single semiconducting integrated circuit
in the development of current technology, what is needed is an improvised tool / device. To obtain high-quality material in terms of both electrical, then the analysis of nano holds an important role. When we analyze the materials in nano size, then we will see how the distribution of electrons as seen from the images obtained by Image can be obtained using tools such as STEM / TEM, FESEM, High Resolotion TEM, SEM, and AFM to look at the morphology of the material in size nanoscale. Scientists Physics including scientists in the field of electronic materials and is currently trying to create materials to produce a material useful in optoelectronic industry. Sure is essentially a semiconductor technology that has been long known as semiconductors Si, GaAs, GaN semiconductor ingredients are warm-warm developed is based on GaAsN alloy and ZnO. During its development, semiconductor technology capable of producing diodes and transistors even the more complex the integrated circuit (IC) which developed into the microprocessor. Equipment / Devices was very instrumental in the discovery of computers, cellphones, and more advanced and will have developed a microprocessor-based device that is composed of a variety of electronic functions in a single semiconductor integrated (single semiconducting integrated circuit).
Nanoscale analysis plays an important enough to mengimprove methods used today. The analysis is not only used by experimentalists, but also incorporated in the theoretical physics research group incompressible substance or Condensed Matter Physics (CMP). They use physics equations (Schrodinger equation, bandstructure, Bloch wave functions, Nearly free electron model, and density functional theory) are able to predict the energy bands that can be generated by the desired material.