full list of my publications - Missouri University of Science and
Transcript of full list of my publications - Missouri University of Science and
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LIST OF PUBLICATIONS (in Russian and in English) by
Koledintseva (Sizenova), Marina Yurjevna (last updated August 30, 2013)
Structure of the List of Publications:
I. Book Chapters
II. Journal Publications (by years)
III. Proceedings of International Symposia and Conferences
IV. Technical Reports (2000-2012)
V. Dissertations
VI. Inventions
VII. Advised M.S. Theses and Ph.D. Dissertations
I. Book Chapters
1. K.N. Rozanov, M.Y. Koledintseva, and E.P. Yelsukov, “Frequency-dependent Effective
Material Parameters of Composites as a Function of Inclusion Shape”, in Composites and
Their Properties, ed. Ning Hu, ISBN 978-953-51-0711-8, InTech, August, 2012, Chapter 15,
pp. 331-358.
2. M. Y. Koledintseva, A. E. Khanamirov, and A.A. Kitaitsev, “Advances in Engineering and
Applications of Hexagonal Ferrites in Russia, in Ceramic Materials/ Book 1, ed. C. Sikalidis,
InTech, ISBN 978-953-307-350-7, Sept. 2011, Chapter 4, pp. 61-86
3. M. Koledintseva, K.N. Rozanov, and J. Drewniak, “Engineering, modeling and testing of
composite absorbing materials for EMC applications” in Advances in Composite Materials -
Ecodesign and Analysis, ed. Brahim Attaf, InTech, ISBN 978-953-307-150-3, March 2011,
Chapter 13, pp. 291-316
II. Journal Papers
2013
4. M.Y. Koledintseva, A.V. Rakov, A.I. Koledintsev, J.L. Drewniak, and S. Hinaga, “Improved
experiment-based technique to characterize dielectric properties of printed circuit boards”,
IEEE Trans. Electromag. Compat. (submitted Feb. 2013)
5. F. de Paulis, M.H. Nisanci, A. Orlandi, M.Y. Koledintseva, and J.L. Drewniak, “Design of
homogeneous and composite materials from shielding effectiveness specifications”, IEEE
Trans. Electromag. Compat. (submitted April 2013, accepted August 2013)
6. J. Shenhui, Y.-J. Zhang, J. Li, D. Liu, Marina Y. Koledintseva, D.J. Pommerenke, J.L.
Drewniak, and J. Fan, “Extraction of permittivity and permeability for ferrites and flexible
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magneto-dielectric materials using genetic algorithm”, IEEE Trans. Electromag. Compat.
(submitted April 2013)
7. X. Guo, D.R. Jackson, J. Chen, M.Y. Koledintseva, S. Hinaga, and J.L. Drewniak, “An
analysis of conductor surface roughness effects on signal propagation for stripline
interconnects”, IEEE Trans. Electromag. Compat. (accepted Feb. 2013)
2012
8. M.Y. Koledintseva, J. Huang, J.L. Drewniak, R.E. DuBroff, and B. Archambeault, “Modeling
of metasheets embedded in dielectric layers”, Progress In Electromagnetics Research, PIER
B, vol. 44, 2012, pp. 89-116.
9. C. Singh, S. Bindra Narang, and M.Y. Koledintseva, “Microwave absorption characteristics
of substituted Ba0.5Sr0.5MxFe12-2xO19 sintered ferrite at X-band”, Microwave and Optical
Technology Letters, Wiley, vol. 54, no. 7, July 2012, pp. 1661-1665.
10. A.E. Khanamirov, M.Y. Koledintseva, and A.A. Kitaitsev, “Studied applications of
hexaferrites”, Radiotekhnika i Electronika (Journal of Communications Technology and
Electronics), Moscow, Russia (in Russian), 2012 – accepted.
11. M. Koledintseva, V.V. Khilkevich, A.G. Razmadze, A.Y. Gafarov, S. De, and J. L. Drewniak,
“Evaluation of absorptive properties and permeability of thin sheet magneto-dielectric
materials”, Journal of Magnetism and Magnetic Materials, vol. 324, issue 21, Elsevier, 2012,
pp. 3389-3392.
12. A. Koul, M.Y. Koledintseva, S. Hinaga, and J.L. Drewniak, “Differential extrapolation
method for separating dielectric and rough conductor losses in printed circuit boards”, IEEE
Trans. Electromag. Compat., vol. 54, no. 2, Apr. 2012, pp. 421-433.
13. M.H. Nisanci, F. de Paulis, M.Y. Koledintseva, J. L. Drewniak, and A. Orlandi, “From
Maxwell Garnett to Debye model for electromagnetic simulation of composite dielectrics.
Part II: Random cylindrical inclusions”, IEEE Trans. Electromag. Compat., vol. 54, no. 2,
2012, pp. 280-289.
14. F. de Paulis, M.H. Nisanci, M.Y. Koledintseva, J. L. Drewniak, and A. Orlandi, “Derivation
of homogeneous permittivity of composite materials with aligned cylindrical inclusions for
causal electromagnetic simulations”, Progress In Electromagnetics Research B, vol. 37, pp.
205-235, 2012.
15. K.N. Rozanov, M.Y. Koledintseva, and J.L. Drewniak, “A mixing rule for predicting
frequency dependence of material parameters in magnetic composites”, Journal of Magnetism
and Magnetic Materials, vol. 324, issue 6, 2012, pp. 1063-1066.
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2011
16. F. de Paulis, M.H. Nisanci, M.Y. Koledintseva, J. L. Drewniak, and A. Orlandi, “From
Maxwell Garnett to Debye model for electromagnetic simulation of composite dielectrics.
Part I: Random spherical inclusions”, IEEE Trans. Electromag. Compat., vol. 53, no. 4, 2011,
pp. 933 - 942.
17. M.Y. Koledintseva, A.G. Razmadze, A.Y. Gafarov, V.V. Khilkevich, J.L. Drewniak, and T.
Tsutaoka, “Attenuation in extended structures coated with thin magneto-dielectric absorber
layer”, Progress In Electromagnetics Research, vol. 118 , pp. 441-459.
18. M. Y. Koledintseva, J. Xu, S. De, J.L. Drewniak, Y. He, and R. Johnson, “Systematic analysis
and engineering of absorbing materials containing magnetic inclusions for EMC
applications”, IEEE Trans. Magnetics, vol. 47, no. 2, Feb. 2011, pp. 317-323.
2010
19. J. Xu, M. Koledintseva, Y. Zhang, Y. He, R.E. DuBroff, J.L. Drewniak, J. Zhang, "Complex
permittivity and permeability measurements and finite-difference time domain simulation of
ferrite materials", IEEE Trans. Electromag. Compat. 2010, vol. 52, no. 4, pp. 878-887.
20. J. Zhang, M. Koledintseva, G. Antonini, J. Drewniak, A. Orlandi, and K. Rozanov, “Planar
transmission line method for characterization of printed circuit board dielectrics”, Progress In
Electromagnetics Research, PIER , vol. 102, March 2010, pp. 267-286.
21. J. Zhang, J.L. Drewniak, D.J. Pommerenke, M.Y. Koledintseva, R.E. DuBroff, W. Cheng, Z.
Yang, Q.B.Chen, and A.Orlandi, “Causal RLGC(f) models of transmission lines based on
measured S-parameters”, IEEE Trans. Electromag. Compat., vol. 52, no. 1, Feb. 2010, pp.
189-198.
2009
22. M.Y. Koledintseva, R.E. DuBroff, and R.W. Schwartz, "Maxwell Garnett rule for dielectric
mixtures with statistically distributed orientations of inclusions", Progress In
Electromagnetics Research, PIER vol. 99, 2009, pp. 131-148.
23. M. Koledintseva, J. Drewniak, R. DuBroff, K. Rozanov, and B. Archambeault, “Modeling of
shielding composite materials and structures for microwave frequencies”, Progress In
Electromagnetics Research B (PIER B), vol. 15, June 2009, pp. 197-215.
24. S.B. Narang, C. Singh, I.S. Hudiara, Y. Bai, and M.Y. Koledintseva, “Hysteresis analysis of
Co-Ti substituted M-type Ba-Sr hexagonal ferrite”, Materials Letters, Elsevier, vol. 63, no.
22, Sept. 2009, pp. 1921-1924.
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25. M. Y. Koledintseva, S. K. Patil, R. W. Schwartz, W. Huebner, K. Rozanov, J. Shen, and J.
Chen, “Prediction of effective permittivity of diphasic dielectrics as a function of frequency“,
IEEE Trans. on Dielectrics and Electrical Insulation, vol. 16, no. 3, June 2009, pp. 793-808.
26. S. Sun, D. Pommerenke, J. Drewniak, G. Chen, L. Xue, M. Brower, and M. Koledintseva, “A
novel TDR-based coaxial cable sensor for crack/strain sensing in reinforced concrete
structures”, IEEE Trans. Instrumentation and Measurements, vol. 58, no. 8, Aug. 2009, pp.
2714-2725.
27. M. Koledintseva, J. Drewniak, Y. Zhang, J. Lenn, and M. Thoms, “Engineering of ferrite-
based composite materials for shielding enclosures”, Journal of Magnetism and Magnetic
Materials (JMMM), vol. 321, March 2009, pp. 730-733.
2008
28. S. Patil, M. Koledintseva, R. Schwartz, and W. Huebner, “Predictions of effective
permittivity of diphasic dielectrics using an equivalent capacitance model”, Journal of
Applied Physics, vol. 104, 074108 (2008), published October 7, 2008.
29. J. Zhang, M.Y. Koledintseva, J.L. Drewniak, D.J. Pommerenke, R.E. DuBroff, Z. Yang, W.
Cheng, K.N. Rozanov, G. Antonini, and A. Orlandi, “Reconstruction of dielectric material
properties for dispersive substrates using a genetic algorithm”, IEEE Trans. Electromagn.
Compat., vol. 50, no. 3, August 2008, pp. 704-714.
30. S.K. Patil, M.Y. Koledintseva, and R.W. Schwartz, “Modeling of field distribution and
energy storage in diphasic dielectrics”, Applied Computational Electromagnetics Society
Newsletter, vol. 23, no. 1, March 2008, pp. 51-58.
31. M.Y. Koledintseva, J.L. Drewniak, T.P. Van Doren, D.J. Pommerenke, M. Cocchini, and
D.M. Hockanson, “Method of edge currents for calculating mutual external inductance in a
microstrip structure”, Progress in Electromagnetics Research (PIER), vol. 80, Jan. 2008, pp.
197-224.
32. M.Y. Koledintseva, J.L. Drewniak, T.P. Van Doren, D.J. Pommerenke, M. Cocchini, and
D.M. Hockanson, “Mutual external inductance in stripline structures”, Progress in
Electromagnetics Research (PIER), vol. 80, Jan. 2008, pp. 349-368.
2007
33. M.Y. Koledintseva, R.E. DuBroff, R.W. Schwartz, and J.L.Drewniak, “Double statistical
distribution of conductivity and aspect ratio of inclusions in dielectric mixtures at microwave
frequencies”, Progress in Electromagnetics Research (PIER), vol. 77, pp. 193-214, 2007.
34. M.Y. Koledintseva and A.A. Kitaitsev, “Analysis of interaction between a
crystallographically uniaxial ferrite resonator and a Hall-effect transducer”, Progress in
Electromagnetics Research (PIER) vol. 74, 2007, pp. 1-19.
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2006
35. M.Y. Koledintseva, V.V. Bodrov, I.V. Sourkova, M.M. Sabirov, and V.I. Sourkov, “Unified
spectral technique application for study of radiator behavior near planar layered composites”,
Progress in Electromagnetics Research (PIER), vol. 66, pp. 317-357, 2006.
36. M.Y. Koledintseva, S.K.R. Chandra, R.E. DuBroff, and R.W. Schwartz, “Modeling of
dielectric mixtures containing conducting inclusions with statistically distributed aspect
ratio”, Progress in Electromagnetics Research (PIER), vol. 66, pp. 213-228, 2006.
37. M.Y. Koledintseva, “Electrodynamic modeling of a 3D periodic structure containing
magnetized or polarized ellipsoids”, Special Issue “Metamaterails in Microwave and Optical
Spectral Range”, Opto-Electronics Review, vol. 14, no. 3, pp. 253-262, Sept. 2006.
38. M.Y. Koledintseva, R.E. DuBroff, and R.W. Schwartz, “A Maxwell Garnett model for
dielectric mixtures containing conducting particles at optical frequencies”, Progress in
Electromagnetics Research (PIER) vol. 63, pp. 223-242, 2006.
39. M.Y.Koledintseva, “Modulation of mm-waves by an acoustically controlled monocrystalline
hexagonal ferrite resonator”, Journal of Electromagnetic Waves and Applications, vol.20, no.
1, Jan. 2006, pp.127-133.
2005-2000
40. M.Y.Koledintseva and A.A.Kitaitsev, “Modulation of millimeter waves by acoustically
controlled hexagonal ferrite resonator”, IEEE Trans. on Magnetics, vol. 41, no.8, Aug. 2005,
pp. 2368-2376.
41. M.Y.Koledintseva, J.L.Drewniak, D.J.Pommerenke, K.N. Rozanov, G.Antonini, and
A.Orlandi, “Wideband Lorentzian media in the FDTD algorithm”, IEEE Trans. on
Electromag. Compat., vol. 47, no. 2, May 2005, pp. 392-398.
42. V.V.Bodrov, V.I.Sourkov, M.M.Sabirov, I.V.Sourkova, and M.Y. Koledintseva, “Calculation
of power fluxes, radiation efficiency, and absorption efficiency in mulilayered dielectric
structures”, Radio Engineering Notebooks (Radiotekhnicheskie tetradi) no. 31, Moscow,
Russia: MPEI(TU), pp. 45-49, April 2005 (in Russian).
43. K.N.Rozanov, Z.W.Li, L.F.Chen, and M.Y.Koledintseva, “Microwave permeability of Co2Z
composites”, Journal of Applied Physics, vol. 97, Art. No. 013905, January, 2005.
44. M.Koledintseva, A.Kitaitsev, V.Konkin, and V.Radchenko, “Spectrum visualization and
measurement of power parameters of microwave wideband noise”, IEEE Trans. on Instrum.
Measur., vol. 53, no. 4 August, 2004, pp. 1119-1124.
45. M.Y.Koledintseva, K.N.Rozanov, A.Orlandi, and J.L.Drewniak, “Extraction of the
Lorentzian and Debye parameters of dielectric and magnetic dispersive materials for FDTD
modeling”, Journal of Electrical Engineering, IEE Slovak, vol.53, no.9/S, 2002, pp. 97-100.
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46. F. Graebner, G.Teichert, C.H.Knedlik, S.Hildenbrand, H.Romanus, A.Hungsberg, and
M.Koledintseva, “Simulation of layer-sequence of Ni-Zn ferrite thin films and multilayers for
EMC applications at frequencies above 1000 MHz”, Mat.-wiss. u. Werkstofftechnik, Wiley
VCH Verlag GmbH. D-69451 Weinheim, vol. 34, no. 7, pp. 603-607, July 2003.
47. X.Ye, M.Y.Koledintseva, M.Li, and J.L. Drewniak, “FDTD modeling and design of a DC
power-bus with dispersive media and surface mount technology components”, IEEE Trans.
Electromag. Compat., vol.43, no.4, November, 2001, pp. 579-587.
48. A.Kuzhakhmetov, A.Jenkins, D.Hyland, M.Koledintseva, and D.Dew-Hughes, “Frequency
dispersion of tunability and losses in ferrite/superconducting structures”, Inst. Phys. Conf.
Applied Superconductivity, no. 167, pp. 331-334, 2000.
Before 2000
49. A.A. Kitaytsev and M.Y. Koledintseva, “Physical and technical bases of using ferromagnetic
resonance in hexagonal ferrites for electromagnetic compatibility problems”, IEEE Trans.
Electromag. Compat., vol. 41, no. 1, Feb. 1999, pp.15-21.
50. M.Y. Koledintseva, “Analysis of the accuracy of the noise spectrum envelope reproduction by
panoramic measurer of spectrum power density”, Transactions of Moscow Power
Engineering Institute, no. 152, Moscow, MPEI, 1987, p.130-136, (in Russian).
51. A.A. Kitaytsev, M.Y. Koledintseva, “Formation of the frequency selectivity curve of the
gyromagnetic converter”, Transactions of Moscow Power Engineering Institute, no. 237,
Moscow, Ed. MPEI, 1990, pp.38-44, (in Russian).
52. M.Y. Sizenova, “Computation of the phase spectrum of the longitudinal component of
magnetization vector of the ferrite sample at alternating magnetizing field”, Transactions of
Moscow Power Engineering Institute “Gyromagnetic Devices and Antennas”, no. 99,
Moscow: MPEI, 1986, pp. 23-28 (in Russian).
III. Proceedings of International Symposia and Conferences
2013
53. A. Rakov, M. Koledintseva, J. Drewniak, and S. Hinaga, “Major error and sensitivity analysis
for characterization of laminate dielectrics on PCB striplines”, IEEE Symp. Electromag.
Compat., Denver, CO, Aug. 5-9, 2013, pp. 852-857.
54. A. Radchenko, J. Bishop, R. Johnson, P. Dixon, M. Koledintseva, R. Jobava, D.
Pommerenke, and J. Drewniak, “Sheet absorbing material modeling and application for
enclosures”, IEEE Symp. Electromag. Compat., Denver, CO, Aug. 5-9, 2013, pp. 645-650.
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55. K.N. Rozanov and M.Y. Koledintseva, “Limitations on high-frequency permeability of
magnetic materials”, IEEE Symp. Electromag. Compat., Denver, CO, Aug. 5-9, 2013, pp.
551-556.
56. T. Tsutaoka, T. Kasagi, K. Hatakeyama, and M. Y. Koledintseva, “Analysis of the
permeability spectra of spinel ferrite composites using mixing rules”, IEEE Symp.
Electromag. Compat., Denver, CO, Aug. 5-9, 2013, 545-550.
2012
57. X. Guo, J. Chen, D.R. Jackson, M.Y. Koledintseva, J. Drewniak, C. Pan, “A practical
approach to analyze copper surface roughness effects with applications to stripline
structures”, Proceedings - 2012 45th International Symposium on Microelectronics, IMAPS
2012 , pp. 1068-1072
58. L.K. Mikhailovsky and M.Y. Koledintseva, “A quantum of potential mass-energy in single-
point geometrical representation based on curretless magnetism and gyrovector formalism”,
20th Int. Conf. Electromagnetic Fields and Materials, Moscow, Firsanovka, MPEI-NRU, 16-
18 Nov. 2012, pp. 98-41.
59. L.K. Mikhailovsky and M.Y. Koledintseva, “Radiation and Absorption of Volumes with
Quanta of Potential Mass-Energy of Material Points”, 20th Int. Conf. Electromagnetic Field
and Materials, Moscow, Nov. 16-18 2012, pp. 41-49 (in Russian).
60. L.K. Mikhailovsky and M.Y. Koledintseva, “A quantum of potential mass-energy in single-
point geometrical representation based on currentless magnetism and gyrovector formalism”,
20th Int. Conf. Electromagnetic Fields and Materials, Moscow, Firsanovka, MPEI-NRU, 16-
18 Nov. 2012, pp. 50-97 (in Russian).
61. A. Y. Gafarov and M.Y. Koledintseva, “Design of a printed circuit board test vehicle for the
frequency range up to 50 GHz”, 20th Int. Conf. Electromagnetic Fields and Materials,
Moscow, Firsanovka, MPEI-NRU, Nov. 16-18, 2012, 164-174.
62. M.Y. Koledintseva, “Extraction of permeability of thin flexible magneto-dielectric materials”,
20th Int. Conf. Electromagnetic Fields and Materials, Moscow, Firsanovka, MPEI-NRU, Nov.
16-18, 2012 (accepted).
63. S. Hinaga, S. De, A.Y. Gafarov, M.Y. Koledintseva, and J.L. Drewniak, “Determination of
copper foil surface roughness from microsection photographs”, Techn. Conf. IPC Expo/APEX
2012, Las Vegas, Apr. 2012.
64. M.Y. Koledintseva, A. Razmadze, A. Gafarov, S. De, S. Hinaga, and J.L. Drewniak, “PCB
conductor surface roughness as a layer with effective material parameters”, IEEE Symp.
Electromag. Compat., Pittsburg, PA, 2012, pp. 138- 142. (Symposium Best Paper Award)
65. S. De, A.Y. Gafarov, M.Y. Koledintseva, S. Hinaga, R.J. Stanley, and J.L. Drewniak, “Semi-
automatic copper foil surface roughness detection from PCB microsection images”, IEEE
Symp. Electromag. Compat., Pittsburg, PA, 2012, pp. 132-137.
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66. J. Li, M.Y. Koledintseva, A.G. Razmadze, A.Y. Gafarov, Y.-J. Zhang, J.L. Drewniak, J. Fan,
and J. Shenhui, “Permeability and permittivity uncertainty effect on modeling absorbing
coatings and ferrites on cables”, IEEE Symp. Electromag. Compat., Pittsburg, PA, 2012, pp.
74- 79.
67. J. Li, Y.-J. Zhang, A.Y. Gafarov, S. De, M.Y. Koledintseva, J. Marchand, D.Hess, T.Durant,
J.L. Drewniak, and J. Fan “EMI reduction evaluation with flexible absorbing materials and
ferrite cores applied on cables”, IEEE Symp. Electromag. Compat., Pittsburg, PA, 2012, pp.
646-651.
68. T. Tsutaoka, A. Tsurunaga, T. Kasagi, K. Hatakeyama, and M. Koledintseva,
“Electromagnetic properties of metal granular composite materials for EMC applications”,
IEEE Symp. Electromag. Compat., Pittsburg, PA, 2012, pp. 411-415.
69. K. Rozanov and M. Koledintseva, “Analytical representation for frequency dependences of
microwave permeability”, IEEE Symp. Electromag. Compat., Pittsburg, PA, 2012, pp. 422-
427.
70. N. Bondarenko, P. Shao, D. Beetner, M.Y. Koledintseva, T. VanDoren, and P. Berger,
“Prediction of common-mode current reduction using ferrites in systems with cable
harnesses”, IEEE Symp. Electromag. Compat., Pittsburg, PA, 2012, pp. 80-84.
2011
71. M. Koledintseva, A.G. Razmadze, V.V. Khilkevich, and J. L. Drewniak, “Evaluation of
absorptive properties and permeability of thin sheet magneto-dielectric materials”, Book of
Abstracts, Moscow International Magnetics Symposium MISM-2011, Aug. 20-25, 2011,
Moscow, Russia.
72. M.Y. Koledintseva, S. Hinaga, and J.L. Drewniak, “Effect of anisotropy on extracted
dielectric properties of PCB laminate dielectrics”, IEEE Symp. Electromag. Compat., Long
Beach, CA, Aug. 14-19, 2011, art. no. 6038366 , pp. 514-517.
73. T. Tsutaoka, T. Ono, A. Tsurunaga, T. Kasagi, K. Hatakeyama, and M. Koledintseva, “High
frequency permeability of Fe-Al-Si granular composite materials”, IEEE Symp. Electromag.
Compat., Long Beach, CA, Aug. 14-19, 2011, art. no. 6038288 , pp. 78-83.
74. M.H. Nisanci, F. de Paulis, M.Y. Koledintseva, and A. Orlandi, “Full-wave EMC simulations
using Maxwell Garnett model for composites with cylindrical inclusions”, IEEE Symp.
Electromag. Compat., Long Beach, CA, Aug. 14-19, 2011, art. no. 6038377 , pp. 573-578.
75. M. Koledintseva, A. Koul, S. Hinaga, and J.L. Drewniak, “Differential and extrapolation
techniques for extracting dielectric loss of printed circuit board laminates”, IEEE Intern.
Microwave Symp. (IMS-2011), Baltimore, MD, June 5-10, 2011, art. no. 5972948.
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76. M. Koledintseva and A. Khanamirov, “Advances in technological applications of hexagonal
ferrites”, IEEE Intern. Microwave Symp. (IMS-2011), Workshop on Hexagonal Ferrites,
Baltimore, MD, June 5-10, 2011, WMI-5.
77. M. Koledintseva, J. Drewniak, S. Hinaga, F. Zhou, A. Koul, and A. Gafarov, “Experiment-
based separation of conductor loss from dielectric loss in striplines”, DesignCon 2011, Santa
Clara, CA, Jan. 31-Feb. 3, 2011, paper 5-TP5 (PCB Summit Best Paper Award Finalist)
2010
78. K. N. Rozanov, M.Y. Koledintseva, and J.L. Drewniak, “A new mixing rule for predicting
frequency-dependent material parameters of composites”, URSI-B Symposium on
Electromagnetic Theory (EMTS), Berlin, Germany, August 16-20, 2010, pp. 646-649.
79. M.Y. Koledintseva, M. Wang, S. Shen, J. Chen, A. Koul, and J.L. Drewniak, “Modeling of
electromagnetic wave propagation in printed circuit board striplines with rough conductors”,
Abstracts, Progress In Electromagnetics Research Symposium PIERS 2010, Cambridge, MA,
July 4-7, p. 462.
80. K.N. Rozanov, M.Y. Koledintseva, and J. L. Drewniak, “A new mixing rule for frequency
dependence of permeability in composites”, Abstracts, Progress In Electromagnetics
Research Symposium PIERS 2010, Cambridge, MA, July 4-7, p. 132.
81. M.Y. Koledintseva, J.L. Drewniak, and K.N. Rozanov, “Effective electromagnetic parameters
of composites containing magnetic platelets”, Abstracts, Progress In Electromagnetics
Research Symposium PIERS 2010, Cambridge, MA, July 4-7, p. 133.
82. K.N. Rozanov, M.Y. Koledintseva, and J. L. Drewniak, “Predicting of wideband
electromagnetic responses of composites containing magnetic inclusions”, IEEE Symp.
Electromag. Compat., July 25-30, Fort Lauderdale, FL, 2010, July 25-30, 2010, pp. 857-862.
83. A. Orlando, M.Y. Koledintseva, D.G. Beetner, P. Shao, and P.H. Berger, “Lumped-element
circuit model of ferrite chokes”, IEEE Symp. Electromag. Compat., July 25-30, Fort
Lauderdale, FL, July 25-30, 2010, pp. 754-759.
84. M. Koledintseva, A. Koul, F. Zhou, J. Drewniak, and S. Hinaga, “Surface impedance
approach to calculate loss in rough conductor coated with dielectric layer”, IEEE Symp.
Electromag. Compat., July 25-30, Fort Lauderdale, FL, July 25-30, 2010, pp. 790-795.
85. M. Wang, R. Qiang, J. Chen, M. Koledintseva, A. Koul, and J. Drewniak, “Evaluation of
propagation characteristics for PCB traces with periodic roughness using ASM-FDTD
method”, IEEE Symp. Electromag. Compat., July 25-30, 2010, Fort Lauderdale, FL, pp. 269-
273.
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86. S. Hinaga, M. Koledintseva, J. Drewniak, A. Koul, and F. Zhou, “Thermal effects on PCB
laminate material dielectric constant and dissipation factor”, Techn. Conf. IPC Expo/APEX
2010, Las Vegas, April 5-8, 2010, paper # S16-1 (Academic Poster Award).
87. J. Xu, M.Y. Koledintseva, S. De, A. Radchenko, R.E. DuBroff, J.L. Drewniak, Y. He, and R.
Johnson, “FDTD modeling of absorbing materials for EMI applications”, Asia-Pacific
International Symposium on Electromag. Compat.(AP-EMC’2010), April 12-16, 2010,
Beijing, China, paper #526, pp. 173-176.
88. V. Khilkevich, M. Koledintseva, V. Sivarajan, D. Liu, B. Achkir, H. Ning, and J. Drewniak,
“A systematic approach to PCB material characterization using time domain TRL
calibration”, DesignCon, 2010, paper 5-TP1, pp. 1-17.
89. M. Koledintseva, J. Xu, J. Drewniak, Y. He, and R. Johnson, “Systematic analysis and
engineering of absorbing materials containing ferrite or magnetic alloy inclusions for EMC
applications”, Abstracts, Int. Conf on Microwave Magnetics ICMM-2010, Boston, June 1-4,
2010, p. 99.
90. M. Koledintseva, Ji Zhang, Jianfeng Xu, J. Drewniak, and T. Tsutaoka, “Attenuation in
extended structures coated with thin magneto-dielectric absorber layer”, Abstracts, URSI
Asia-Pacific RASC-2010, Toyama, Japan, Sept. 22-26, 2010, paper E4-1.
91. C. Singh, B. Narang, I.S. Hudiara, M.Y. Koledintseva, and A.A. Kitaitsev, “Microstructural
and microwave absorption properties of Ba(1-x)SrxFe12o19 sintered hexaferrites”, Abstracts,
URSI Symposium AP-RASC-2010, Toyama, Japan, Sept. 22-26, 2010, paper E4-3.
92. C. Singh, S.B. Narang, I.S. Hudiara, M.Y. Koledintseva, and A.A. Kitaitsev, "Microstructural
and microwave absorption properties of Ba(1-x)Sr(x)Fe(12)O(19) sintered hexaferrites",
Young Scientist Award Papers of 2010 URSI Asia-Pacific Radio Science Conference, Sept.
20-26, 2010, Toyama, Japan, paper Y0010.
93. M. Y. Koledintseva, “The published scientific papers and books of James Clerk Maxwell
(1831-79), A Review”, 18th Int. Conf. Electromagnetic Fields and Materials, Moscow,
Firsanovka, Dec. 2010, MPEI-TU, pp. 15-24.
94. M. Y. Koledintseva, J. Xu, J.L. Drewniak, R. Johnson, and Y. He, “Absorbing materials
containing magnetic inclusions for EMC applications: modeling and measurements”, 18th Int.
Conf. Electromagnetic Fields and Materials, Moscow, Firsanovka, Dec. 2010, MPEI-TU, pp.
65-73.
95. A.E. Khanamirov, A.A. Kitaitsev, M.Y. Koledintseva, A.I. Firsenkov, A.Y. Kanivets, and I.I.
Petrova, “Applications of hexagonal ferrites”, 18th Int. Conf. Electromagnetic Fields and
Materials, Moscow, Firsanovka, Dec. 2010, MPEI-TU, pp. 301-320.
11
2009
96. M.Y. Koledintseva, “Modified Bruggeman asymmetrical mixing rule for composites
containing ferrite flakes”, 17th Int. Conf. Magnetism, Long and Short-Range Spin-Spin
Interaction, Section of Int. Conf. Electromagnetic Fields and Materials (ICEFM), MPEI(TU),
Moscow-Firsanovka, 20-22 November, 2009, pp. 9-19.
97. M.Y. Koledintseva, J.L. Drewniak, Y. He, and B. Matlin, “Modelling of absorbing material
containing magnetic platelets”, 2009 EMC Symposium, Kyoto, Japan, July 20-24, 2009, paper
24P3-3, pp.809-812.
98. J. Xu, M.Y. Koledintseva, Y. He, R.E. DuBroff, J.L. Drewniak, and B. Matlin, “Measurement
of electromagnetic parameters and FDTD modelling of ferrite cores”, Proc. IEEE Symp.
Electromag. Compat., Aug. 17-21, Austin, TX, 2009, pp. 83-88.
99. A. Koul, P. K.R. Anmula, M.Y. Koledintseva, J.L.Drewniak, and S. Hinaga, “Improved
technique for extracting parameters of low-loss dielectrics on printed circuit boards”, Proc.
IEEE Symp. Electromag. Compat., Aug. 17-21, Austin, TX, 2009, pp. 191-196.
100. A. Rajagopal, B. Achkir, M. Koledintseva, A. Koul, and J. Drewniak, “Material parameter
extraction using time-domain TRL (t-TRL) Measurements”, Proc. IEEE Symp. Electromag.
Compat., Aug. 17-21, Austin, TX, 2009, pp. 280-285.
101. E.V.Ivanova, M.Y. Koledintseva, and K.N.Rozanov, ”Effective permittivity of a regular
structure of conductive films”, The 26th Progress In Electromagnetics Research Symposium
PIERS 2009, August 18-21, Moscow, 2009, Book of Abstracts, p. 887.
102. M.Y. Koledintseva, A. Koul, P.K.R. Anmula, J.L. Drewniak, S. Hinaga, E. Montgomery, and
K.N. Rozanov, “Separating dielectric and conductor loss for rough striplines in printed circuit
boards”, The 26th Progress In Electromagnetics Research Symposium PIERS 2009, August
18-21, Moscow, 2009, Book of Abstracts, p. 213.
103. S. Hinaga, M. Koledintseva, P. Anmula, and J. Drewniak, “Effect of conductor surface
roughness upon measured loss and extracted values of PCB laminate material dissipation
factor”, Proc. Techn. Conf. IPC Expo/APEX 2009, Mar.31–Apr.2, 2009, Las Vegas, USA,
paper S20-2. (Best Conference Paper Award)
2008
104. M. Koledintseva, J. Drewniak, and Y. Zhang, “Engineering of ferrite-based composite
materials for shielding enclosures”, Book of Abstracts, Moscow Int. Symp. on Magnetism
MISM-2008, June 20-25, 2008, p. 387.
105. S. Patil, M. Koledintseva, R. Schwartz, and W. Huebner, “Modeling of electric field
distribution and its correlation with breakdown strength in diphasic dielectrics”, Extended
12
Abstracts of Int. Symp. Applications of Ferroelectrics, ISAF 2008, Santa Fe, New Mexico,
Feb. 24-27, 2008.
106. M.Y. Koledintseva, “Effect of statistical distribution of inclusion parameters on microwave
permittivity of carbon-filled composites”, Proc. 16 Int. Conf. 16 Int. Conf. Radiolocation and
radio communication, Dec.7-11, 2008, Firsanovka, Moscow Region, Russia, Ed. UNC-1
MPEI(TU), pp. 416-426.
107. M.Y. Koledintseva, “Dielectric mixtures with statistically distributed orientation of
inclusions”, Proc. 16 Int. Conf. Radiolocation and radio communication, Dec.7-11, 2008,
Firsanovka, Moscow Region, Russia, Ed. UNC-1 MPEI(TU), pp. 427-443.
2007
108. M.Koledintseva, V.Bodrov, M.Sabirov, I.Sourkova, and V.Sourkov, “Behavior of elementary
radiators near composite layers”, Proc. 3rd Int. Conf. Electromagnetic Near-Field
Characterization and Imaging, ICONIC-2007, June 27-29, 2007, St. Louis, Missouri, USA,
pp. 147-152.
109. A.A. Kitaitsev, G.N. Zhumabaeva, and M.Y. Koledintseva, “Method of measuring
permittivity of composite materials with hexagonal ferrite inclusions”, Int. IEEE Symp.
Electromag. Compat., Honolulu, Hawaii, USA, 8-13 July, 2007.
110. D. Wu, R. Qiang, J. Chen, C. Liu, M. Koledintseva, J.Drewniak, and B.Archambeault,
“Numerical modeling of periodic composite media for electromagnetic shielding application”,
Int. IEEE Symp. Electromag. Compat., Honolulu, Hawaii, USA, 8-13 July, 2007.
111. M. Koledintseva, S. Chandra, J.Drewniak, and J.Lenn, “Engineering of absorbing gaskets
between metal plates”, Int. IEEE Symp. Electromag. Compat., Honolulu, Hawaii, USA, 8-13
July, 2007.
112. J.Y.Huang, M.Y.Koledintseva, J.L.Drewniak, R.E.DuBroff, P.C.Ravva, and K.N.Rozanov,
“Engineering of a microwave shielding structure containing metafilms embedded in a
composite medium”, Proc. 15 Int. Conf. Spin-Electronics and Gyrovector Electrodynamics
(Int. Conf. Electrodynamics of Continuous Media), 2007, Firsanovka, Moscow Region,
Russia, Ed. UNC-1 MPEI(TU), pp. 537-549.
113. M.Y.Koledintseva, J.L.Drewniak, A.A.Kitaitsev, and A.A.Shinkov, “Modeling and
experimental study of ferrite-graphite mixtures at microwave frequencies”, Proc. 15 Int. Conf.
Spin-Electronics and Gyrovector Electrodynamics (Int. Conf. Electrodynamics of Continuous
Media), 2007, Firsanovka, Moscow Region, Russia, Ed. UNC-1 MPEI(TU), pp. 555-566.
114. M.Y.Koledintseva, S.Patil, and R.W.Schwartz, “Method of partial capacitances for predicting
effective permittivity of diphasic dielectric composites”, Proc. 15 Int. Conf. Spin-Electronics
and Gyrovector Electrodynamics (Int. Conf. Electrodynamics of Continuous Media), 2007,
Firsanovka, Moscow Region, Russia, Ed. UNC-1 MPEI(TU), pp. 567-581.
13
2006
115. R.Schwartz, S. Patil, and M. Koledintseva, “Dielectric contrast effects on the energy density
of diphasic composites”, Abstracts, International Symposium on Advanced Dielectric
Materials and Electronic Devices, Meeting Material Science and Technology, 15-19 Oct.
2006, Cincinnati, OH, USA.
116. S. Patil, M. Koledintseva, and R. Schwartz, “Modeling of electric field distribution and
energy storage in diphasic dielectrics, Proc. Int. 15th IEEE Symp. Applications of
Ferroelectrics, ISAF 2007, Sunset Beach, NC, USA, July 30 - August 3, 2006, pp. 307-310.
117. M.Y.Koledintseva, P.C.Ravva, J.L.Drewniak, A.A.Kitaitsev, and A.A.Shinkov, “Engineering
of ferrite-graphite composite media for microwave shields”, Proc. Int. IEEE Symp.
Electromag. Compat., August 2006, Portland, OR, USA, Session Electromagnetic
Interference IV (TH-AM-II), Vol. 3, 14-18 Aug. 2006, pp. 598 -602.
118. R.Qiang, J.Chen, J.Huang, M.Koledintseva, R. DuBroff, J.Drewniak, and F.Yang,
“Numerical analysis of sandwiched composite – FSS structures”, Proc. Int. IEEE Symp.
Electromag. Compat., Portland, OR, USA, vol. 3, 14-18 Aug. 2006, pp. 742 -746.
119. M.Y. Koledintseva, “Interaction of electromagnetic waves with small ferrite resonators in a
multimode regime” Proc. 14 Int. Conf. Spin-Electronics and Gyrovector Electrodynamics,
Section of Int. Conf. “Electromagnetic Fields and Materials”, December 2005, Firsanovka,
Moscow Region, Russia, Ed. UNC-1 MPEI(TU), 2006, pp. 106-128.
120. J.Zhang, M.Y.Koledintseva, D.J. Pommerenke, J.L.Drewniak, K.N.Rozanov, G.Antonini, and
A.Orlandi, “Extraction of dielectric material parameters for dispersive substrates using a
genetic algorithm”, Proc. 2006 IEEE Instrumentation and Measurement Technology
Conference (IMTC), April 24-27, 2006, Sorrento, Italy, pp. 462-467.
121. J.Y.Huang, P.C.Ravva, M.Y.Koledintseva, R.E.DuBroff, J.L.Drewniak, B.Archambeault,
and K.N.Rozanov “Design of a metafilm-composite dielectric shielding structure using a
genetic algorithm”, Proc. Progress In Electromagnetics Research Symposium (PIERS 2006
Cambridge), Cambridge, MA, USA, March 26-29, 2006, pp. 297-301.
122. J.Y.Huang, P.C.Ravva, M.Y.Koledintseva, R.E.DuBroff, J.L.Drewniak, B.Archambeault,
and K.N.Rozanov “Design of a metafilm-composite dielectric shielding structure using a
genetic algorithm”, Progress In Electromagnetics Research Symposium (PIERS 2006
Cambridge), Abstracts, Cambridge, MA, USA, March 26-29, 2006, pp. 332.
123. M.Y.Koledintseva, “Frequency-selective power transducers “hexagonal ferrite resonator –
semiconductor element”, Proc. Progress in Electromagnetics Research Symposium (PIERS
2006 Cambridge), Cambridge, MA, USA, March 26-29, 2006, pp.241-245.
124. M.Y.Koledintseva, “Frequency-selective power transducers “hexagonal ferrite resonator –
semiconductor element”, Progress in Electromagnetics Research Symposium (PIERS 2006
Cambridge), Abstracts, Cambridge, MA, USA, March 26-29, 2006, p.245.
14
125. M.Y. Koledintseva, P.C. Ravva, J.L. Drewniak, M.Sabirov, V.V. Bodrov, I.V. Sourkova, and
V.I. Sourkov, “Power absorption of near field of elementary radiators in proximity of a
composite layer”, Proc. Progress in Electromagnetics Research Symposium (PIERS 2006
Cambridge), Cambridge, MA, USA, March 26-29, 2006, pp. 15-21.
126. M.Y. Koledintseva, P.C. Ravva, J.L. Drewniak, M.Sabirov, V.V. Bodrov, I.V. Sourkova, and
V.I. Sourkov, “Power absorption of near field of elementary radiators in proximity of a
composite layer”, Progress in Electromagnetics Research Symposium (PIERS), Abstracts,
Cambridge, MA, USA, March 26-29, 2006, p. 25.
2000-2005
127. K.N.Rozanov, L.F.Chen, Z.W.Li, and M.Y.Koledintseva, “Microwave permeability and
Snoek’s law in CO2Z composites”, Proc. of the 3rd
International Conf. on Materials for
Advanced Technologies ICAMT-2005 and 9th Int. Conf. on Advanced Materials ICAMS-2005,
Symposium R “Electromagnetic Materials”, 3-8 July 2005, Singapore, pp. 121-124.
128. M.Y.Koledintseva, P.C.Ravva, R.E.DuBroff, J.L.Drewniak, K.N.Rozanov, and
B.Archambeault, “Engineering of composite media for shields at microwave frequencies”,
Proc. IEEE Symp. Electromag. Compat., August 2005, Chicago, IL, vol. 1, pp. 169-174.
129. M.Y.Koledintseva, “Modulation of mm-waves by an acoustically controlled monocrystalline
hexagonal ferrite resonator”, Progress in Electromagnetic Research Symposium (PIERS),
Hangzhou, China, 22-26 Aug. 2005, Abstracts, p.311.
130. M.Y.Koledintseva, “Modulation of mm-waves by an acoustically controlled monocrystalline
hexagonal ferrite resonator”, Proc. Progress in Electromagnetic Research Symposium
(PIERS), Hangzhou, China, 22-26 Aug. 2005, pp.281-284.
131. M. Koledintseva, J.Zhang, J.L.Drewniak, and K.Rozanov, “Application of a genetic algorithm
for approximating frequency characteristics of multiphase mixtures”, Proc. 13 Int. Conf. Spin-
Electronics and Gyrovector Electrodynamics, Dec. 3-5, 2004, Firsanovka, Moscow Region
(Section of 17 Int. Conf. Electromagnetic Fields and Materials EMFM, Warsaw, Poland,
May 17-19, 2004), Moscow, Russia: UNC-1 MPEI(TU), 2004, pp. 404-417.
132. C.A.Grosvenor, R.Johnk, D.Novotny, S.Candales, J.Baker-Jarvis, M.Janezic, J.Drewniak,
M.Koledintseva, J.Zhang, P.Ravva, “Electrical measurements using a free-field, ultra-
wideband system”, 2004 Annual Report Conference on Electrical Insulation and Dielectric
Phenomena, pp. 174-177.
133. K.N.Rozanov, L.F.Chen, Z.W.Li, and M.Y.Koledintseva, “Microwave permeability and
Snoek’s law in CO2Z composites”, XI Int. Conference on Composites/Nano Engineering
(ICCE-11), August 8-14, 2004, South Carolina, USA.
15
134. J. Zhang, M.Y. Koledintseva, J.L. Drewniak, G. Antonini, A.Orlandi, and K. N. Rozanov,
“Genetic algorithm application for extracting R,L,G,C parameters of dispersive planar
transmission lines”, Proc. IEEE Symp. Electromag. Compat., 9-13 Aug. 2004, Santa Clara,
CA, vol. 2, pp.572-576.
135. M. Y. Koledintseva, J. Wu, J. Zhang, J. L. Drewniak, and K. N. Rozanov, “Representation of
permittivity for multi-phase dielectric mixtures in FDTD modeling”, Proc. IEEE Symp.
Electromag. Compat.9-13 Aug. 2004, Santa Clara, CA, vol. 1, pp.309-314.
136. J. Zhang, M.Y. Koledintseva, and J.L. Drewniak, “Extracting R,L,G,C parameters of
microstrip and striplines with dispersive substrates”, Int. Symposium on Electromagnetic
Compatibility EMC’04, Sendai, Japan, 2004, vol. 1, paper 1A4-1, pp.45-48.
137. J. Zhang, K. Hu, M. Koledintseva, J. Drewniak, and R. Johnk, “Application of a genetic
algorithm for extracting parameters of dispersive curves for a planar composite layer”,
Progress In Electromagnetic Research Symposium PIERS-04, Pisa, Italy, March 28 - 31,
2004.
138. M. Sabirov, I. Sourkova, V. Sourkov, V. Bodrov, and M. Koledintseva, “Power
characteristics of radiators in multilayered dielectric structures”, Progress In Electromagnetic
Research Symposium PIERS-04, Pisa, Italy, March 28 - 31, 2004, pp. 409-412.
139. J. Zhang, J. Wu, M. Koledintseva, J. Drewniak, and K. Rozanov, “Development of an FDTD
tool for modeling of dispersive media”. Part I. “Material parameters and updating equations”,
Proc. 12 Int. Conf. On Spin-Electronics and Gyrovector Electrodynamics, Section of Int.
Conf. “Electromagnetic Fields and Materials”, December, 19-21, 2003, Moscow,
Firsanovka, Publisher UNC-1 MPEI (TU), 2003, pp. 692-710.
140. J. Zhang, J. Wu, M. Koledintseva, J. Drewniak, and K. Rozanov, “Development of an FDTD
tool for modeling of dispersive media”. Part II. “Examples of the EZ-FDTD modeling and
measurements”, Proc. 12 Int. Conf. On Spin-Electronics and Gyrovector Electrodynamics,
Section of Int. Conf. “Electromagnetic Fields and Materials”, December, 19-21, 2003,
Moscow, Firsanovka, Publisher UNC-1 MPEI (TU), 2003, pp. 711-725.
141. M.Y.Koledintseva, A.A.Kitaytsev, and V.A.Konkin, “Microwave wideband noise spectrum
visualization and power parameters measurement”, Proc. IEEE Int. Instrum. Measur. Techn.
Conf. IMTC’2003, Veil, Colorado, 20-22 May 2003, vol.2, pp.1228-1232.
142. G. Liu, Y.Ding, C.Chen, R,Kautz, J.L.Drewniak, D. Pommerenke, and M.Y.Koledintseva, “A
dual-current-probe method for characterizing common-mode loop impedance”, Proc. IEEE
Int. Instrum. Measur. Techn. Conf., Veil, Colorado, 20-22 May 2003, vol.2, pp.1239-1244.
143. M.Y.Koledintseva, G.Antonini, J.Zhang, A.Orlandi, K.N. Rozanov, and J.L.Drewniak,
“Reconstruction of the parameters of Debye and Lorentzian dispersive media using a genetic
algorithm”, Proc. Int. IEEE Electromag. Compat. Symp., Boston, August 18-22, 2003, vol. 2,
pp. 898-903.
16
144. J.Wu, M.Y.Koledintseva, and J.L.Drewniak, “FDTD modeling of structures containing
dispersive isotropic magnetic materials”, Proc. Int. IEEE Electromag. Compat. Symp.,
Boston, August 18-22, 2003, vol. 2, pp. 904-909.
145. F.Graebner, G.Teichert, C.Knedlik, S.Hildenbrand, F.Romanus, A.Hungsberg,
M.Koledintseva, “Untersuchung zur Schichtfolge eines Multilayerschichtsystems NiZn Ferrit
/ Si fuer Hoechstfrequenzleiterplatten im Frequenzbereich groesser 1000 MHz”, 47
Internationales Wissenschaftliches Kolloquium "Mechanical Engineering and
Nanotechnology - The High Technologies of the 21st Century", September 23 -26, 2002,
Technische Universitaet Ilmenau, Germany.
146. J. Wu, M. Y. Koledintseva, and J. L.Drewniak, “FDTD modeling of structures containing
dispersive isotropic magnetic materials”, Proc. XI International conference on spin-
electronics and gyrovector electrodynamics, December 20-23, 2002, Firsanovka, Moscow
Region, Publisher UNC-1 MPEI (TU), pp. 536-546.
147. M.Y. Koledintseva, “Representation of permittivity of two-phase dielectric mixtures for
FDTD modeling”, Proc. XI International conference on spin-electronics and gyrovector
electrodynamics, December 20-23, 2002, Firsanovka, Moscow Region, Publisher UNC-1
MPEI (TU), pp. 524-535.
148. M.Y.Koledintseva, K.N.Rozanov, J.L.Drewniak, and G.Di Fazio, “Restoration of the
Lorentzian and Debye curves of dielectrics and magnetics for FDTD modeling”, Proc. EMC
EUROPE 2002 - 5th International Symposium on Electromagn. Compat. September 9-13,
2002, Sorrento, Italy, paper # PD27, pp. 687-692.
149. M.Y. Koledintseva, D.J.Pommerenke, and J. L. Drewniak, “FDTD analysis of printed circuit
boards containing wideband Lorentzian dielectric dispersive media”, Proc. Int. IEEE Symp.
Electromag. Compat., Minnesota, 2002, vol. 2, pp. 830-833.
150. M.Y. Koledintseva, D. Hockanson, J.L. Drewniak, and T.P. Van Doren, “External parasitic
inductance in microstrip and stripline geometries of finite size”, Proc. Int. IEEE Symp.
Electromag. Compat., Minnesota, 2002, vol.1, pp. 244-248.
151. M.Y.Koledintseva, K. N. Rozanov, A. Orlandi, and J. L. Drewniak, “Extraction of the
Lorentzian and Debye parameters of dielectric and magnetic dispersive materials for FDTD
modeling”, 16th Conf. Electromagnetic Fields and Materials, Bratislava, Slovakia, 11-13
Sept. 2002, FEI STU Bratislava, 2002, p.39.
152. M.Koledintseva, “Design equations for traces near edges”, Presentation at the UMR EMC
Consortium, University of Missouri-Rolla, Rolla, MO, USA, May 2002.
153. M.Y.Koledintseva, “Gyromagnetic composite material as Lorentzian medium for numerical
modeling using FDTD technique”, Proc. 4 Int. Symp. Electromagnetic Compatibility and
Electromagnetic Ecology, St. Petersburg, June 19-21, 2001 (in Russian).
17
154. M.Y.Koledintseva, “Composite gyromagnetic material as a Lorentzian medium for FDTD
modeling”, URSI Int. Symp. Electromagnetic Theory, Victoria, Canada, May 13-17, 2001,
MN-T 09.05, pp. 388-390.
155. M.Y.Koledintseva, “Effective constitutive parameters of gyromagnetic absorbing mixtures for
FDTD modeling”, Proc. 14th Int. Zurich Symposium and Technical Exhibition on
Electromagnetic Compatibility, February 20-22, 2001, paper 87M8, pp. 465-468.
156. M.Y.Koledintseva, “Application of recursive convolution for FDTD modeling of Lorentzian
gyromagnetic media”, Proc. 10th Int. Conf. Spin Electronics, November, 2001, Moscow
Region, Firsanovka, p.516-521.
157. M.Y.Koledintseva, “Inductive coupling in microstrip and stripline structures with narrow
ground plane”, Proc. 10th Int. Conf. Spin Electronics, November, 2001, Moscow Region,
Firsanovka, p.522-529.
158. M.Y.Koledintseva and G. Di Fazio, “Extraction of the Lorentzian and Debye parameters from
measurement data in a few frequency points”, Proc. 10th Int. Conf. Spin Electronics,
November, 2001, Moscow Region, Firsanovka, p. 530-542.
159. M.Y.Koledintseva, J.L.Drewniak, and X. Ye, “Representation of gyromagnetic composite
media for FDTD modeling”, Proc. Int. IEEE Symp. Electromag. Compat., Montreal, August
2001, vol. 1, pp. 555-558.
160. M.Y.Koledintseva, A.A.Kitaytsev, V.A.Konkin, and V.F. Radchenko, “High-power
microwave wideband random signal measurement and narrowband signal detection against
the noise background”, Proc. Int. IEEE Symp. Electromag. Compat., Montreal, August, 2001,
vol. 2, p. 1027-1029.
161. J. L. Drewniak, M. Koledintseva, R. E. DuBroff, and D. Berg, “FDTD modeling of printed
circuit board radiation for passive detection of electronic mines, timers, and fuses”,
Proceedings of SPIE, vol. 4394, April 16-20 2001.
162. M.Y.Koledintseva, “FDTD modeling of gyromagnetic composite media”, Proc. 9th Int. Conf.
Spin Electronics (Section of ICMF’2000, Poland), 10-12 November, 2000, Moscow Region,
Firsanovka, pp.322-331.
163. L.K.Mikhailovsky, A.A.Kitaytsev, A.A.Shinkov, and M.Y.Koledintseva, “Advances of
gyromagnetic electronics for EMC problems”, Proc. 9th Int. Conf. Spin Electronics (Section of
ICMF’2000, Poland), 10-12 November, 2000, Moscow Region, Firsanovka, pp. 399-406.
164. M.Y.Koledintseva, “Electromagnetic shielding and absorbing materials”, Proc. 9th Int. Conf.
Spin Electronics (Section of ICMF’2000, Poland), 10-12 November, 2000, Moscow Region,
Firsanovka, pp. 311-321.
165. L.K. Mikhailovsky, A.A. Kitaytsev, M.Y. Koledintseva, and V.P. Cheparin, “Research and
design of gyromagnetic media and devices on their base for EMC and ecology problems at
microwaves”, Proc. 9th Int. Conf. Spin Electronics (Section of ICMF’2000, Poland), 10-12
November, 2000, Moscow Region, Firsanovka, pp. 407-409.
166. X.Ye, J.Fan, M.Koledintseva, and J.L.Drewniak, “DC power bus design with FDTD
modeling including dispersive media”, 9th Topical Meeting on Electrical Performance of
Electronics Packaging, Scottsdale, AZ, pp. 55-58, October 23-25, 2000.
18
167. L.Mikhailovsky, A.Kitaytsev, M.Koledintseva, and V.Cheparin, “Research and design of
gyromagnetic media and devices on their base for EMC and ecology problems”, Proc. 15th
Wroclaw Symp. and Exhib. Electromagnetic Compatibility EMC-2000, June 27-30, 2000,
pp.571-574.
168. L.K.Mikhailovsky, A.A.Kitaytsev, and M.Y.Koledintseva, “Advances of gyromagnetic
electronics for EMC problems”, Proc. Int. IEEE Symp. Electromag. Compat., Washington,
DC, August 21-25, 2000, vol. 2, pp. 773-778.
Before 2000
169. A.A.Kitaytsev, M.Y.Koledintseva, V.A.Konkin, V.P.Cheparin, and A.A.Shinkov,
“Application of composite gyromagnetic materials for absorbing radiation produced by
microwave oven”, Proc. Int. Symp. Electromagnetic Compatibility EMC’99 Tokyo, May 17-
21, 1999, paper 19P204, pp. 405-407.
170. A.A.Kitaytsev, M.Y.Koledintseva, and V.A.Konkin, “Reproduction of spectrum envelope of
microwave wide-band noise and detection of a narrow-band signal in it”, Proc. 9 Int. Conf.
“Microwave Engineering and Telecommunication Technology”, CriMiCo’99, Sevastopol,
Crimea, Ukraine, 13-17 Sept., 1999, presentation No 7.9, p. 356-357 (in Russian and
English).
171. M.Y.Koledintseva, A.A. Kitaytsev, and A.A.Shinkov, “Electromagnetic parameters of
composite containing high-anisotropic gyromagnetic particles”, URSI General Assembly,
Section “Materials Measurements”, August 13-21, 1999, Toronto, Canada, A2.14.
172. A.Kuzhakhmetov, A.Jenkins, D.Hyland, M.Koledintseva, and D.Dew-Hughes, “Frequency
dispersion of tunability and losses in ferrite/superconducting structures”, Inst. Phys. Conf.
Ser. No 167, pp. 331-334, 4th European Conference on Applied Superconductivity,
EUCAS'99, September 14-17, 1999, Barcelona, Catalonia, Spain.
173. L.K.Mikhailovsky, A.A.Kitaytsev, V.P.Cheparin, and M.Y.Koledintseva, “Solution of
present-day problems of electromagnetic compatibility by means of spin currentless
electronics and non-phase electrodynamics”, Proc. 8th Int. Conf. On Spin Electronics (Section
of ICMF’2000, Poland), Moscow Region, Firsanovka, 13-16 Nov. 1999, pp.327-349 (in
Russian).
174. A.A.Kitaytsev, M.Y.Koledintseva, V.P.Cheparin, and Shinkov, “Electrodynamic parameters
of composite gyromagnetic material based on hexagonal ferrites”, Proc. URSI Symp.
Electromagnetic Theory EMT’98, Greece, Thessaloniki, May 1998, v.2, pp.790-793.
175. M.Y.Koledintseva and A.A.Kitaytsev, “The control of gyromagnetic power & frequency
converter selectivity curve for panorama frequency-selective microwave measuring devices”,
14th Int. Wroclaw Symp. and Exhib. Electromagn. Compat. EMC’98, June 23-25, 1998,
Wroclaw, Poland, pp.210-214.
176. A.A.Kitaytsev, M.Y.Koledintseva, and A.A. Shinkov, “Filtering of unwanted microwave
radiation by means of composite gyromagnetic thick films”, 14th Int. Wroclaw Symp. and
Exhibition on Electromagnetic Compatibility EMC’98, June 23-25, 1998, Wroclaw, Poland,
pp. 385-387.
19
177. A. Kitaytsev, M.Koledintseva, and A.Shinkov, “Effective permittivity and permeability of
composite gyromagnetic material with hexagonal ferrite filler”, 43 Scientific Colloq.
Technical Univ. Ilmenau, 21-24 Sept. Germany, 1998. Section C3.5.4, vol. 3, pp. 451-455.
178. M.Y.Koledintseva and A.A.Kitaytsev, “Millimeter wave signal detection by means of
monocrystal hexagonal ferrite ellipsoid”, 3rd
Int. Kharkov Symp. “Physics and Engineering of
Millimeter and Submillimeter Waves” MSMW’98, Ukraine, Kharkov, Sept. 15-17, 1998.
179. A.A. Kitaytsev, M.Y. Koledintseva, and A.A.Shinkov, “Microwave filtering of unwanted
oscillations on base of hexagonal ferrite composite thick films”, IEEE 1998 Int. Symp.
Electromag. Compat., August 24-28, Denver, CO, USA, vol. 1, pp. 578-582.
180. M.Y. Koledintseva, A.A. Kitaytsev, and A.A. Shinkov, “Effective permittivity and
permeability of composite hexagonal ferrite material”, Proc. 8th Int. Conference “Microwave
Engineering and Telecommunications Technologies” CriMiCo’98, Sevastopol, Ukraine, 14-
16 Sept., 1998, vol.2 pp. 533-534 (in Russian).
181. A.A. Kitaytsev, M.Y. Koledintseva and L.K. Mikhailovsky, “Review of applied research and
engineering design on base of quantum spin-electronics and non-phase electrodynamics”,
Proc. 14th Int. Conf. Gyromagnetic Electronics and Electrodynamics (Microwave Ferrites),
ICMF'98, Nov. 13-16, 1998, Moscow (Firsanovka), Russia, vol.2, рр. 30-46 (in Russian).
182. A.Kitaytsev, M.Koledintseva, and A.Shinkov, “Effective parameters of composite hexagonal
ferrite material”, Proc. 14th Int. Conf. Gyromagnetic Electronics and Electrodynamics
(Microwave Ferrites), ICMF'98, Nov. 13-16, 1998, Moscow (Firsanovka), Russia, vol.2, pp.
271-276.
183. A.A.Kitaytsev, M.Y.Koledintseva, V.A.Konkin, and A.A.Shinkov, “Application of composite
gyromagnetic materials in protection systems of microwave ovens”, Proc. 14th Int. Conf.
Gyromagnetic Electronics and Electrodynamics (Microwave Ferrites), ICMF'98, Nov. 13-16,
1998, Moscow (Firsanovka), Russia, vol.2, рр. 279-287. (in Russian).
184. A.A.Kitaytsev, M.Y. Koledintseva, A.A. Shinkov, “Application of single- and multilayered
composite gyromagnetic thick films for microwave oscillations filtering”, Proc. 7th Int.
Conference “Microwave Engineering and Telecommunications Technologies” CriMiCo’97,
Sevastopol, Ukraine, 14-17 Sept., 1997, pp. 127-128 (in Russian).
185. A.A. Kitaytsev and M.Y. Koledintseva, “Modulation of millimeter waves by means of
hexagonal ferrite monocrystal resonator and piezoceramic element”, Proc. 7th Int. Conference
“Microwave Engineering and Telecommunications Technologies” CriMiCo’97, Sevastopol,
Ukraine, 14-17 Sept., 1997, pp. 611-612 (in Russian).
186. A.A. Kitaytsev, M.Y. Koledintseva and V.A. Konkin, “Extension of the operating frequency
range of the measurer of the power parameters to the millimeter wave band”, Proc. 3rd
Int.
Symposium and Exhibition EMC’97, 23-27 June 1997. St-Petersburg, Russia, Pt.2, pp.188-
191 (in Russian).
20
187. A.A. Kitaytsev and M.Y. Koledintseva, “Principles of design of power converters based on
hexagonal ferrite monocrystal resonators”, Proc. Int. Conf. Currentless Spin Electronics
ICCSE’97, Moscow, Russia, Dec.1997, pp. 439-445 (in Russian).
188. A.A. Kitaytsev and M.Y. Koledintseva, “Application of FMR in isotropic and anisotropic
ferrites for the electromagnetic radiation analysis”, Proc. Int. Conf. Currentless Spin
Electronics ICCSE’97. Moscow, Russia, Dec.1997, pp. 430-439 (in Russian).
189. M.Y. Koledintseva and A.A. Kitaytsev, “Application of stable nonlinear resonance effects in
monocrystal hexagonal ferrites for electromagnetic compatibility problems”, Proc. Int. Conf.
Currentless Spin Electronics ICCSE’97, Moscow, Russia, Dec. 1997, p. 141-153.
190. A.A. Kitaytsev and M.Y. Koledintseva, “Quasistatic approach to the analysis of
magnetization vector behavior of monocrystal hexagonal ferrite with controlled resonance
frequency”, Proc. 13th Int. Conf. Microwave Ferrites, ICMF'96. Busteni, Romania, p. 33-41.
191. A.A. Kitaytsev and M.Y. Koledintseva, “Frequency-selective tolerance control of radiation
power level at millimeter waves”, Proc. 4th All-Russian Scientific Technical Conference
“EMC of Technical Means and Biological Objects” EMC’96, St.-Petersburg, Russia, 18-20
Sept., 1996 (in Russian).
192. Koledintseva M.Y., “Modulation and demodulation of millimeter-wave signals using
hexagonal ferrite resonators”, Proc. 6th Int. Conference “Microwave Engineering and
Telecommunications Technologies” CriMiCo’96, Sevastopol, Ukraine, 16-19 Sept., 1996, pp.
215-217 (in Russian).
193. A.A. Kitaytsev and M.Y. Koledintseva, “Interaction between mm-wave oscillations and
monocrystal hexagonal ferrites with modulated resonance frequency”, 6th Int. Conf.
"Mathematical methods in electromagnetic theory" MMET'96, Sept.10-13. 1996, Lviv,
Ukraine, p.199-202.
194. M.Y. Koledintseva and A.A.Kitaytsev, “Millimeter-wave hexagonal ferrite power converter
with automodulation for frequency-selective tolerance control and measurement”, Proc. 13th
Int. Wroclaw Symp. EMC'95, Poland. 25-28 June, 1996, pp. 372-374.
195. A.A. Kitaytsev and M.Y. Koledintseva, “On perspective methods of power conversion in
millimeter waveband”, Proc. 2 Int. Symp. Exhib. Electromag. Compat. EMC’95, St.-
Petersburg, 26-28 June, 1995, pp.166-167 (in Russian).
196. A.A. Kitaytsev and M.Y. Koledintseva, “Dynamic processes at the interaction between
electromagnetic microwave field and hexagonal ferrite resonator with modulated resonance
frequency”, Proc. Int. Conf Currentless Spin Electronics ICCSE’95, Moscow, MPEI (TU),
Dec. 1995, pp. 469-478 (in Russian).
21
197. M.Y. Koledintseva, “Modulation of microwave field by means of the acoustically controlled
hexagonal ferrite resonator”, Proc. 15th Int. Symp. Electromagnetic Theory EMT'95,
St.Petersburg, Russia. 23-25 May, 1995, pp. 735-740.
198. A.A. Kitaytsev and M.Y. Koledintseva, “Prospective frequency-selective methods of power
conversion in mm-waveband using hexagonal ferrites”, Proc. 5th Int. Symp. Recent Advances
in Microwave Technology ISRAMT'95, Kiev. Ukraine, 11-16 Sept. 1995, vol. 1, pp. 71-74.
199. M.Y. Koledintseva and A.A. Kitaytsev, “Millimeter-wave modulator based on the arbitrary
oriented hexagonal ferrite resonator”, Proc. of Int .Conf. on Currentless Spin Electronics,
ICCSE'95. 19-23 Dec. 1995, pp. 124-130.
200. A.A. Kitaytsev and M.Y. Koledintseva, “Millimeter wave hexagonal ferrite power transducer
with feedback on the intermediate frequency”, Proc. Int. Conf. Currentless Spin Electronics,
ICCSE'95, 19-23 Dec. 1995, pp. 131-133.
201. A.A. Kitaytsev and M.Y. Koledintseva, “Frequency-selective power measurement of
millimeter wave oscillations by means of hexagonal ferrite converter with automodulation”,
Reports at the Int. Jubilee Conf. “Problems of Radioengineering” (100 Anniversary of Radio
Invention). “Magistr”, Ed. Moscow Power Eng. Inst. (Techn. Univ), Moscow, April, 1995,
vol. 2, no. 25, pp. 6-7 (in Russian).
202. M.Y. Koledintseva, “Modulator of millimeter waves using hexagonal ferrite resonator for
frequency-selective power converter”, Proc. 4th Crimean Conf. “Microwave Engineering and
Satellite Reception”, Sevastopol, Ukraine, 26-28 Sept., 1994, vol..1, pp.171-176 (in Russian).
203. A.A. Kitaytsev and M.Y. Koledintseva, “Frequency-selective hexagonal ferrite power
converter with feedback”, Proc. 12th International Conference on Microwave Ferrites,
ICMF'94, Gyulechitsa, Bulgaria, 20-23 Sept. 1994, pp. 240-245.
204. A.A. Kitaytsev and M.Y. Koledintseva, “Frequency-selective device for power level tolerance
control of active millimeter-wave devices”, Proc. 3th Crimean Conf. “Microwave Engineering
and Satellite Reception”, Sevastopol, Ukraine, 20-23 Sept., 1993, V.6, pp.850-854 (in
Russian).
205. A.A. Kitaytsev and M.Y. Koledintseva, “On the possibility of measuring microwave
oscillation power by means of hexagonal ferrite-semiconductor structure”, Proc. 11 Int. Conf.
on Gyromagnetic Electronics and Electrodynamics (Microwave Ferrites) ICMF’92. Alushta,
Crimea, Ukraine, 16-21 Oct. 1992, V.5, pp. 150-152 (in Russian).
206. I.A. Adouevsky, V.F. Balakov, A.A. Kitaytsev, and M.Y. Koledintseva, “On the possibility of
one-signal selectivity curve control for gyromagnetic converter”, Proc. 11 Int. Conf.
Gyromagnetic Electronics and Electrodynamics (Microwave Ferrites) ICMF’92, Alushta,
Crimea, Ukraine, 16-21 Oct. 1992, V.5, pp. 140-143 (in Russian).
207. I.A. Adouevsky, V.F. Balakov, A.A. Kitaytsev, and M.Y. Koledintseva, “Control of the form
of the one-signal selectivity of the gyromagnetic converter at the two-channel processing of
22
the converted signal”, Scientific-Technical Conf. “Oxide magnetic materials. Elements,
Devices and Applications”, St. Petersburg, Russia, 3-4 Nov. 1992, pp. 74-76 (in Russian).
208. A.A. Kitaytsev and M.Y. Koledintseva, “Frequency-selective power converter of the 8-mm
waveband based on a hexagonal ferrite resonator”, Proc. USSR Workshop “Devices of
Integral and Functional Microwave Electronics”, Kiev, Ukraine, 2-5 June, 1989. Kiev
Polytechnic Institute. (in Russian).
209. A.A. Kitaytsev and M.Y. Koledintseva, “Detection of millimeter waves by the structure
hexagonal ferrite resonator – Hall sensor”, Proc. 15th USSR Conf. Microwave Ferrite
Engineering, Leningrad, 20-23 Feb. Scientific Research Inst. “Domen”, 1990 (in Russian).
210. A.A. Kitaytsev and M.Y. Koledintseva, “Frequency-selective Nernst-Ethingshausen effect in
a semiconductor plate having a heat contact with the hexagonal ferrite resonator at
microwaves”, Proc. Jubilee Scientific-Technical Conference of Moscow Power Engineering
Institute, 12 Dec. 1990, Moscow, MPEI(TU), p. 101 (in Russian).
211. A.A. Kitaytsev and M.Y. Koledintseva, “Frequency-selective power conversion of
electromagnetic oscillations of millimeter waveband”, Proc. USSR Workshop Gyromagnetic
Electronics and Electrodynamics, Kuibyshev, Russia, 4-6 June 1990, pp.87-88 (in Russian).
212. A.A. Kitaytsev and M.Y. Koledintseva, “The control of the frequency-selectivity curve of
gyromagnetic converter”, Proc. 7th Int. Conf. Microwave Ferrites, ICMF’88, Budapest,
Hungary, Oct. 1988.
213. L.K. Mikhailovsky, A.A. Kitaytsev, V.A. Konkin, and M.Y. Sizenova (maiden name),
“Increase of signal-to-noise ratio in the microwave processing systems using gyromagnetic
converters in cross-multiplication regime”, Proc. 15th USSR Conf. on Microwave Ferrite
Engineering, Leningrad, Russia. Feb. 1987. Summaries of Reports. Ser.1, “Microwave
Electronics. Ferrite Materials and Microwave Devices”, 1987, issues no. 1 and 2 (in
Russian).
214. M.Y. Sizenova (maiden name) and S.I. Polyakov, “Intensity of the minority types of
magnetostatic oscillations of the ferrite thin disk in the rectangular waveguide”, Proc. 2nd
USSR School-Seminar (Workshop) “Spin-Wave Microwave Electronics”. Ashkhabad,
Turkmenia, 14-20 Sept., 1985 (in Russian).
215. M.Y.Sizenova (maiden name), “Application of self-matched method for study of coupling
between ferrite resonators placed in a transmission line or a waveguide”, Proc. All-Union
Student Conference on Physics and Mathematical Sciences, Minsk, Belarus, 17-19
November, 1983 (in Russian).
IV. Technical Reports (2000-2012)
1. M. Koledintseva, A. Razmadze, A. Gafarov, V. Khilkevich, and J. Drewniak, “Attenuation in
a coaxial line with a central conductor coated with thin magneto-dielectric absorber layer”,
Missouri S&T Center for Electromagnetic Compatibility (EMC Consortium), Technical Brief,
April 2011.
23
2. M.Y. Koledintseva, S. Hinaga, and J.L. Drewniak, “Effect of anisotropy on extracted
dielectric properties of PCB laminate dielectrics with different resin contents”, Missouri S&T
Center for Electromagnetic Compatibility (EMC Consortium), Technical Brief, April 2011.
3. M.Y. Koledintseva, K.N. Rozanov, and J.L. Drewniak, “Engineering, modeling, and testing
absorbing composites for EMC applications”, Missouri S&T Center for Electromagnetic
Compatibility (EMC Consortium), Technical Brief, April 2011.
4. M.Y. Koledintseva, A.Y. Gafarov, J.L. Drewniak, and S. Hinaga, “Differential and
extrapolation techniques for extracting dielectric loss of printed circuit board laminates”,
Missouri S&T Center for Electromagnetic Compatibility (EMC Consortium), Technical Brief,
April 2011.
5. A. Koul, P. R. Anmula, M.Y. Koledintseva, J.L. Drewniak, and S. Hinaga, “PCB Material
Characterization Taking into Account Conductor Surface Roughness”, Missouri S&T Center
for Electromagnetic Compatibility (EMC Consortium), Technical Brief, April 2009.
6. J. Xu and M. Koledintseva, “Development of Methodology for Ferrite Core
Characterization”, Missouri S&T Consortium, Technical Brief, April 2009.
7. A. Koul, P. R. Anmula, M.Y. Koledintseva, J.L. Drewniak, and S. Hinaga, “PCB Material
Characterization”, Missouri S&T Consortium, Technical Brief, November 2008.
8. M.Y. Koledintseva, M. Cocchini, J.L. Drewniak, and T.P. Van Doren, “Mutual External
Inductance of Microstrip and Stripline Structures”, UMR EMC Consortium, Technical Brief
1Q07-1, UMR EMC Consortium, April 2007.
9. M.Y. Koledintseva, S. Chandra, and J.L. Drewniak, “Modeling of Composite Absorbing
Gaskets and Behavior of Elementary Radiators Near Composite Layers”, UMR EMC
Consortium, Technical Brief 1Q07-2, UMR EMC Consortium, April 2007.
10. M.Y. Koledintseva, “Engineering of composite dielectrics for shields at microwave
frequencies”, UMR EMC Laboratory Quarterly Report, UMR EMC Consortium, Technical
Brief 1Q05-1, University of Missouri-Rolla, March, 2005.
11. M.Y. Koledintseva, “Approximating frequency characteristics of composites using an
effective medium mixing theory and a genetic algorithm”, UMR EMC Consortium, Technical
Brief 1Q04-1, University of Missouri-Rolla, March, 2004.
12. J. Zhang, M. Koledintseva, J. Drewniak, and D. Pommerenke, “Reconstruction of the
parameters of Debye dielectric media based on stripline and microstrip line models using a
genetic algorithm”, UMR EMC Consortium, Technical Brief 3Q03-1, University of Missouri-
Rolla, November, 2003.
13. J. Zhang, J. Wu, M. Koledintseva, and K. Rozanov, “Development of an FDTD tool for
modeling dispersive media”, UMR EMC Consortium, Technical Brief 3Q03-2, University of
Missouri-Rolla, November, 2003.
14. K. Hu, M. Koledintseva, and J. Drewniak, “FDTD modeling incorporating a two-port
network”, UMR EMC Consortium, Technical Brief 1Q03-1, University of Missouri-Rolla,
April 30, 2003.
24
15. J. Zhang, M. Koledintseva, and J. Drewniak, “Reconstruction of the parameters of Debye and
Lorentzian dispersive media using a genetic algorithm”, UMR EMC Consortium, Technical
Brief 1Q03-2, University of Missouri-Rolla, March 17, 2003.
16. M. Koledintseva, K. Rozanov, J. Drewniak, A. Orlandi, and G. Antonini, “Extraction of
Lorentzian and Debye parameters for FDTD modeling of dielectric and magnetic dispersive
media”, UMR EMC Consortium, Technical Brief 3Q02-1, University of Missouri-Rolla,
September 30, 2002.
17. M. Koledintseva, T. Van Doren, J. Drewniak, and D. Pommerenke, “Mutual inductance
associated with fringing magnetic fields in microstrip and stripline geometries”, UMR EMC
Consortium, Technical Brief 1Q02-1, University of Missouri-Rolla, March 31, 2002.
18. M. Koledintseva, “FDTD modeling of Lorentzian dielectric dispersive media for printed
circuit board design”, UMR EMC Consortium, Technical Brief 1Q02-2, University of
Missouri-Rolla, March 31, 2002.
19. M. Koledintseva, “Connector design investigation for reducing radiated and coupled EMI”,
UMR EMC Consortium, Technical Brief 3Q01-1, University of Missouri-Rolla, September,
2001.
20. M. Koledintseva, J. Drewniak, “FDTD analysis of Lorentzian dispersive medium”, UMR
EMC Laboratory Quarterly Report, 1Q01-1, University of Missouri-Rolla, March 31, 2001.
21. M. Koledintseva, “Connector design investigation for reducing radiated and coupled EMI”,
UMR EMC Laboratory Quarterly Report, 1Q01-2, University of Missouri-Rolla, March 31,
2001.
22. X. Ye, M. Koledintseva, J. Drewniak, “DC power-bus design using FDTD modeling with
dispersive media and surface mount technology components”, UMR EMC Consortium,
Technical Brief 3Q00-1, University of Missouri-Rolla, September, 2000.
V. Dissertations
1. M.Y. Koledintseva, “Frequency-Selective Power Conversion of Millimeter Wave Frequency
Band on Base of Hexagonal Ferrite Resonators”, Ph.D. (Candidate of Technical Sciences)
Dissertation, Specialization 05.12.01 “Theoretical Bases of Radio Engineering”, Moscow
Power Engineering Institute (Technical University). December, 1996, 200 p. (in Russian).
2. M.Y. Koledintseva, “Frequency-Selective Power Converters of Millimeter Wave Frequency
Band on Base of Hexagonal Ferrite Resonators”, Synopsis of Ph.D. Dissertation,
Specialization 05.12.01 “Theoretical Bases of Radio Engineering”, Moscow Power
Engineering Institute (Technical University). December, 1996, 30 p. (in Russian).
3. M.Y. Koledintseva, “Restoration of Spectrum Envelope of Non-White Wideband Noise using
Panoramic Measurer of Spectrum Power Density on Base of Gyromagnetic Converters.
USSR Contest Research Work of Young Scientists. Moscow, Russia, May, 1992, 50 p. (in
Russian).
25
4. M.Y. Sizenova (Koledintseva’s maiden name), “Detection of Deterministic Components in
the Spectrum of Noise Radiation by means of Panoramic Measurer of Spectrum Power
Density”, USSR Contest of the Best Graduate Student Research in Psysics & Mathematical
Sciences, section “Radio Engineering and Telecommunication”, Moscow Institute of
Telecommunications, Russia, 1984/85, 56 p. (in Russian).
5. M.Y. Sizenova (Koledintseva’s maiden name), “Conversion of Additive Sum “Signal +
Noise” by Ferrite Cross-Multiplier”, M.S. Dissertation (Research Engineer in Radio Physics
and Electronics), February, 1984, 130 p. (in Russian).
VI. Inventions
1. A.A. Kitaytsev, M.Y. Koledintseva, V.A. Konkin, V.P. Cheparin, and A.A.Shinkov,
“Microwave Oven”, Author Certificate for Useful Device and Patent of the Russian
Federation, positive decision on application No 98120094/20, priority date November 4,
1998. 6H05B6/64 (in Russian).
2. A.A. Kitaytsev and M.Y. Koledintseva, “Microwave Gyromagnetic Cross-Multiplier”, Patent
of the Russian Federation No 2099854, Bulletin of Inventions No 35, 1997, December 20,
1997, on application 95119473/09 (033854), priority date November 15, 1995 (in Russian).
3. A.A. Kitaytsev and M.Y. Koledintseva, “Device for Frequency-Selective Microwave Power
Conversion”, Patent of the Russian Federation No 2066865, published in Bulletin of
Inventions No 26, 1996, on the application No 93-038323/09 (038211) with priority date July,
27 1993 (in Russian).
4. A.A. Kitaytsev, M.Y. Koledintseva, V.A. Konkin, V.F. Radchenko, N.I. Savchenko, “Method
of Spectrum Analysis of Wideband Noise Microwave Signals and the Device for its
Realization”, Russian Federation Patent No 2088945, Bulletin of Inventions No 24, 1997,
September 27, 1997 on the application No 93021125/09 (020368) with priority of April 21,
1993 (in Russian).
5. A.A. Kitaytsev and M.Y. Koledintseva, “Frequency-Selective Power Converter of Microwave
Power”, Patent of the Russian Federation No 2007791, Bulletin of Inventions No 3, February,
15 1994 on the application N 4944466/09 of June 14, 1991 (in Russian).
6. I.A. Adouevsky, V.F. Balakov, A.A. Kitaytsev, M.Y. Koledintseva, “Method of Frequency
Selective Measuring of Peak Power of Microwave Signal”, Author Certificate of the USSR
on Invention No 1800377, published Bulletin of Inventions October, 9, 1992 on application N
4818210 of April, 24 1990 (in Russian).
VII. Advised M.S. Theses and Ph.D. Dissertations
1. Aleksei V. Rakov, “Wideband characterization of printed circuit board materials up to 50
GHz”, M.S.E.E. thesis, EMC Laboratory, Electrical and Computer Engineering Department,
26
Missouri University of Science and Technology (MS&T), Rolla, MO, July 2013 (advisor)
employed in Russia.
2. Aleksandr Y. Gafarov, “Laminate dielectric and foil characterization for signal integrity on
printed circuit board”, M.S.E.E. thesis, EMC Laboratory, Electrical and Computer
Engineering Department, Missouri University of Science and Technology (MS&T), Rolla,
MO, July 2012 (advisor) – employed by Mentor Graphics, Redmond, WA
3. Peng, Shao, “A high-frequency analytical model for the common-mode impedance of a ferrite
choke”, M.S.E.E. thesis, EMC Laboratory, Electrical and Computer Engineering Department,
Missouri University of Science and Technology (MS&T), Rolla, MO, January 2012 (co-
advisor) – employed by Cisco, Inc., San Jose, CA
4. Oleg M. Shteynberg, “An effect of circular rotating junctions on characteristics of passive
resonance sensors” Ph.D. dissertation, Radio Engineering Department, Moscow Power
Engineering Institute, Moscow, Russia, Dec. 2011 (reviewer/referee of dissertation) –
employed by MPEI, Moscow, Russia
5. Amendra Koul, “In situ” printed circuit board material extraction procedure with conductor
surface roughness study”, M.S.E.E. thesis, EMC Laboratory, Electrical and Computer
Engineering Department, Missouri University of Science and Technology (MS&T), Rolla,
MO, April 2010 (advisor) – employed by Cisco, Inc., San Jose, CA
6. Andrea Orlando, “Numerical modeling and analysis of complex electromagnetic structures,
including those containing ferrites”, M.S.E.E. thesis, EMC Laboratory, Electrical and
Computer Engineering Department, Missouri University of Science and Technology
(MS&T), Rolla, MO, November 2009 (advisor) – Electrical Power Company, Italy, Rome,
7. Praveen K.R. Anmula, “Loss Characterization in Printed Circuit Boards (PCBs) for high
speed data applications” , M.S.E.E. thesis, EMC Laboratory, Electrical and Computer
Engineering Department, Missouri University of Science and Technology (MS&T), Rolla,
MO, June 2009 (advisor) – employed by Mentor Graphics, Seattle, WA
8. Edwin G. Lock, “Magnetostatic waves in ferrite films and structures with geometrical and
magnetic inhomogeneities”, D.Sc. in Physics/Mathematics, Institute of Radio Engineering
and Electronics of Russian Academy of Sciences, Fryazino, Moscow Region, Russia,
September 2008 (reviewer/referee) – employed by Russian Academy of Sciences (Head of
the Department)
9. Sandeep K. Patil, “Modeling and simulations of dipahsic composites for development of high
energy density dielectrics”. Ph.D., Department of Materials Science and Engineering,
Missouri University of Science and Technology, April 2008 (committee member and co-
advisor) – employed by Intel, Portland, OR
10. Mei Wang, “Electromagnetic Modeling of Distributed Coaxial cable Crack sensors in
Reinforced Concrete Members”, M.S. thesis, Civil Engineering Department, Missouri
University of Science and Technology, April 2008 (committee member and unofficial de-
facto advisor) – Houston, TX
11. Sandeep K. R. Chandra, “Characterization of noise on PDN and electromagnetic shielding”,
M.S.E.E. thesis, Electrical and Computer Engineering Department, Missouri University of
Science and Technology, December 2007 (committee member and unofficial de-facto
advisor) – employed by Ford, Detroit, MI
27
12. Mikhail M. Sabirov, “Development of algorithms of the design of wire antennas placed in
multilayered lossy dielectric media”, Doctoral Dissertation (Ph.D. in Engineering Sciences,
Specialization “Antennas, Microwave Devices, and Their Technology” (dissertation code
05.12.07), Moscow Power Engineering Institute (Technical University), Moscow, Russia,
June, 2006 (co-advisor by correspondence) – Moscow, Russia
13. Chang, Fan-Keung, “Staircasing mesh algorithm for 2D and 3D primitives for FDTD and the
generation of complex geometries”, M.S.E.E. thesis, Electrical and Computer Engineering
Department, University of Missouri-Rolla, Rolla, MO, USA, January, 2006 (committee
member and co-advisor)
14. Poorna Chander Ravva, “Polygon decomposition into minimum number of primitives and
electromagnetic shielding using composite materials”, M.S.E.E. thesis, Electrical and
Computer Engineering Department, University of Missouri-Rolla, Rolla, MO, USA,
December, 2005 (committee member and unofficial de-facto advisor) – Intel, Seattle, WA
15. Kuifeng Hu, “FDTD modeling incorporating two-port networks and plane wave sources in a
three-dimensional space”, M.S.E.E. thesis, Electrical and Computer Engineering Department,
University of Missouri-Rolla, Rolla, MO, USA, November, 2003 (committee member and
co-advisor) – Agilent
16. Jing Wu, “FDTD modeling of dispersive composite magnetic material”, M.S.E.E. thesis,
Electrical and Computer Engineering Department, University of Missouri-Rolla, Rolla, MO,
USA, November, 2003 (committee member and co-advisor) – Cisco, Inc., San Jose, CA
17. Jianmin Zhang, “Reconstruction of the parameters of Debye and Lorentzian dispersive media
using a genetic algorithm and features and applications of EZ-FDTD”, M.S.E.E. thesis,
Electrical and Computer Engineering Department, University of Missouri-Rolla, Rolla, MO,
USA, October, 2003 (committee member and co-advisor) - Cisco, Inc., San Jose, CA
18. S.S.Yegorov, “Development and experimental verification of generalized mathematical
model for design of hexagonal ferrite isolators”, Moscow Power Engineering Institute
(Technical University), Moscow, Russia, June, 2001 (reviewer/referee, committee member)
– MPEI(TU), Moscow, Russia (Senior Researcher)
19. Frank Graebner, “Research of ferrites, modeling of their behavior, and application for high-
frequency visualization systems”, Doctoral Dissertation, Faculty of Electrical and Information
Engineering, Ilmenau Technical University, Germany, January, 2001 (co-advisor by
correspondence and referee) – Germany (Professor)
20. Andrey A. Shinkov, “Composite hexagonal ferrite thick film filters for microwave frequency
band”, M.S. thesis, Radio Engineering Department, Moscow Power Engineering Institute
(Technical University), Moscow, Russia, February, 1996 (co-advisor, committee member) -
MPEI(TU), Moscow, Russia (Senior Researcher)