Electron-Beam Technology in Microelectronic Fabrication
Electron-Beam Technology in Microelectronic Fabrication

Author: George Brewer

Publisher: Elsevier

Published: 2012-12-02

Total Pages: 377

ISBN-13: 0323153410

DOWNLOAD EBOOK

Electron-Beam Technology in Microelectronic Fabrication presents a unified description of the technology of high resolution lithography. This book is organized into six chapters, each treating a major segment of the technology of high resolution lithography. The book examines topics such as the physics of interaction of the electrons with the polymer resist in which the patterns are drawn, the machines that generate and control the beam, and ways of applying electron-beam lithography in device fabrication and in the making of masks for photolithographic replication. Chapter 2 discusses fundamental processes by which patterns are created in resist masks. Chapter 3 describes electron-beam lithography machines, including some details of each of the major elements in the electron-optical column and their effect on the focused electron beam. Chapter 4 presents the use of electron-beam lithography to make discrete devices and integrated circuits. Chapter 5 looks at the techniques and economics of mask fabrication by the use of electron beams. Finally, Chapter 6 presents a comprehensive description and evaluation of the several high resolution replication processes currently under development. This book will be of great value to students and to engineers who want to learn the unique features of high resolution lithography so that they can apply it in research, development, or production of the next generation of microelectronic devices and circuits.

Methods and Materials in Microelectronic Technology
Methods and Materials in Microelectronic Technology

Author: Joachim Bargon

Publisher: Springer Science & Business Media

Published: 2013-03-09

Total Pages: 367

ISBN-13: 1468448471

DOWNLOAD EBOOK

The papers collected in this volume were presented at the International Symposium on Methods and Materials in Microelectronic Technology. This symposium was sponsored by IBM Germany, and it was held September 29 - October 1, 1982, in Bad Neuenahr, West Germany. The progress of semiconductor and microelectronic technology has become so rapid and the field so sophisticated that it is imperative to exchange the latest insight gained as frequently as it can be accomplished. In addition, it is peculiar for this field that the bulk of the investigations are carried out at industrial research and development laboratories, which makes some of the results less readily accessible. Because of these circumstances, the academic community, which among other things, is supposed to communicate the prog ress in this field to students of different disciplines, finds it rather difficult to stay properly informed. It was the intent of this IBM sponsored symposium to bring together key scientists from academic institutions, primarily from Europe, with principal investigators of the industrial scene. Accordingly, this symposium exposed technologists to scientists and vice versa. Scientific advances often lead directly to technological innovations. In turn, new technologies are often arrived at empirically and, because of that, are initially poorly understood. Scientific inquiry then attempts to probe these processes and phenomena in order to achieve a better understanding. Thus science and technology are intricately interconnected, and it is important that technical exchange between technolo gists and scientists is facilitated, since the problems are typically interdiscipli nary in nature.

Microlithography Fundamentals in Semiconductor Devices and Fabrication Technology
Microlithography Fundamentals in Semiconductor Devices and Fabrication Technology

Author: Saburo Nonogaki

Publisher: CRC Press

Published: 2018-10-08

Total Pages: 336

ISBN-13: 1482273764

DOWNLOAD EBOOK

"Explores the science and technology of lithographic processes and resist materials and summarizes the most recent innovations in semiconductor manufacturing. Considers future trends in lithography and resist material technology. Reviews the interaction of light, electron beams, and X-rays with resist materials."

Beam Processing Technologies
Beam Processing Technologies

Author: Norman G. Einspruch

Publisher: Academic Press

Published: 2014-12-01

Total Pages: 559

ISBN-13: 148321785X

DOWNLOAD EBOOK

Beam Processing Technologies is a collection of papers that deals with the miniaturization of devices that will be faster, consume less power, and cost less per operation or fabrication. One paper discusses metal oxide semiconductor (MOS) integrated circuit technology including the operation of devices whose lateral and vertical dimensions are scaled down. If the devices' silicon doping profiles are increased by the same scale factor, they can operate on lower voltages and currents, with the same performance. Another paper describes laser beam processing and wafer-scale integration as techniques to increase the number of devices on a silicon chip. Electron beam technologies can be used in many fabrication processes such as in microlithography, selective oxidation, doping, metrology. Ion beam applications depend on the presence of the ion introduced into the device (e.g. implantation doping), on pseudoelastic collisions (e.g. physical sputtering or crystal damage), and on inelastic scattering (e.g. polymer resist exposure). Silicon molecular beam epitaxy (SiMBE) can also grow high-quality layers at low temperature, particularly concerning germanium, especially as reagrds the growth system design and utilization of n- and p-type doping. Chemical beam epitaxy (CBE) is another epitaxial growth technique that can surpass MBE and metal organic chemical vapor deposition (MO-CVD). The collection is suitable chemical engineers, industrial physicists, and researchers whose work involve micro-fabrication and development of integrated circuits.

Microelectronic Materials and Processes
Microelectronic Materials and Processes

Author: R.A. Levy

Publisher: Springer Science & Business Media

Published: 2012-12-06

Total Pages: 992

ISBN-13: 9400909179

DOWNLOAD EBOOK

The primary thrust of very large scale integration (VLS!) is the miniaturization of devices to increase packing density, achieve higher speed, and consume lower power. The fabrication of integrated circuits containing in excess of four million components per chip with design rules in the submicron range has now been made possible by the introduction of innovative circuit designs and the development of new microelectronic materials and processes. This book addresses the latter challenge by assessing the current status of the science and technology associated with the production of VLSI silicon circuits. It represents the cumulative effort of experts from academia and industry who have come together to blend their expertise into a tutorial overview and cohesive update of this rapidly expanding field. A balance of fundamental and applied contributions cover the basics of microelectronics materials and process engineering. Subjects in materials science include silicon, silicides, resists, dielectrics, and interconnect metallization. Subjects in process engineering include crystal growth, epitaxy, oxidation, thin film deposition, fine-line lithography, dry etching, ion implantation, and diffusion. Other related topics such as process simulation, defects phenomena, and diagnostic techniques are also included. This book is the result of a NATO-sponsored Advanced Study Institute (AS!) held in Castelvecchio Pascoli, Italy. Invited speakers at this institute provided manuscripts which were edited, updated, and integrated with other contributions solicited from non-participants to this AS!.

Beam Technologies for Integrated Processing
Beam Technologies for Integrated Processing

Author: National Research Council

Publisher: National Academies Press

Published: 1992-02-01

Total Pages: 102

ISBN-13: 0309046351

DOWNLOAD EBOOK

Beam technologies play an important role in microelectronic component fabrication and offer opportunities for application in other manufacturing schemes. Emerging beam technologies that incorporate potential for sensors, control, and information processing have created new opportunities for integrated processing of materials and components. This volume identifies various beam technologies and their applications in electronics and other potential manufacturing processes. Recommendations for research and development to enhance the understanding, capabilities, and applications of beam technologies are presented.

The Physics of Microfabrication
The Physics of Microfabrication

Author: Ivor Brodie

Publisher: Springer Science & Business Media

Published: 2013-11-11

Total Pages: 518

ISBN-13: 1489921605

DOWNLOAD EBOOK

The Physical Electronics Department of SRI International (formerly Stanford Research Institute) has been pioneering the development of devices fabricated to submicron tolerances for well over 20 years. In 1961, a landmark paper on electron-beam lithography and its associated technologies was published by K. R. Shoulderst (then at SRI), which set the stage for our subsequent efforts in this field. He had the foresight to believe that the building of such small devices was actually within the range of human capabilities. As a result of this initial momentum, our experience in the technologies associated with microfabrication has become remarkably comprehensive, despite the relatively small size of our research activity. We have frequently been asked to deliver seminars or provide reviews on various aspects of micro fabrication. These activities made us aware of the need for a comprehensive overview of the physics of microfabrication. We hope that this book will fill that need.