<<
>>

Atomno-power microscopy

Recently the atomno-power microscopy (ACM) is one of intensively developed directions of diagnostics of structures with linear dimensions of the order of tens nanometrov and less. These structures can show the properties which are distinct from properties of volume materials.

C help ACM it is possible to observe and explore dot and linear flaws. In operation [91] by means of ACM authors observed formation of pyramidal islets at the expense of diffusion massoperenosa substances with formation lunki in exit places on a surface of a dislocation semiloop.

1.4.6

<< | >>
A source: Ivanova Alexandra Ivanovna. Micromorphology of a surface and dislocation structure of large-sized optical crystals of germanium and paratellurita. The dissertation on competition of a scientific degree of the candidate of physical and mathematical sciences. Tver - 2015. 2015

More on topic Atomno-power microscopy:

  1. 3.3 Comparison of effects on examination fraktalnyh properties nanorazmernyh films of gold, argentum: atomno-power and tunnel microscopy
  2. 2.2.3 Terminological field «Atomno-power inzheniring»
  3. the Terminological field «the Atomno-power infrastructure»
  4. the Terminological field «Atomno-power technology»
  5. nuclear power microscopy for examination of morphology of surfaces of thin films
  6. features DS of intermetallic compound H02Fe17 revealed on a surface (120) method of magnetic power microscopy.
  7. 4.2 Examination of a self-polarised state and local polarisation of thin films TSTS by a method of power microscopy of the piezoelectric response.
  8. Atomno-sloevoe sedimentation
  9. evolution of jurisdiction of Court of the European Union concerning power and the power policy
  10. Scanning zondovaja microscopy
  11. Scanning zondovaja microscopy
  12. methods of optical and electronic microscopy
  13. Optical microscopy of a surface of films
  14. the Chapter I. A role of Court of the European Union in pravotvorcheskoj activity of EU concerning power and the power policy
  15. 2.7. Time-resolved microscopy