R. H. C. Newton scite author profile

The extraction of ions from the plasma of a gas discharge and their formation into a beam is investigated theoretically. The results are shown to be applicable to a gridded ion gun. The results are also applicable to the design of canal extraction systems, but it is shown that in this case a simpler method exists for obtaining the necessary information. The theory is compared with the results of experiments and some agreement is found for sufficiently high accelerating voltages. The discrepancy is believed to be the result of the partial neutralization of the beam by secondary electrons in the experiments.

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Lithium Detection in a Binary Al-20 wt% Li Alloy Powder with a New Windowless SDD EDS Detector and EELS

Oleshko

Seddio

Newton

et al. 2018

Microsc Microanal

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Electron Beam Induced Resistance Change for Device Characterization and Defect Localization

Johnson

D’Aleo

et al. 2016

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Semiconductor Test Site structures were analyzed using an EBIRCH (Electron Beam Induced Resistance CHange) system. Localization of a RX (active area) to PC (gate) short was achieved with resolution that surpassed that of OBIRCH (Optical Beam Induced Resistance CHange). A voltage breakdown test structure at Metal 1 was stressed in the system, giving isolation to the specific contact. A five-fin diode macro was examined, and it is believed that the electrically active diffusions were imaged as individual fins from Metal 1. A series of ring oscillator devices were examined in steady state condition, and careful consideration of the image supports a hypothesis that Seebeck effect, from heating material interfaces in an EBIRCH system, is the reason for the “dipoles” reported in earlier literature.

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Precise Localization of 28 nm via Chain Resistive Defect Using EBAC and Nanoprobing

Larre

Tupin

Charles

et al. 2012

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As technology nodes continue to shrink, resistive opens have become increasingly difficult to detect using conventional methods such as AVC and PVC. The failure isolation method, Electron Beam Absorbed Current (EBAC) Imaging has recently become the preferred method in failure analysis labs for fast and highly accurate detection of resistive opens and shorts on a number of structures. This paper presents a case study using a two nanoprobe EBAC technique on a 28nm node test structure. This technique pinpointed the fail and allowed direct TEM lamella.

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R. H. C. Newton

On gradient-induced instabilities

The extraction of ions from a radio-frequency discharge

Lithium Detection in a Binary Al-20 wt% Li Alloy Powder with a New Windowless SDD EDS Detector and EELS

Electron Beam Induced Resistance Change for Device Characterization and Defect Localization

Precise Localization of 28 nm via Chain Resistive Defect Using EBAC and Nanoprobing

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