Micro-And Nano- Manufacturing
Nano is a component that represents the quantity of one billionth. It is primarily used with the metric system. This prefix denotes a variable of 10^9 or 0.000000001. It is frequently encountered in electronics and science for prefixing units of span and time.
One nanometer is all about the length of a fingernail that grows
in one second.
Micro means “little”. It can be used to signal a smaller than typical scale (infinitesimal scale), as opposed to prefix such as mega and macro, which is often used to indicate a larger than average scale.
Micro may refer to:
Micro is a prefix in the SI and other systems of units that denotes a factor of 10^6 (one millionth).
Nano-manufacturing and nanotechnology present a great challenge to the researchers and engineers as they manipulate molecules and atoms to create single artifacts and submicron parts or systems.
Nano and micro provide a thorough treatment of established Micro and Nano manufacturing techniques and addresses the needs of practicing manufacturing engineers by employing research and created lab manufacturing techniques to a wide variety of substances.
Engineers are seeking more knowledge of how Micro and Nano devices are designed and invented, will learn:
— Manufacturing at the Micro and Nano-scales
— Using bulk and surface micromachining techniques such as LiGA and deep x-ray lithography to produce semiconductors
— Micromachining Producing master forms
The ASME Journal of Micro and Nano-Manufacturing provides a forum for the rapid dissemination of original theoretical, applied research in the areas of Micro and Nano-manufacturing that are related to process innovation, accuracy and precision, improvement, material usage, streamlined equipment development, environmental and life cycle analysis and predictive modeling of manufacturing procedures with feature sizes less than one hundred micrometers.
Papers addressing special needs in emerging regions include water, drug manufacturing, biomedical devices and energy.
Different strategies are required by manipulation at the Micro and Nano levels than at the macro scale as well as the development of associated sensing and actuation strategies to be able to command the manipulators. Standards are mainly absent from this domain and measurements are typically made by using cumbersome equipment that are not suited for manufacturing environments. The long-term aim of this project is do not provide difficult sensors, manipulators and practical production scale-up in order to enable widespread use of Micro and Nano scale manufacturing. Applications of Micro and Nano scale optics are widespread in every industry, which uses light. A short list of sample use places such as communications, solar power, biomedical sensors, laser-assisted production, and also a broad array of consumer electronics. Understanding both limits and the chances for producing Micro and Nano optics is useful to anyone interested in these areas. Our service offers an introduction of manufacturing technologies for Micro and Nano optics that range from refractive micro lenses to defractive optics to sub-wavelength optical constructions.
After a short summary of key applications and theoretical background for these devices, the principles of photolithography are introduced. With this particular backdrop, a wide selection of lithographic and non-lithographic manufacturing techniques for Micro and Nano-optics are discussed in detail followed by a survey of testing procedures. Comparative advantages and disadvantages of different techniques are discussed for manufacturing in terms of both scalability and technical capabilities. The trends and problems in Micro and Nano optics manufacturing are also contemplated that are focusing on both technical challenges and producing infrastructure.
This course will enable the students to:
Describe example uses and vital ‘rules of thumb’ for Micro and Nano optics
Clarify basic principles of photolithography and the way in which they apply to the manufacturing of Micro and Nano optics
Compare the advantages, disadvantages of different techniques of manufacturing
Describe and compare operation and metrological testing procedures for Micro and Nano optics
Evaluate manufacturing fads and supporting process technologies for quantity production
The audience includes engineers, scientists, and supervisors who are interested in the design, manufacture, or use of Micro- Nano-optics, or systems that integrate these systems. A background in basic optics is helpful but not assumed.
Why examine Micro and Nano Manufacturing?
The program offered to those who already have a bachelor’s degree in science or engineering.
The foundation of the study plan is the similar research community at Vest fold University College, that makes up one of the three intellectual interchanges for Norway’s efforts in Micro and Nano- Manufacturing, with drawn-out cooperation with industry, academia and research institutions; regionally, internationally and globally. We have established collaboration with businesses that focus on research and development and spacious, clean rooms, along with good lab facilities.
Our services are accessible 24×7 by Micro and Nano Manufacturing experts as a way to direct students in order to handle the typical Micro and Nano-Manufacturing issues.
We provide 100% original assignments or homework. You can post your assignments at our company’s website in order to get the prompt Micro and Nano Manufacturing assignment help. Micro and Nano Manufacturing online tutoring sessions are available 24/7 by experienced Micro and Nano Manufacturing online experts.