Determination of the two-dimensional distribution of potentials in integrated circuits by the laser scanning method

Abstract This paper presents the results obtained from geodetic measurements and processing the data with the objective to determine geometrical parameters of an elevator shaft applying classical as well as modern approaches for obtaining the measured data. The intention was to verify the possibility to apply the terrestrial laser scanning (TLS) method as a suitable, efficient and precise method for collecting spatial data.

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LASER SCANNING METHOD FOR DETERMINATION OF GEOMETRIC QUALITY PARAMETERS OF PREFORMS PRODUCED BY WIRE + ARC ADDITIVE MANUFACTURING

10.26678/abcm.cobem2019.cob2019-0939 ◽

2019 ◽

Author(s):

Igor Felice ◽

Danielle Monteiro Souza ◽

Leandro João da Silva ◽

Douglas Araujo ◽

Ruham Reis

Keyword(s):

Additive Manufacturing ◽

Laser Scanning ◽

Quality Parameters ◽

Scanning Method ◽

Geometric Quality ◽

Wire Arc Additive Manufacturing

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Determination of the two-dimensional distribution of plasma parameters in an atmospheric microwave plasma

IEEE Conference Record - Abstracts 2002 IEEE International Conference on Plasma Science (Cat No 02CH37340) PLASMA-02 ◽

10.1109/plasma.2002.1030333 ◽

2003 ◽

Author(s):

Se Youn Moon ◽

W. Choe ◽

Y.S. Hwang ◽

J.J. Choi

Keyword(s):

Microwave Plasma ◽

Two Dimensional ◽

Plasma Parameters ◽

Dimensional Distribution

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DETERMINATION OF THE ELECTRIC FIELD VECTOR TWO DIMENSIONAL DISTRIBUTION INSIDE A HOLLOW CATHODE USING THE LASER STARK SPECTROSCOPY OF NaK

Journal de Physique IV (Proceedings) ◽

10.1051/jp4:19917143 ◽

1991 ◽

Vol 01 (C7) ◽

pp. C7-547-C7-550

Author(s):

M. P. ALBERTA ◽

J. DEROUARD

Keyword(s):

Electric Field ◽

Hollow Cathode ◽

Field Vector ◽

Two Dimensional ◽

Electric Field Vector ◽

Stark Spectroscopy ◽

Dimensional Distribution ◽

Laser Stark

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3-Dimensional immunolabeling and in situ hybridization detection using fluorescence photooxidation and intermediate-voltage Electron Microscopy

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100168554 ◽

1994 ◽

Vol 52 ◽

pp. 164-165

Author(s):

Thomas J. Deerinck ◽

Maryann E. Martone ◽

Varda Lev-Ram ◽

David P. L. Green ◽

Roger Y. Tsien ◽

...

Keyword(s):

Laser Scanning ◽

Reactive Oxygen ◽

Confocal Laser Scanning Microscope ◽

Fluorescent Dye ◽

Confocal Laser ◽

3 Dimensional ◽

Voltage Electron ◽

Dimensional Distribution ◽

Electron Microscopes ◽

New Generation

The confocal laser scanning microscope has become a powerful tool in the study of the 3-dimensional distribution of proteins and specific nucleic acid sequences in cells and tissues. This is also proving to be true for a new generation of high contrast intermediate voltage electron microscopes (IVEM). Until recently, the number of labeling techniques that could be employed to allow examination of the same sample with both confocal and IVEM was rather limited. One method that can be used to take full advantage of these two technologies is fluorescence photooxidation. Specimens are labeled by a fluorescent dye and viewed with confocal microscopy followed by fluorescence photooxidation of diaminobenzidine (DAB). In this technique, a fluorescent dye is used to photooxidize DAB into an osmiophilic reaction product that can be subsequently visualized with the electron microscope. The precise reaction mechanism by which the photooxidation occurs is not known but evidence suggests that the radiationless transfer of energy from the excited-state dye molecule undergoing the phenomenon of intersystem crossing leads to the formation of reactive oxygen species such as singlet oxygen. It is this reactive oxygen that is likely crucial in the photooxidation of DAB.

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Measurement of erosion state and refractory lining thickness of blast furnace hearth by using three-dimensional laser scanning method

Metallurgical Research & Technology ◽

10.1051/metal/2020085 ◽

2020 ◽

Vol 118 (1) ◽

pp. 106

Author(s):

Lei Zhang ◽

Jianliang Zhang ◽

Kexin Jiao ◽

Guoli Jia ◽

Jian Gong ◽

...

Keyword(s):

Blast Furnace ◽

Laser Scanning ◽

Refractory Lining ◽

Three Dimensional ◽

3D Laser Scanning ◽

Scanning Method ◽

Blast Furnace Production ◽

Severe Erosion ◽

Residual Thickness ◽

Minimum Depth

The three-dimensional (3D) model of erosion state of blast furnace (BF) hearth was obtained by using 3D laser scanning method. The thickness of refractory lining can be measured anywhere and the erosion curves were extracted both in the circumferential and height directions to analyze the erosion characteristics. The results show that the most eroded positions located below 20# tuyere with an elevation of 7700 mm and below 24#–25# tuyere with an elevation of 8100 mm, the residual thickness here is only 295 mm. In the circumferential directions, the serious eroded areas located between every two tapholes while the taphole areas were protected well by the bonding material. In the height directions, the severe erosion areas located between the elevation of 7600 mm to 8200 mm. According to the calculation, the minimum depth to ensure the deadman floats in the hearth is 2581 mm, corresponding to the elevation of 7619 mm. It can be considered that during the blast furnace production process, the deadman has been sinking to the bottom of BF hearth and the erosion areas gradually formed at the root of deadman.

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