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A Compact XY Flexure-Based Nanopositioning Stage for Scanning Probe Microscope (SPM)


Affiliations
1 Nano Manufacturning Technology Centre (NMTC), CMTI, Bengaluru, India
2 Nano Manufacturning Technology Centre (NMTC), CMTI, Bengaluru, Iceland
3 Mechanical Engineering, National Institute of Technology Karnataka (NITK), Surathkal, India
     

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Nanotechnology has been growing rapidly in most of the applications related to semi-conductor devices, health care, consumer goods, medicine and bio-technology. Nanopositioning systems are the sub-systems of nanotechnology equipments such as nanofabrication, nano-measurements and optical focusing systems. This paper is mainly focused on the development of compact XY flexure based mechanism for Scanning Probe Microscopes (SPM). The work includes design, manufacturing and testing of flexure based nanopositioning system. The developed nano-positioning stage is tested in open-loop operation for linearity and cross axis motions of the compliant mechanism. The sources of motion errors in a nanopositioning system include actuator non-linearity, creep, structural vibrations of flexure mechanism and thermal drift are minimized using closed loop operation. The compact XY system has been tested for dynamic motion and the measured bandwidth of the positioning system shows that it can be used for scanning probe microscope (SPM) application.

Keywords

Compliant Mechanism, Flexure, Nano-Positioning System, Piezo-Based Systems, Capacitive Sensors, Closed Loop System.
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  • A Compact XY Flexure-Based Nanopositioning Stage for Scanning Probe Microscope (SPM)

Abstract Views: 422  |  PDF Views: 5

Authors

T. Narendra Reddy
Nano Manufacturning Technology Centre (NMTC), CMTI, Bengaluru, India
S. N. Vithun
Nano Manufacturning Technology Centre (NMTC), CMTI, Bengaluru, India
Prakash Vinod
Nano Manufacturning Technology Centre (NMTC), CMTI, Bengaluru, Iceland
Mervin Herbert
Mechanical Engineering, National Institute of Technology Karnataka (NITK), Surathkal, India
Shrikantha S. Rao
Mechanical Engineering, National Institute of Technology Karnataka (NITK), Surathkal, India

Abstract


Nanotechnology has been growing rapidly in most of the applications related to semi-conductor devices, health care, consumer goods, medicine and bio-technology. Nanopositioning systems are the sub-systems of nanotechnology equipments such as nanofabrication, nano-measurements and optical focusing systems. This paper is mainly focused on the development of compact XY flexure based mechanism for Scanning Probe Microscopes (SPM). The work includes design, manufacturing and testing of flexure based nanopositioning system. The developed nano-positioning stage is tested in open-loop operation for linearity and cross axis motions of the compliant mechanism. The sources of motion errors in a nanopositioning system include actuator non-linearity, creep, structural vibrations of flexure mechanism and thermal drift are minimized using closed loop operation. The compact XY system has been tested for dynamic motion and the measured bandwidth of the positioning system shows that it can be used for scanning probe microscope (SPM) application.

Keywords


Compliant Mechanism, Flexure, Nano-Positioning System, Piezo-Based Systems, Capacitive Sensors, Closed Loop System.