Does your SEM really tell the truth? How would you know? Part 2

Postek, Michael T.; Vladár, András

doi:10.1002/sca.21124

Cited by 30 publications

(23 citation statements)

References 14 publications

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“…It is possible to achieve essentially contamination-free SEM operation [10][11][12][13]. Regular monitoring of the contamination performance of the SEM is critical.…”

Section: Contamination-free Measurementsmentioning

confidence: 99%

Documentation for Reference Material (RM) 8820 : A Versatile, Multipurpose Dimensional Metrology Calibration Standard for Scanned Particle Beam, Scanned Probe and Optical Microscopy

Postek¹,

Vladár²,

Ming³

et al. 2014

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“…It is possible to achieve essentially contamination-free SEM operation [10][11][12][13]. Regular monitoring of the contamination performance of the SEM is critical.…”

Section: Contamination-free Measurementsmentioning

confidence: 99%

Documentation for Reference Material (RM) 8820 : A Versatile, Multipurpose Dimensional Metrology Calibration Standard for Scanned Particle Beam, Scanned Probe and Optical Microscopy

Postek¹,

Vladár²,

Ming³

et al. 2014

Self Cite

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“…Two earlier papers (1,2), discussed some of the potential issues related to signal generation in the SEM, instrument calibration, electron beam interactions, and the need for modelling to understand the actual image generation. All these were summed together in a discussion of how these issues effect measurements made with the instrument.…”

Section: Introductionmentioning

confidence: 99%

“…1 Contribution of the National Institute of Standards and Technology, not subject to copyright. 2 Certain commercial equipment is identifi ed in this report to adequately describe the experimental procedure. Such identifi cation does not imply recommendation or endorsement by the National Institute of Standards and Technology, nor does it imply that the equipment identifi ed is necessarily the best available for the purpose.…”

Section: Introductionmentioning

confidence: 99%

Does your SEM really tell the truth? How would you know? part 3: vibration and drift

2014

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This is the third of a series of papers discussing various causes of measurement uncertainty in scanned particle beam instruments, and some of the solutions researched and developed at NIST. Scanned particle beam instruments especially the scanning electron microscope (SEM) have gone through tremendous evolution to become indispensable tools for many and diverse scientifi c and industrial applications. These improvements have signifi cantly enhanced their performance and made them far easier to operate. But, ease of operation has also fostered operator complacency. In addition, the user-friendliness has reduced the need for extensive operator training. Unfortunately, this has led to the concept that the SEM is just another expensive digital camera or another peripheral device connected to a computer and that all of the issues related to obtaining quality data have been solved. Hence, a person (or company) using these instruments may be lulled into thinking that all of the potential pitfalls have been fully eliminated and they believe everything they see on the micrograph is always correct. But, as described in this and the earlier presentations this may not be the case. The fi rst paper in this series discussed some of the issues related to signal generation in the SEM, including instrument calibration, electron beam-sample interactions and the need for physics-based modelling to understand the actual image formation mechanisms to properly interpret SEM images. The second paper, discussed another major issue confronting the microscopist: specimen contamination and methods of contamination elimination. This third paper, discusses vibration and drift and some useful solutions. INTRODUCTIONScanning electron microscopes are used extensively in nanomanufacturing characterization, metrology and process control. Two earlier papers (1, 2), discussed some of the potential issues related to signal generation in the SEM, instrument calibration, electron beam interactions, and the need for modelling to understand the actual image generation. All these were summed together in a discussion of how these issues effect measurements made with the instrument. The second paper, discussed another major issue confronting the microscopist: which is specimen contamination and methods of contamination reduction and elimination. This third paper, discusses the additional components of measurement uncertainty induced by vibration and drift and some possible solutions to these issues. Over the years, several workers at NIST have done a great deal of research into these issues in order to improve the fundamental metrology with particle beam instruments and some of this work is reviewed and discussed here.

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“…This third paper, discusses the additional components of measurement uncertainty 1 Contribution of the National Institute of Standards and Technology, not subject to copyright. 2 Certain commercial equipment is identifi ed in this report to adequately describe the experimental procedure. Such identifi cation does not imply recommendation or endorsement by the National Institute of Standards and Technology, nor does it imply that the equipment identifi ed is necessarily the best available for the purpose.…”

Section: Introductionmentioning

confidence: 99%

Nanomanufacturing concerns about measurements made in the SEM Part III: vibration and drift

2014

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Many advanced manufacturing processes employ scanning electron microscopes (SEM) for on-line critical measurements for process and quality control. This is the third of a series of papers discussing various causes of measurement uncertainty in scanned particle beam instruments, and some of the solutions researched and developed at NIST. Scanned particle beam instruments especially the scanning electron microscope have gone through tremendous evolution to become indispensable tools for many and diverse scientifi c and industrial applications. These improvements have signifi cantly enhanced their performance and made them far easier to operate. But, ease of operation has also fostered operator complacency. In addition, the user-friendliness has reduced the need for extensive operator training. Unfortunately, this has led to the concept that the SEM is just another expensive digital camera or another peripheral device connected to a computer and that all of the issues related to obtaining quality data have been solved. Hence, a person (or company) using these instruments may be lulled into thinking that all of the potential pitfalls have been fully eliminated and they believe everything they see on the micrograph is always correct. But, as described in this and the earlier presentations this may not be the case. The fi rst paper in this series discussed some of the issues related to signal generation in the SEM, including instrument calibration, electron beam-sample interactions and the need for physics-based modelling to understand the actual image formation mechanisms to properly interpret SEM images. The second paper, discussed another major issue confronting the microscopist: specimen contamination and methods of contamination elimination. This third paper, discusses vibration and drift and some useful solutions.

show abstract

Does your SEM really tell the truth? How would you know? Part 2

Cited by 30 publications

References 14 publications

Documentation for Reference Material (RM) 8820 : A Versatile, Multipurpose Dimensional Metrology Calibration Standard for Scanned Particle Beam, Scanned Probe and Optical Microscopy

Documentation for Reference Material (RM) 8820 : A Versatile, Multipurpose Dimensional Metrology Calibration Standard for Scanned Particle Beam, Scanned Probe and Optical Microscopy

Does your SEM really tell the truth? How would you know? part 3: vibration and drift

Nanomanufacturing concerns about measurements made in the SEM Part III: vibration and drift

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