Gør som tusindvis af andre bogelskere
Tilmeld dig nyhedsbrevet og få gode tilbud og inspiration til din næste læsning.
Ved tilmelding accepterer du vores persondatapolitik.Du kan altid afmelde dig igen.
Scanning Probe Lithography (SPL) describes recent advances in the field of scanning probe lithography, a high resolution patterning technique that uses a sharp tip in close proximity to a sample to pattern nanometer-scale features on the sample.
Covering the challenges faced by design engineers in microsystems packaging, this book details the variety of materials that can be used as well as the advantages and disadvantages of each. It places emphasis on materials, technologies, and assembly processes and guidelines that are being used in production and are production worthy. The reader is assumed to have general understanding of micromachined concepts and semiconductor fabrication technology.
The field of "microelectromechanical systems," or "MEMS," has gradually evolved from a "discipline" populated by a small group of researchers to an "enabling technology" supporting a variety of products in such diverse areas as mechanical and inertial sensors, optical projection displays, telecommunications equipment, and biology and medicine.
Although standard IC fabrication steps, particularly lithographic techniques, are leveraged heavily in the creation of MEMS devices, additional customized and novel micromachining techniques are needed to develop sophisticated MEMS structures.
Bringing Scanning Probe Microscopy Up to Speed introduces the principles of scanning probe systems with particular emphasis on techniques for increasing speed. First, fast scanning systems for single probes are treated and, second, systems with multiple probes operating in parallel are presented.
Micromachined Ultrasound-Based Proximity Sensors presents a packaged ultrasound microsystem for object detection and distance metering based on micromachined silicon transducer elements. The micromachined silicon transducer elements were fabricated using industrial IC technology combined with standard silicon micromachining techniques.
The book also presents a number of topics in advanced robotics and an abundance of applications of MEMS in robotics, like reconfigurable modular snake robots, magnetic MEMS robots for drug delivery and flying robots with adjustable wings, to name a few.
The Microsystems Series has as its goal the creation of an outstanding set of textbooks, references, and monographs on subjects that span the broad field of microsystems.
Augmented Materials and Smart Objects investigates the issues required to ensure technology platforms capable of being seamlessly integrated into everyday objects.
Scanning Probe Lithography (SPL) describes recent advances in the field of scanning probe lithography, a high resolution patterning technique that uses a sharp tip in close proximity to a sample to pattern nanometer-scale features on the sample.
A textbook for senior undergraduate and graduate level students that offers a novel and systematic look into the dynamics of MEMS. It includes numerous solved examples together with the proposed problems.
The field of "microelectromechanical systems," or "MEMS," has gradually evolved from a "discipline" populated by a small group of researchers to an "enabling technology" supporting a variety of products in such diverse areas as mechanical and inertial sensors, optical projection displays, telecommunications equipment, and biology and medicine.
Augmented Materials and Smart Objects investigates the issues required to ensure technology platforms capable of being seamlessly integrated into everyday objects.
Shows how to design and fabricate optical microsystems using technologies and original architectures. This work explains a barcode scanner, laser projection mirror and a microspectrometer, starting from the system conception, discussing simulations, choice of cleanroom technologies, design, fabrication, and device test to the system assembly.
This book presents the necessary analytical and computational tools for MEMS designers to model and simulate most known MEMS devices, structures, and phenomena. In also provides analysis and treatment for the most common static and dynamic phenomena in MEMS.
Provides information on microfluidics, a research field which finds its niche in biomedical devices, especially on lab-on-a-chip and related products. This book uses an example of micropump to illustrate a complete cycle in development of microfluidic devices which include literature review, designing and modelling, fabrication and testing.
The book also presents a number of topics in advanced robotics and an abundance of applications of MEMS in robotics, like reconfigurable modular snake robots, magnetic MEMS robots for drug delivery and flying robots with adjustable wings, to name a few.
Explosive growth in the field of microsystem technology (MST) has introduced a variety of promising products in major disciplines from microelectronics to life sciences.
This book provides solutions to several common reliability issues in microsystem packaging. It teaches the reader methods to understand and predict failure mechanisms at interfaces between dissimilar materials.
Explosive growth in the field of microsystem technology (MST) has introduced a variety of promising products in major disciplines from microelectronics to life sciences.
Although standard IC fabrication steps, particularly lithographic techniques, are leveraged heavily in the creation of MEMS devices, additional customized and novel micromachining techniques are needed to develop sophisticated MEMS structures.
Over the past two decades, technologies for microsystems fabrication have made considerable progress. Methodology for the Modeling and Simulation of Microsystems is the first book to give an overview of the problems associated with modeling and simulation of microsystems.
Heat Convection in Micro Ducts focuses on the fundamental physics of convective heat transfer in microscale and specific applications such as: microchannel heat sinks, micro heat pipes, microcoolers and micro capillary pumped loops.
Bringing Scanning Probe Microscopy Up to Speed introduces the principles of scanning probe systems with particular emphasis on techniques for increasing speed. First, fast scanning systems for single probes are treated and, second, systems with multiple probes operating in parallel are presented.
Micromachined Ultrasound-Based Proximity Sensors presents a packaged ultrasound microsystem for object detection and distance metering based on micromachined silicon transducer elements. The micromachined silicon transducer elements were fabricated using industrial IC technology combined with standard silicon micromachining techniques.
Discusses experimental and theoretical studies of heat transfer in transistors and interconnects. This book reports techniques for determining the thermal transport properties of dielectric passivation layers and ultra-thin silicon-on-insulator (SOI) layers.
Tilmeld dig nyhedsbrevet og få gode tilbud og inspiration til din næste læsning.
Ved tilmelding accepterer du vores persondatapolitik.