Automated SEM and TEM sample preparation applied to copper/low k materials

AbstractEvaluation of quasi-closed cavities connected with air through narrow necks is discussed. These cavities behave as closed pores when they are studied by Positron Annihilation Lifetime Spectroscopy (PALS). The reason is a short lifetime of o-positronium (Ps) and energy barrier that exist for Ps diffusion from large pores (d>3 nm) to small ones (d<3 nm). It is shown that more comprehensive information can be obtained using adsorption porosimetry. Standard adsorptives used in adsorption porosimetry have infinite lifetime allowing complete penetration and filling all the cavities during the measurement. Calculation of the neck and cavity sizes is based on the theory of metastable adsorption phases developed by Derjagin, Broekhoff and de Boer (DBdB). Results of evaluation are in good agreement with data obtained by SEM and TEM.

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Automated Sample Preparation of Low-k Dielectrics for FESEM

ISTFA 2005: Conference Proceedings from the 31st International Symposium for Testing and Failure Analysis ◽

10.31399/asm.cp.istfa2005p0231 ◽

2005 ◽

Author(s):

R. R. Cerchiara ◽

H. A. Cook ◽

P. E. Fischione ◽

J. J. Gronsky ◽

J. M. Matesa ◽

...

Keyword(s):

Sample Preparation ◽

Ion Beam ◽

Reactive Ion Etching ◽

Copper Interconnects ◽

Plasma Cleaning ◽

Ion Etching ◽

Ion Beam Etching ◽

Automated Sample Preparation ◽

Microelectronic Materials ◽

Low K

Abstract The SiLK resins, composed of aromatic hydrocarbons, are a family of highly cross-linked thermoset polymers with isotropic dielectric properties. Patterning of SiLK for high aspect ratio copper interconnects has depended on reactive ion etching with oxygen/nitrogen gas mixtures. Reactive ion etching is therefore also accomplished with reducing plasmas such as nitrogen/hydrogen. An additional plasma cleaning step can be inserted after the reactive ion etching (RIE) step, so that any residual contamination is removed prior to imaging or final sputter coating. Automated sample preparation of microelectronic materials containing high and low-k dielectrics for FESEM is accomplished in this article by combining these techniques: plasma cleaning, ion beam etching, and reactive ion etching. A single RIE chemistry was effective in etching both dielectrics as well as delineating the other phases present.

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Combining FIB and Automated Microcleaving Provides Fast, Accurate Cross Sections

Microscopy Today ◽

10.1017/s1551929500064804 ◽

1999 ◽

Vol 7 (7) ◽

pp. 34-35

Author(s):

Janet Teshima

Keyword(s):

Sample Preparation ◽

Cross Sections ◽

Three Dimensional ◽

New Combination ◽

Dimensional Structure ◽

Three Dimensional Structure ◽

Sem And Tem ◽

The Creation ◽

Subsurface Defects

A large part of the preparation of semiconductor samples for SEM and TEM observations involves the creation of cross sections to expose subsurface defects and three-dimensional structure. A powerful new combination of FIB (FEI Company, Hillsboro, Oregon, http://www.feic.com ) with automated microcleaving technology (SELA, Santa Clara, California, http://www. sela.com ) now offers a comprehensive solution for fast, easy and accurate sample preparation.

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Copper/low-k process characterization for 90nm technology using SEM and TEM imaging

Proceedings of the 12th International Symposium on the Physical and Failure Analysis of Integrated Circuits, 2005. IPFA 2005. ◽

10.1109/ipfa.2005.1469155 ◽

2005 ◽

Author(s):

G. Zimmermann ◽

W.T. Chang ◽

T.I. Shih ◽

D. Fan

Keyword(s):

Sem And Tem ◽

Process Characterization ◽

Low K

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A new sample preparation protocol for SEM and TEM particulate matter analysis

Ultramicroscopy ◽

10.1016/j.ultramic.2021.113365 ◽

2021 ◽

pp. 113365

Author(s):

Ankur Sinha ◽

Gloria Ischia ◽

Giovanni Straffelini ◽

Stefano Gialanella

Keyword(s):

Particulate Matter ◽

Sample Preparation ◽

Sem And Tem

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TEM/FIB Technical Solutions to Electron Beam Induced Radiation Damage to Low K/Ultra Low K Dielectrics in Semiconductor Failure Analysis

ISTFA 2012: Conference Proceedings from the 38th International Symposium for Testing and Failure Analysis ◽

10.31399/asm.cp.istfa2012p0542 ◽

2012 ◽

Author(s):

Liu Binghai ◽

Chen Ye ◽

Mo Zhiqiang ◽

Zhao Si Ping ◽

Wang Chue Yuin ◽

...

Keyword(s):

Electron Beam ◽

Sample Preparation ◽

Failure Analysis ◽

Radiation Damage ◽

Low Dose ◽

Imaging Techniques ◽

Single Beam ◽

Electron Microscopes ◽

Technical Solutions ◽

Low K

Abstract Electron-beam induced radiation damage can give rise to large structural collapse and deformation of low k and ultra low k IMD in semiconductor devices, posing great challenges for failure analysis by electron microscopes. Such radiation damage has been frequently observed during both sample preparation by dual-beam FIB and TEM imaging. To minimize radiation damage, in this work we performed systematic studies on every possible failure analysis step that could introduce radiation damage, i.e., pre-FIB sample preparation, FIB milling, and TEM imaging. Based on these studies, we utilized comprehensive technical solutions to radiation damage by each failure analysis step, i.e., low-dose/low-kV FIB and low-dose TEM techniques. We propose and utilize the low-dose TEM imaging techniques on conventional TEM tools without using low-dose imaging control interface/software. With these new methodologies or techniques, the electron-beam induced radiation damage to ultra low k IMD has been successfully minimized, and the combination of single-beam FIB milling and low-dose TEM imaging techniques can reduce structure collapse and shrinkage to almost zero.

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Contact Leakage Failure Analysis by EBIC, C-AFM and Nano-probing

ISTFA 2019: Conference Proceedings from the 45th International Symposium for Testing and Failure Analysis ◽

10.31399/asm.cp.istfa2019p0111 ◽

2019 ◽

Author(s):

Kuang-Tse Ho ◽

Chien-Wei Wu ◽

Te-Fu Chang ◽

Chia-Hsiang Yen ◽

Ching-Hsiang Chan

Keyword(s):

Sample Preparation ◽

Failure Analysis ◽

Failure Mechanisms ◽

Fault Isolation ◽

Electrical Failure ◽

Sem And Tem ◽

Leakage Failure

Abstract This research sets up failure analysis flow to verify failure mechanisms and root causes of different kinds of contact leakage. This flow mainly uses EBIC, C-AFM and nano-probing to do fault isolation and confirm electrical failure mechanisms. Appropriate sample preparation is also mandatory for FIB, SEM and TEM inspection.

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