Ionizing Radiation Effects In Mos Oxides
Ionizing Radiation Effects In Mos Oxides

Author: Timothy R Oldham

Publisher: World Scientific

Published: 2000-01-25

Total Pages: 190

ISBN-13: 9814496685

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This volume is intended to serve as an updated critical guide to the extensive literature on the basic physical mechanisms controlling the radiation and reliability responses of MOS oxides. The last such guide was Ionizing Radiation Effects in MOS Devices and Circuits, edited by Ma and Dressendorfer and published in 1989. While that book remains an authoritative reference in many areas, there has been a significant amount of more recent work on the nature of the electrically active defects in MOS oxides which are generated by exposure to ionizing radiation. These same defects are also critical in many other areas of oxide reliability research. As a result of this work, the understanding of the basic physical mechanisms has evolved. This book summarizes the new work and integrates it with older work to form a coherent, unified picture. It is aimed primarily at specialists working on radiation effects and oxide reliability.

Permanent and Transient Radiation Effects on Thin-Oxide (200-A) MOS Transistors
Permanent and Transient Radiation Effects on Thin-Oxide (200-A) MOS Transistors

Author: Stewart Share

Publisher:

Published: 1976

Total Pages: 24

ISBN-13:

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An approach for hardening metal oxide semiconductor (MOS) transistors to ionizing radiation by reducing the thickness of the gate oxide is presented. It is shown that Si gate, n-channel MOS field-effect transistors with oxides 200 A thick continue to operate in the enhancement mode after irradiation to 1,000,000 rads (Si) with a positive bias applied to the gate during the irradiation. This represents a considerable improvement over conventional thick-oxide (approximately 1000-A) devices, which go into the depletion mode of operation at 100,000 rads (Si). The thin-oxide devices after exposure to pulsed ionizing radiation showed improved performance over that of thick-oxide devices. It was found also that device operation following irradiation depended on the source-drain spacing (Channel length): Shortening the channel length leads to an increased shift of the threshold voltage induced by irradiation. (Author).

Ionizing Radiation Effects in MOS Devices and Circuits
Ionizing Radiation Effects in MOS Devices and Circuits

Author: T. P. Ma

Publisher: John Wiley & Sons

Published: 1989-04-18

Total Pages: 616

ISBN-13: 9780471848936

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The first comprehensive overview describing the effects of ionizing radiation on MOS devices, as well as how to design, fabricate, and test integrated circuits intended for use in a radiation environment. Also addresses process-induced radiation effects in the fabrication of high-density circuits. Reviews the history of radiation-hard technology, providing background information for those new to the field. Includes a comprehensive review of the literature and an annotated listing of research activities in radiation-hardness research.

Analytical Models for Total Dose Ionization Effects in MOS Devices
Analytical Models for Total Dose Ionization Effects in MOS Devices

Author:

Publisher:

Published: 2008

Total Pages: 55

ISBN-13:

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MOS devices are susceptible to damage by ionizing radiation due to charge buildup in gate, field and SOI buried oxides. Under positive bias holes created in the gate oxide will transport to the Si / SiO2 interface creating oxide-trapped charge. As a result of hole transport and trapping, hydrogen is liberated in the oxide which can create interface-trapped charge. The trapped charge will affect the threshold voltage and degrade the channel mobility. Neutralization of oxidetrapped charge by electron tunneling from the silicon and by thermal emission can take place over long periods of time. Neutralization of interface-trapped charge is not observed at room temperature. Analytical models are developed that account for the principal effects of total dose in MOS devices under different gate bias. The intent is to obtain closed-form solutions that can be used in circuit simulation. Expressions are derived for the aging effects of very low dose rate radiation over long time periods.

Radiation Effects And Soft Errors In Integrated Circuits And Electronic Devices
Radiation Effects And Soft Errors In Integrated Circuits And Electronic Devices

Author: Ronald D Schrimpf

Publisher: World Scientific

Published: 2004-07-29

Total Pages: 349

ISBN-13: 9814482153

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This book provides a detailed treatment of radiation effects in electronic devices, including effects at the material, device, and circuit levels. The emphasis is on transient effects caused by single ionizing particles (single-event effects and soft errors) and effects produced by the cumulative energy deposited by the radiation (total ionizing dose effects). Bipolar (Si and SiGe), metal-oxide-semiconductor (MOS), and compound semiconductor technologies are discussed. In addition to considering the specific issues associated with high-performance devices and technologies, the book includes the background material necessary for understanding radiation effects at a more general level.

Radiation Effects in Semiconductors
Radiation Effects in Semiconductors

Author: Krzysztof Iniewski

Publisher: CRC Press

Published: 2018-09-03

Total Pages: 432

ISBN-13: 1439826951

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Space applications, nuclear physics, military operations, medical imaging, and especially electronics (modern silicon processing) are obvious fields in which radiation damage can have serious consequences, i.e., degradation of MOS devices and circuits. Zeroing in on vital aspects of this broad and complex topic, Radiation Effects in Semiconductors addresses the ever-growing need for a clear understanding of radiation effects on semiconductor devices and circuits to combat potential damage it can cause. Features a chapter authored by renowned radiation authority Lawrence T. Clark on Radiation Hardened by Design SRAM Strategies for TID and SEE Mitigation This book analyzes the radiation problem, focusing on the most important aspects required for comprehending the degrading effects observed in semiconductor devices, circuits, and systems when they are irradiated. It explores how radiation interacts with solid materials, providing a detailed analysis of three ways this occurs: Photoelectric effect, Compton effect, and creation of electron-positron pairs. The author explains that the probability of these three effects occurring depends on the energy of the incident photon and the atomic number of the target. The book also discusses the effects that photons can have on matter—in terms of ionization effects and nuclear displacement Written for post-graduate researchers, semiconductor engineers, and nuclear and space engineers with some electronics background, this carefully constructed reference explains how ionizing radiation is creating damage in semiconducting devices and circuits and systems—and how that damage can be avoided in areas such as military/space missions, nuclear applications, plasma damage, and X-ray-based techniques. It features top-notch international experts in industry and academia who address emerging detector technologies, circuit design techniques, new materials, and innovative system approaches.

Radiation Effects in Advanced Semiconductor Materials and Devices
Radiation Effects in Advanced Semiconductor Materials and Devices

Author: C. Claeys

Publisher: Springer Science & Business Media

Published: 2013-11-11

Total Pages: 424

ISBN-13: 3662049740

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This wide-ranging book summarizes the current knowledge of radiation defects in semiconductors, outlining the shortcomings of present experimental and modelling techniques and giving an outlook on future developments. It also provides information on the application of sensors in nuclear power plants.

Radiation Effects on Oxides, Semiconductors, and Devices
Radiation Effects on Oxides, Semiconductors, and Devices

Author: Joseph R. Srour

Publisher:

Published: 1975

Total Pages: 205

ISBN-13:

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Contents: Oxide studies--Hole and electron transport in SiO2 films, Charge transport studies in SiO2: processing effects and implications for radiation hardening, Ionizing dose rate effects in MOS devices, Experiments on MOS capacitors fabricated on a p-type silicon substrate, Ion microanalyzer measurements on SiO2 films, Effects of bias polarity on current flow in SiO2 under electron beam injection, Studies of charge transport and charge buildup in pure SiO2 and Al+-implanted pure SiO2, Determination of hole mobility in SiO2 films; Semiconductor studies.

Defects in Microelectronic Materials and Devices
Defects in Microelectronic Materials and Devices

Author: Daniel M. Fleetwood

Publisher: CRC Press

Published: 2008-11-19

Total Pages: 772

ISBN-13: 1420043773

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Uncover the Defects that Compromise Performance and ReliabilityAs microelectronics features and devices become smaller and more complex, it is critical that engineers and technologists completely understand how components can be damaged during the increasingly complicated fabrication processes required to produce them.A comprehensive survey of defe