The demand for more complex and multifunctional micro systems with enhanced performance characteristics for military applications is driving the electronics industry toward the use of best-of-breed materials and device technologies. Threedimensional (3-D) integration provides a way to build complex microsystems through bonding and interconnection of individually optimized device layers without compromising system performance and fabrication yield. Bonding of device layers can be achieved through polymer bonding or metal-metal interconnect bonding with a number of metalmetal systems. RTI has been investigating and characterizing Cu-Cu and CulSn-Cu processes for high density area array imaging applications, demonstrating high yield bonding be...
This book explains for readers how 3D chip stacks promise to increase the level of on-chip integrati...
Over the past few decades, the semiconductor industry has been advancing by increasing transistor de...
Research and development efforts on chip and wafer-scale 3D integration for system miniaturization h...
The demand for more complex and multifunctional micro systems with enhanced performance characterist...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Materials Science and Engineering, 20...
Abstract: We present results of the development of high-density 3-D interconnect technology that is ...
The solder is the one of the most interconnect joining material in the denser electronic interconnec...
The first part of the research is an overview of existing three-dimensional (3-D) integration techno...
Continuous scaling of transistor physical dimensions led to the tremendous growth in semiconductor i...
Advancement of the current Two-Dimensional integrated circuits (2D-ICs) is limited by increasing int...
been developed for the fabrication of a new 3-D shared-memory test chip. This 3-D technology is base...
Microsystems technology is increasingly comprised of multi-function devices and materials. Heterogen...
Abstract-3D integration is a fast growing field that encompasses different types of technologies. Th...
The device density of Integrated Circuits (ICs) manufactured by current VLSI technology is reaching ...
This paper describes recent progress in a continuing program to develop and apply RM³ (recess mounti...
This book explains for readers how 3D chip stacks promise to increase the level of on-chip integrati...
Over the past few decades, the semiconductor industry has been advancing by increasing transistor de...
Research and development efforts on chip and wafer-scale 3D integration for system miniaturization h...
The demand for more complex and multifunctional micro systems with enhanced performance characterist...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Materials Science and Engineering, 20...
Abstract: We present results of the development of high-density 3-D interconnect technology that is ...
The solder is the one of the most interconnect joining material in the denser electronic interconnec...
The first part of the research is an overview of existing three-dimensional (3-D) integration techno...
Continuous scaling of transistor physical dimensions led to the tremendous growth in semiconductor i...
Advancement of the current Two-Dimensional integrated circuits (2D-ICs) is limited by increasing int...
been developed for the fabrication of a new 3-D shared-memory test chip. This 3-D technology is base...
Microsystems technology is increasingly comprised of multi-function devices and materials. Heterogen...
Abstract-3D integration is a fast growing field that encompasses different types of technologies. Th...
The device density of Integrated Circuits (ICs) manufactured by current VLSI technology is reaching ...
This paper describes recent progress in a continuing program to develop and apply RM³ (recess mounti...
This book explains for readers how 3D chip stacks promise to increase the level of on-chip integrati...
Over the past few decades, the semiconductor industry has been advancing by increasing transistor de...
Research and development efforts on chip and wafer-scale 3D integration for system miniaturization h...