force is employed not only for monitoring the complex fabricating process but also for obtaining the fabricated surface profile, which are important for the purpose of precision nanofabrication of complex surfaces. Two structures of coupling the force sensor to the FTC-unit are designed and compared.

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BT - 2004 8th International Conference on Control, Automation, Robotics and Vision (ICARCV)

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Y2 - 6 December 2004 through 9 December 2004

ER -

A hybrid nano-probe for precision nanofabrication of complex surfaces

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