7M07110801- Nanotechnologies and nanomaterials

Nanotechnologies and nanomaterials are a new direction in science and technology, born at the junction of several traditional areas: photonics, electronics and microelectronics. A specialist in the field of nanotechnology is engaged in the development, research and use of electronic devices with elements ranging from microns to nanometers. Examples of such systems are airbag sensors in automobiles, microscopic guided mirrors that have found application in well-known DLP projectors, including home theaters. Also, these are various sensors of various physical quantities: acceleration, changes in the angle of rotation (gyroscopes), temperatures, microphones. Already, very many people use sensors developed by microsystem technicians (MEMS devices), although most do not even know about it. MEMS gyroscopes and accelerometers are built into modern cell phones, with the help of which, for example, you can determine the trajectory of movement of the owner of such a phone or determine whether the load has undergone critical mechanical effects, where and when.

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What you learn: key disciplines


Nanophotonics

  • The main laws of interaction of optical radiation with nanostructures.
  • The main mechanisms of interaction of laser radiation with matter and methods for modeling these processes.
  • Physical bases and methods of photonics and optics of nanostructures.
  • Methods of spectral analysis of nanostructures, skills theoretical study of the laws of formation of the spectral characteristics of nanostructures The main laws of interaction of optical radiation with nanostructures.
  • The main mechanisms of interaction of laser radiation with matter and methods for modeling these processes.
  • Physical bases and methods of photonics and optics of nanostructures.
  • Methods of spectral analysis of nanostructures, skills theoretical study of the laws of formation of the spectral characteristics of nanostructures
  • Modeling and design of micro and nano systems

  • The use of modeling methods, evaluation, forecasting and optimization of technological processes and properties of micro-and nano-systems.
  • Methods of formal description of the components of micro- and nanosystems; methods of calculation and modeling of basic components of micro and nanosystems.
  • Methods for calculating and modeling basic processes in the manufacture of components of micro- and nanosystems.
  • Basic physico-mathematical and physico-chemical models of materials and components of nano-and microsystems.
  • Nanotechnology and nanomaterials in electronics

  • Features of the influence of nanomaterials on the properties of metals.
  • Methods of nanotechnology for the production of materials and research.
  • Basics of process equipment, installations and electronics devices
  • Laser technology in micro and nanosystem technology

  • Design of laser technology, measurement of the main parameters of laser radiation.
  • Physics of the processes that distinguish lasing from other types of radiation arising from the operation of lasers.
  • Modern laser technology

  • You can work:

    Graduates of the educational program "Nanotechnologies and Nanomaterials (by Applications)" are prepared for professional activity, which is used in the creation, research, design, production and operation of materials, devices and devices of electronics and nano- and microsystem technology for various functional purposes. They may occupy the positions of engineer, process engineer, design engineer, researcher, at the enterprises of the electronic industry, research institutes and laboratories, enterprises of the defense industry.


    Our address:

    Karaganda, Universitetskaya street 28, building №2
    tel.: 8 (7212) 35-64-50 (внут. 1108, 1019)
    e-mail: physics@ksu.kz