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plasma focused ion beam thinning
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Journal Articles
EDFA Technical Articles (2024) 26 (4): 20–26.
Published: 01 November 2024
... International Xenon plasma focused ion beam specimen preparation is ideal for preparing plan view TEM specimens due to its large-volume-milling capabilities. This article describes concentrated Ar ion beam milling using low energy as a post-pFIB final thinning step of plan view TEM specimens from a phase...
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Xenon plasma focused ion beam specimen preparation is ideal for preparing plan view TEM specimens due to its large-volume-milling capabilities. This article describes concentrated Ar ion beam milling using low energy as a post-pFIB final thinning step of plan view TEM specimens from a phase change memory device. Precise control of specimen thinning is achieved, which results in high-quality specimens with pristine surfaces and a large field of view for TEM characterization.
Journal Articles
EDFA Technical Articles (2024) 26 (4): 27–34.
Published: 01 November 2024
... to a disproportionately low instance of operando studies of electronic devices. This article presents recent progress in using the focused ion beam (FIB) to prepare thin, electrically contacted cross-section samples for STEM EBIC imaging and in situ biasing. Techniques involving both standard Ga+ FIB and Xe+ plasma FIB...
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Scanning TEM electron beam-induced current (STEM EBIC) imaging is a promising technique for providing high-resolution electronic and thermal contrast as a complement to TEM’s physical contrast. This article presents recent progress in using the focused ion beam (FIB) to prepare thin, electrically contacted cross-section samples for STEM EBIC imaging and in situ biasing. Techniques involving both standard Ga+ FIB and Xe+ plasma FIB (PFIB) are described.
Journal Articles
EDFA Technical Articles (2023) 25 (1): 4–8.
Published: 01 February 2023
... commonly using a focused ion beam (FIB), enables studying samples from real components (i.e., devices that may Fig. 1 SEM images of a Si-based lift-out biasing chip. The Si-based chip supports a thin membrane and Pt electrodes that are patterned up to a trench etched through the membrane which...
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This article discusses sample preparation challenges that have impeded progress in producing bias-enabled TEM samples from electronic components, as well as strategies to mitigate these issues.
Journal Articles
EDFA Technical Articles (2017) 19 (4): 36–44.
Published: 01 November 2017
.... Copyright © ASM International® 2017 2017 ASM International automated thinning backside deprocessing focused ion beam milling plasma FIB delayering 3 6 httpsdoi.org/10.31399/asm.edfa.2017-4.p036 EDFAAO (2017) 4:36-44 1537-0755/$19.00 ©ASM International® ELECTRONIC DEVICE FAILURE ANALYSIS...
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Deprocessing of ICs is often the final step for defect validation in FA cases with limited fault-isolation information. This article presents a workflow for deprocessing ICs from the backside using automated thinning and large-area plasma FIB delayering. Advantages to this approach include a reduction in manual planarization and depackaging and a higher degree of precision and repeatability.
Journal Articles
EDFA Technical Articles (2011) 13 (1): 12–19.
Published: 01 February 2011
... Conference on Electron, Ion, and Photon Beam Technology and Nanofabrication (Florida), May 2009. 10. S.M. Kellogg, R. Schampers, S.Y. Zhang, A.A. Graupera, T. Miller, W.D. Laur, and A.B. Dirriwachter: High Throughput Sample Preparation and Analysis Using an Inductively Coupled Plasma (ICP) Focused Ion Beam...
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Packaging integration continues to increase in complexity, driving more samples into FA labs for development support and analysis. For many of the jobs, there is also a need for larger removal volumes, compounding the demand for tool time and throughput. Focused ion beam (FIB) and dual-beam FIB/SEM systems are helping to relieve the pressure with their ability to create site-specific cross sections and to facilitate gate-level circuit rewire and debug. This article reviews the impact of packaging trends on failure analysis along with recent improvements in FIB technology. It also presents examples that illustrate how these new FIB techniques are being applied to solve emerging packaging challenges.
Journal Articles
EDFA Technical Articles (2021) 23 (2): 33–37.
Published: 01 May 2021
...Tejinder Gandhi; Anita Madan; Ted Kolasa This article provides a recap and summaries of the EDFAS Virtual User Group Workshop held in January 2021. The summaries cover key participants, presentation topics, and discussion highlights from the Focused Ion Beam, Sample Preparation, Contactless Probing...
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This article provides a recap and summaries of the EDFAS Virtual User Group Workshop held in January 2021. The summaries cover key participants, presentation topics, and discussion highlights from the Focused Ion Beam, Sample Preparation, Contactless Probing and Nanoprobing, and System on Package virtual group meetings.
Journal Articles
EDFA Technical Articles (2023) 25 (2): 4–8.
Published: 01 May 2023
... that are commonly used for IC failure analysis, including focused ion beam (FIB), mechanical polishing, and chemical etching. The FIB uses a narrow ion beam to etch and must raster to perform an area etch. The time required makes it impractical to etch an entire IC. However, if a defect site is known in advance...
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Broad ion beam delayering is a versatile technique for whole-chip failure analysis. The large area of uniformity coupled with the ability to precisely stop at the layer of interest facilitates repeatable, rapid defect detection anywhere on the chip.
Journal Articles
EDFA Technical Articles (2016) 18 (4): 30–40.
Published: 01 November 2016
... ANALYSIS (continued from page 34) than for the Ga-FIB. Plasma FIBs are able to maintain a focused beam even at very large currents in the range of microamps. Due to this larger range of beam currents, plasma FIBs are able to achieve much higher milling rates for larger volumes of material removal. Although...
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The complexity of sample preparation and deprocessing has risen exponentially with the emergence of 2.5-D and 3D packages. This article provides answers and insights on how to deal with the challenges of increasingly complex semiconductor packages. After identifying pressing issues and potential bottlenecks with state-of-the-art FA flows, the authors present two case studies demonstrating the capabilities of electro-optical terahertz pulse reflectometry (EOTPR), plasma FIB milling, and 3D X-ray imaging. The FA results confirm the potential of all three techniques and indicate that a fully nondestructive integration flow for 3D packages may be achievable with further development and optimization.
Journal Articles
EDFA Technical Articles (2014) 16 (1): 18–23.
Published: 01 February 2014
.../asm.edfa.2014-1.p018 EDFAAO (2014) 1:18-23 1537-0755/$19.00 ©ASM International® FIB-SEM Workshop Review Sixth FIB-SEM Workshop Nicholas Antoniou, Center for Nanoscale Systems, Harvard University nicholas@cns.fas.harvard.edu More than six years ago, a group of focused ion beam (FIB) and scanning electron...
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The sixth FIB-SEM workshop was held March 1, 2013, in Cambridge, Mass. This article provides a summary of the event along with highlights from the 18 paper presentations.
Journal Articles
EDFA Technical Articles (2013) 15 (1): 37–40.
Published: 01 February 2013
... This article provides a summary of the presentations given at the four User’s Group meetings at ISTFA 2012. Each user group focused on one of the following topics: nanoprobing, contactless fault isolation, focused ion beam, and sample preparation. Copyright © ASM International® 2013 2013 ASM...
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This article provides a summary of the presentations given at the four User’s Group meetings at ISTFA 2012. Each user group focused on one of the following topics: nanoprobing, contactless fault isolation, focused ion beam, and sample preparation.
Journal Articles
EDFA Technical Articles (2015) 17 (1): 33–37.
Published: 01 February 2015
... challenges, 3-D and backside sample preparation, and advancements in sample prep using plasma focused ion beam (FIB). The presenters included Monte Drennan (Priority Labs/Priority Packaging), Chris Richardson (Allied High Tech), and Roger Alvis (FEI Company). Monte Drennan (mdrennan@prioritypkg.com...
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Several technology-focused User's Groups met at ISTFA 2014 to discuss current issues and advances in their areas of interest. This article summarizes key discussion points from the Contactless Fault Isolation User's Group, the Nanoprobing User's Group, the Sample Prep/3-D Package User's Group, and the FIB User's Group.
Journal Articles
EDFA Technical Articles (2012) 14 (1): 27–31.
Published: 01 February 2012
... This article provides a summary of each of the four User’s Group meetings that took place at ISTFA 2011. The summaries cover key participants, presentation topics, and discussion highlights from each of the following groups: Group 1, Focused Ion Beam; Group 2, 3D Packaging and Failure Analysis...
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This article provides a summary of each of the four User’s Group meetings that took place at ISTFA 2011. The summaries cover key participants, presentation topics, and discussion highlights from each of the following groups: Group 1, Focused Ion Beam; Group 2, 3D Packaging and Failure Analysis; Group 3, Finding the Invisible Defect; and Group 4, Nanoprobing and Electrical Characterization.
Journal Articles
EDFA Technical Articles (2021) 23 (4): 14–17.
Published: 01 November 2021
... of the metal to ensure any defect present would be Fig. 5 (a) Diagram of module prepared for electron beam absorbed current (EBAC) analysis. (b) EBAC signal shows precise location of open via chain link. (c) A He beam image of a Ga beam focused ion beam section preserved. It was also preferable to not cut...
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This article discusses the failure analysis challenges associated with large overmolded 2.5D packages and explains how laser decapsulation followed by microwave-induced plasma (MIP) spot etching removes overmold while keeping everything else intact. It also describes a defect isolation procedure in which the sample is analyzed in a large chamber environmental SEM with its ball grid array directly wired to an EBAC amplifier.
Journal Articles
EDFA Technical Articles (2015) 17 (3): 50–52.
Published: 01 August 2015
... focused ion beam (FIB) column. Using a helium source and cobalt carbonyl, the Carl Zeiss team deposited metal lines as small as 10 nm wide, with resistivities on the order of 80 cm, with pitch control down to 20 nm. The tool is also capable of depositing insulators with resistivities on the order of 1013...
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The second phase of the IARPA Circuit Analysis Tools (CAT) program, which ended in June 2015, focused on the development of prototype tools to demonstrate scalability to the 10 nm node. Our guest columnist, IARPA Program Manager, Carl E. McCants, provides a summary of what the participating teams accomplished.
Journal Articles
EDFA Technical Articles (2017) 19 (1): 26–40.
Published: 01 February 2017
... The Sample-Prep User Group hosted four technical presentations toward the development of new capabilities in the laboratory. The first presentation discussed scaling up focused ion beam (FIB) techniques to enable processes that would typically involve incompatible materials systems or excessive processing...
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The 42nd International Symposium for Testing and Failure Analysis (ISTFA 2016) was held in Fort Worth, Texas, November 6-10, 2016. This article provides a summary of the keynote presentation, technical program, panel discussion, tutorials, and User’s Group meetings.
Journal Articles
EDFA Technical Articles (2012) 14 (1): 14–20.
Published: 01 February 2012
... can depend on grain size, grainboundary integrity, thickness, tin oxide thickness, impurity content, and other factors.[6] These factors can be characterized using microanalysis techniques such as scanning electron microscopy (SEM), focused ion beam (FIB) milling and ion imaging, and energydispersive...
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Tin whiskers are single-crystal filaments that can grow from tin-plated copper or nickel components. This article discusses the effect of plating thickness, composition, and grain size on tin whisker formation and explains how to assess damage potential based on microanalysis, whisker length distribution models, and metal vapor arc risk factors. The authors also present and analyze several examples of failures caused by tin whisker formation in space systems.
Journal Articles
EDFA Technical Articles (2013) 15 (4): 52–54.
Published: 01 November 2013
... circuit analysis tools IARPA httpsdoi.org/10.31399/asm.edfa.2013-4.p052 Guest Columnist The IARPA Circuit Analysis Tools Program Carl E. McCants, Program Manager, IARPA Safe and Secure Operations Office carl.mccants@iarpa.gov Program Overview ion beam (FIB) column capable of imaging/editing...
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The semiconductor industry continues to scale microelectronics in accordance with Moore’s Law, as the minimum feature size on integrated circuits has decreased from 800 nm in 1993 to 90 nm in 2003 to 22 nm today. In addition, manufacturing advances include 3-D packaging, with multiple dice stacked in various configurations, and 3-D integrated circuits that use through-silicon vias or through-oxide vias to connect the various dice layers. The Intelligence Advanced Research Projects Activity (IARPA) Circuit Analysis Tools (CAT) program is developing tools and techniques to ensure that the U.S. government has capabilities for circuit analysis at future technology nodes, specifically at 22 nm and beyond, and for chips assembled using advanced packaging techniques. This column describes the CAT program activities and goals.
Journal Articles
EDFA Technical Articles (2020) 22 (1): 14–19.
Published: 01 February 2020
... on the nature and location of the defect. Focused ion beam techniques are effective for cross-section sample preparation over micron squared sized areas, but fall short because large delamination, multiple defects over a large distance, and large metallic puddling cannot be exposed by a single cross section...
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In this article, the authors evaluate micro CNC milling as an alternative to manual parallel lapping for mechanical cross-sectioning of flip-chip packaged samples. They describe both processes, and how they compare to other cross-sectioning techniques, and clearly illustrate the differences. SEM images of a manually polished sample show process-induced cracking, chipping, and delamination at the die-C4 interface. In contrast, the CNC-milled sample is artifact-free and the C4 bumps are uniformly exposed along the entire length of the cross-section.
Journal Articles
EDFA Technical Articles (2018) 20 (1): 36–S-6.
Published: 01 February 2018
... achieve it. ISTFA 2017 FOCUSED ION BEAM (FIB) USER GROUP Moderators: Steven Herschbein, GLOBALFOUNDRIES, and Michael Wong, FEI/Thermo Fisher Scientific steven.herschbein@globalfoundries.com michael.wong@fei.com This year we had six presentations that covered a wide range of topics, including: The session...
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The 43rd International Symposium for Testing and Failure Analysis (ISTFA 2017) was held in Pasadena, Calif., November 5-9, 2017. This article provides a summary of the keynote presentation, technical program, panel discussion, tutorials, and User’s Group meetings.
Journal Articles
EDFA Technical Articles (2022) 24 (1): 33–42.
Published: 01 February 2022
... 2021 FOCUSED ION BEAM USER GROUP Chair/Co-Chairs: Steven Herschbein, Michael Wong, Valerie Brogden, and Edward Principe steven.herschbein@gmail.com, mike.wong@thermofisher.com, vbrogden@uoregon.edu, eprincipe@synchres.com The FIB User Group meeting was held the afternoon of Wednesday, November 3...
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The 47th International Symposium for Testing and Failure Analysis (ISTFA 2021) was held in Phoenix, Ariz., from October 31 to November 4, 2011. This article provides a summary of the keynote presentation, technical program, panel discussion, tutorials, User Group meetings, and the Women in Electronics Failure Analysis (WEFA) event.
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