Distribution of NQR relaxation times in the rotating frame of reference in micro-sized crystallites
... монография. Калининград, 2009.
3. Marino I.-G. Regularized Inverse Laplace Transform. URL: http://www. mathworks.com/matlabcentral/fileexchange/6523-rilt/content/rilt.m (дата обращения: 17.02.2015).
4. Sinyavsky N., Dolinenkov P., Kupriyanova G. The T1 and T2 Relaxation Times Distribution for the 35Cl and 14N NQR in Micro-composites and in Porous Materials // Applied Magnetic Resonance. 2014. Vol. 45. P. 471—482.
5. Синявский Н. Я. Влияние релаксации на двумерные ...
The detection of nuclear quadrupole resonance signals with limited data
... The Trinitrotoluene By Pure Nuclear Quadrupole Resonance. Appl. Magnetic Resonance, 29, 2005, 293—298.
11.
Синявский Н.
Я
.
Известия вузов. Физика
. 1990.
№
12. С. 91—92.
Molchanov S. V., Mozzhukhin G. V., Kupriyanova G. S.
nuclear quadrupolar resonance, autoregressive model, maximum entropy method.
101-111
Improving the efficiency of wavelet signal processing of NQR signals with modified Morlet basis functions
... non-stationary signals of magnetic resonance, essential localization separate a component of a multicomponent signal and to raise the accuracy of definition of spectral parameters strongly noisy signals.
1.
Mozzhukhin
G
.
V
.,
Molchanov
S
.
V
.,
Kupriyanova
G
.
S
.
et
al
.
The Detection of Industrial Explosives by the Quadrupole Resonance Method. Some Aspects of the Detection of Ammonium Nitrate and Trinitrotoluene // NATO Science for Peace and Security Series. Subseries: NATO Science for Peace ...
Application of radio physical methods for diagnostics of functional properties of magnetic tunnel transitions
... С. Л. Магнитные свойства термически напыленных тонких пленок Fe/GaAs (100) // Журнал технической физики.2002. Т. 72, вып. 8. С. 139—142.
Zubin A. Y., Astashenok A. V., Kupriyanova G. S.
ferromagnetic resonance, spintronics, linewidth, Gilbert damping constant
43-51
Structural identification of the sulfonamides by the methods of IR and NMR spectroscopy
... органических соединений. М., 1965.
7. Преч Э., Бюльманн Ф., Аффольтер К. Определение строения органических соединений. М., 2006.
Veremeychik Ya. V., Shurpik D. N., Kupriyanova G. S., Plemenkov V. V.
IR spectroscopy, NMR spectroscopy, sulfonamides
52-57
Multiple RuO2-chip thermometer for applications in 0,02—30 K range
... cryogenic thermometers //Cryogenics. 1998. Vol. 38. P. 221—225.
5. AVS-47 AC-resistance bridge, Instruction manual, 1996.
6. Lounasmaa O. V. Experimental principles and methods below 1K, Academic press. London ; New York, 1974.
Sheludyakov S., Kupriyanova G., Ahokas J., Vasiliev S. A.
Low-temperature physics, thermometry below 1K, resistance thermometry
109-115
Ferromagnetic resonance research of multilayer structures for magnetic tunnel junctions
... Magen
С
., Snoeck E. et al.
// J. Appl. Phys. 2008. 104.
Р
. 013913.
8.
Park C., Zhu J-G. et al.
// IEEE Trans. On Magn. 2005.
Р. 2691.
Goihman A. Yu., Zenkevich A. V., Prohorenko E. E., Chernenkov O. V., Alievsky A. A., Zyubin A. Yu., Kupriyanova G. S.
ferromagnetic resonance, spintronics, hysteresis.
64-71
10.5922/2223-2095-2009-4-13
The application of adaptive wavelet filtration for detection of signals of nuclear quadrupole resonanse
... shrinkage //
J. Amer.
Statist. Assoc.
1997. Vol. 92, № 440. P. 1413—1421.
11.
Кобзарь Ф.
И.
Прикладная математическая статистика. М., 2006.
Molchanov S. V., Ruban O. V., Mershiev I. G., Mozzhukhin G. V., Kupriyanova G. S.
nuclear quadruple resonance, wavelet, noise.
71-80
10.5922/2223-2095-2009-4-14
Magnetic resonance properties of Fe3Si/ MgO thin film structures
... orthorhombic perovskites
// Phys. Rev. 2010. B N
81
. 144418.
17
. Zakeri Kh., Barsukov I., Utochkina N.
K., Römer F.
M. et al.
Magnetic properties of epitaxial Fe3Si
∕
MgO(001) thin films
// Phys. Rev. 2007. B
N
76. 214421.
Astashenok A., Kupriyanova G., Goihman A., Zubin А., Orlova A.
ferromagnetic resonance, spintronics.
60-68
Magnetiс–resonance properties of Fe3O4 thin films
... Nicolet M.
A.
Backscattering Spectrometry:
New York
, Academic Press, P. 384 (1978).
17.
L
. Haggstrom et al
. // Hyp. Int. 5, 201 (1978)
.
18.
Mantovan R., Fanciulli M., Zenkevich A., Goikhman A., Nevolin N.
(unpublished).
Goihman A.Yu., Kupriyanova G. S., Prohorenko E. E., Chernenkov O. V.
ferromagnetic resonance, magnetic tunneling junction, hysteresis.
81-88