M
Marina A. Andreeva
Researcher at Moscow State University
Publications - 74
Citations - 454
Marina A. Andreeva is an academic researcher from Moscow State University. The author has contributed to research in topics: Synchrotron radiation & Hyperfine structure. The author has an hindex of 10, co-authored 69 publications receiving 395 citations.
Papers
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Nuclear resonant reflectivity data evaluation with the “REFTIM” program
TL;DR: The as mentioned in this paperTIM program as mentioned in this paper calculates and fits the time spectra of the nuclear resonant reflectivity for given grazing angles, the prompt and delayed reflectivity curves for any multilayer structure containing 57Fe, 149Sm, 151Eu or another Mossbauer nuclei with M1 transitions.
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Grazing incidence Mössbauer spectroscopy: new method for surface layers analysis: Part II. Theory of grazing incidence Mössbauer spectra
TL;DR: In this article, a general theory of grazing incidence Mossbauer spectroscopy (GIMS) spectra for an inhomogeneous layered medium is presented, and the computer simulation based on this theory shows that the shape of the resonant spectrum of the reflected wave intensity differs considerably from the case of a semi-infinite resonant mirror.
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Grazing incidence Mössbauer spectroscopy: new method for surface layers analysis: Part I. Instrumentation
TL;DR: In this article, a spectrometer for simultaneous investigation of Mossbauer spectra from specularly reflected gamma-rays, secondary electron, characteristic X-ray, and scattered gamma-ray was described.
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Nuclear resonant spectroscopy at Bragg reflections from periodic multilayers: Basic effects and applications
TL;DR: Nuclear resonant spectroscopy at Bragg reflections from periodic multilayers: Basic effects and applications as discussed by the authors, see Section 3.1.1] for more details.
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Strain-induced significant increase in metal-insulator transition temperature in oxygen-deficient Fe oxide epitaxial thin films
Kei Hirai,Daisuke Kan,Noriya Ichikawa,Ko Mibu,Yoshitaka Yoda,Marina A. Andreeva,Yuichi Shimakawa +6 more
TL;DR: The discovery of a strain-induced significant increase in the metal-insulator transition temperature of an oxygen-deficient Fe oxide epitaxial thin film demonstrates that epitaxials growth of oxygen- deficient oxides under substrate-induced strain is a promising route for exploring novel functionality.