Proposed project will elaborate new measuring method based on the electro-ultrasonic spectroscopy for testing of materials and electronic devices such as thin and thick film resistors, capacitors and varistors. Aim of this work is theoretical explanation of new effects which are the results of interaction between phonon corresponding to the elastic waves and electron transport near cracks and inhomogenities in the device structure. Nonlinear electro-ultrasonic spectroscopy is sensitivite to all cracks in conductive thick film resistors and it gives information on material quality and reproducibility of technology. Resonant Ultrasonic Spectroscopy (RUS) allows differentiating the elements with different physical structure due to some discrepancies in the technological process of their production. They can be used as precursory phenomena for devices. We can use this method to compare different preparation technologies and defect creation during the operating life time. Other application field could be in the electronics e.g. cracks and inhomogenities creation in electronic devices such as thin film resistors or ceramic capacitors. Similar application is supposed in the technology where high reliability and quality are demanded. Application of detailed tests of products for possible materials degradation or for the deviation from the demanded material quality is a categorical request of present industry. Each produced item is regularly examined, which requires the application of non-destructive testing (NDT). Proposed methods will be verified by known low frequency noise spectroscopy, electrical nonlinearity testing method, and using Atomic Force Microscope (AFM).

Popis česky
Proposed project will elaborate new measuring method based on the electro-ultrasonic spectroscopy for testing of materials and electronic devices such as thin and thick film resistors, capacitors and varistors. Aim of this work is theoretical explanation of new effects which are the results of interaction between phonon corresponding to the elastic waves and electron transport near cracks and inhomogenities in the device structure. Nonlinear electro-ultrasonic spectroscopy is sensitivite to all cracks in conductive thick film resistors and it gives information on material quality and reproducibility of technology. Resonant Ultrasonic Spectroscopy (RUS) allows differentiating the elements with different physical structure due to some discrepancies in the technological process of their production. They can be used as precursory phenomena for devices. We can use this method to compare different preparation technologies and defect creation during the operating life time. Other application field could be in the electronics e.g. cracks and inhomogenities creation in electronic devices such as thin film resistors or ceramic capacitors. Similar application is supposed in the technology where high reliability and quality are demanded. Application of detailed tests of products for possible materials degradation or for the deviation from the demanded material quality is a categorical request of present industry. Each produced item is regularly examined, which requires the application of non-destructive testing (NDT). Proposed methods will be verified by known low frequency noise spectroscopy, electrical nonlinearity testing method, and using Atomic Force Microscope (AFM).

Klíčová slova
NDT, Elektro-ultrazvuková spektroskopie, resonanční ultrazvuková spektroskopie, elektronické materiály, elektronické součástky

Klíčová slova česky
NDT, Electro-ultrasonic spectroscopy, Resonant ultrasonic spectroscopy, electronic materials, electronic devices