Publications
Publications
Embedded Files
A book chapter
10 papers in books of extended conference papers
53 journal papers
130 papers in peer-reviewed conference proceedings
Google Scholar: 1300 citations (h-index 19) (as of 12-15-2025)
Editorial Service
IEEE Journal on Multiscale and Multiphysics Computational Techniques
• Associate Editor (2023-2024)
Journal of Microwave Power & Electromagnetic Energy
• Guest Editor of Special Issue on Modeling in Microwave Power Engineering (2007)
.
IEEE Microwave Theory and Techniques Society (MTT-S), International Microwave Symposium (IMS), Technical Program Review Committee (TPRC), Member, Vice-Chair and Chair of a Sub-Committee (2010-2019, 2023-)
Reviewer for 30 journals
Reviewer for 28 conferences
I. Peer-Reviewed Journal Papers
[1]. K. Hadidi, C.E. Williams, and V.V. Yakovlev, Computational analysis of the effects of power on the electromagnetic characteristics of microwave systems with plasma, Energies, Special Issue "Progress in Electromagnetic Analysis and Modeling of Heating Systems", vol. 18, 5128, 2025.
[2]. C.E. Williams and V.V. Yakovlev, Characterization of microwave plasma for electromagnetic modeling in processing applications, J. Microwave Power & Electromagnetic Energy, vol. 59, no 2, pp. 271-290, 2025.
[3]. C.E. Williams, E.K. Murphy, and V.V. Yakovlev, Machine-learning efficiency optimization of microwave applicators with plasma, European J. of Microwave Energy, vol. 1, no. 1 (Inaugural Issue), pp. 44-50, 2024.
[4]. A.A. Mohekar, B.S. Tilley, and V.V. Yakovlev, Transverse electric-thermal-fluid instabilities in an electromagnetic heat exchanger, Intern. J. of Heat and Mass Transfer, vol. 210, 124187, 2023.
[5]. M.C. Robinson, J.A. Molles, V.V. Yakovlev, and Z. Popovic, Solid-state power combining for heating small volumes of mixed waste materials, IEEE J. of Microwaves, vol. 3, no 3, pp. 881-893, 2023.
[6]. A.A. Mohekar, B.S. Tilley, and V.V. Yakovlev, Resonance, Rayleigh flows and thermal choking: compressible coolant states in porous electromagnetic heat exchangers, J. of Applied Physics, vol. 133, 124906, 2023.
[7]. M.T. Porter, J. Binner, M.K. Cinibulk, B.G. Baños, K.E. Stern, and V.V. Yakovlev, Computational characterization of microwave heating of fibre preforms for CVI of SiCf/SiC composites, J. of the European Ceramic Society, vol. 56, no 1, pp. 1808-1827, 2023.
[8]. C.M. Hogan, B.W. Hoff, I.M. Rittersdorf, and V.V. Yakovlev, Computational characterization of millimeter-wave heat exchangers with an AlN:Mo susceptor of multiple cylindrical elements, J. Microwave Power & Electromagnetic Energy, vol. 56, no. 1, pp. 18–36, 2022.
[9]. J.M. Gaone, B.S. Tilley, and V.V. Yakovlev, High-frequency homogenization for electromagnetic heating of periodic media, SIAM J. on Multiscale Modeling and Simulation, vol. 19, no. 3, pp. 1285-1309, 2021.
[10]. I.M. Rittersdorf, B.W. Hoff, A.S. Richardson, S.A. Martin, V.V. Yakovlev, P.S. Kim, and J.W. Schumer , A one-dimensional model for the millimeter-wave absorption and heating of dielectric materials in power beaming applications, IEEE Trans. on Plasma Science, vol. 49, no 2, pp. 695-702, 2021.
[11]. A.A. Mohekar, B.S. Tilley, and V.V. Yakovlev, A triple layer electromagnetic heat exchanger with plane Poiseuille flow: control and local onset of thermal runaway, IEEE J. on Multiscale and Multiphysics Computational Techniques, vol. 5, pp. 119-131, 2020.
[12]. C. Maniere, G. Lee, E. Torresani, J.F. Gerling, V.V. Yakovlev, D. Martine, and E.A. Olevsky, Flash microwave pressing of zirconia, J. of the American Ceramic Society, vol. 103, pp. 4110-4121, 2020.
[13]. P. Kumi, S.A. Martin, V.V. Yakovlev, M.S. Hilario, B.W. Hoff, and I.M. Rittersdorf, Electromagnetic-thermal model of a millimeter-wave heat exchanger based on an AlN:Mo susceptor, COMPEL - The Intern. J. for Computation and Math. in Electrical and Electronic Engng, vol. 39, no. 2, pp. 481-496, 2020.
[14]. J.M. Gaone, B.S. Tilley, and V.V. Yakovlev, Electromagnetic heating control via high-frequency resonance of a triple-layer laminate, J. of Engng Math., vol. 114, no 1, pp. 65-86, 2019.
[15]. E.M. Moon and V.V. Yakovlev, Computer-aided design of a dielectric insert supporting uniformity of fast microwave heating, COMPEL – Intern. J. Computation and Mathematics in Electrical and Electronic Engng, vol. 37, no 6, pp. 1958-1968, 2018.
[16]. V.V. Yakovlev, Effect of frequency alteration regimes on the heating patterns in a solid-state-fed microwave cavity, J. Microwave Power & Electromag. Energy, vol. 52, no 1, pp. 31-44, 2018.
[17]. S. Vaucher, V.V. Yakovlev, and H. Yeung, Materials with required dielectric properties: computational development and production of polymer-ceramic composites, Polymer Engineering and Science, vol. 57, 8 p., 2017, DOI 10.1002/pen.
[18]. K.A. Lurie, D. Onofrei, W.C. Sanguinet, S.L. Weekes, and V.V. Yakovlev, Energy accumulation in a functionally graded spatial-temporal checkerboard, IEEE Antennas and Wireless Propag. Lett., vol. 16, pp. 1496-1499, 2017.
[19]. V.V. Yakovlev, Computer modeling in the development of mechanisms of control over microwave heating in solid-state energy systems, AMPERE Newsletter, Issue 89, pp. 18-21, 2016.
[20]. K.A. Lurie and V.V. Yakovlev, Energy accumulation in waves propagating in space- and time-varying transmission lines, IEEE Antennas and Wireless Propag. Lett., vol. 15, pp. 1681-1684, 2016.
[21]. A.V. Brovko, E.K. Murphy, and V.V. Yakovlev, Waveguide microwave imaging: solids volume fraction of particulate materials, ACES Journal, vol. 30, no 11, pp. 1161-1167, 2015.
[22]. E.M. Moon, C. Yang, and V.V. Yakovlev, Microwave-induced temperature fields in cylindrical samples of graphite powder – experimental and modeling studies, Intern. J. Heat & Mass Transfer, vol. 87, no 8, pp. 359–368, 2015.
[23]. C. Yang and V.V. Yakovlev, An efficient empirical model for microwave-induced average temperature of liquid cylindrical reactants, J. Microwave Power & Electromag. Energy, vol. 47, no 3, pp. 177-185, 2013.
[24]. E.M. Kiley, V.V. Yakovlev, K. Ishizaki, and S. Vaucher, Applicability study of classical and contemporary models for effective complex permittivity of metal powders, J. Microwave Power & Electromag. Energy, vol. 46, no 1, pp. 26-38, 2012.
[25]. E.K. Murphy and V.V. Yakovlev, Neural network optimization of complex microwave structures with a reduced number of full-wave analyses, Intern. J. of RF & Microwave Computer-Aided Engng, vol. 21, no 2, pp. 279-287, 2011.
[26]. E.K. Murphy and V.V. Yakovlev, CAD technique for microwave chemistry reactors with energy efficiency optimized for different reactants, ACES Journal, vol. 45, no 12, pp. 1108-1117, 2010.
[27]. A.V. Brovko, E.K. Murphy, and V.V. Yakovlev, Waveguide microwave imaging: neural network reconstruction of functional two-dimensional permittivity profiles, IEEE Trans. Microwave Theory Tech., vol. 57, no 2, pp. 406-414, 2009.
[28]. A.V. Brovko, E.K. Murphy, M. Rother, H.P. Schuchmann, and V.V. Yakovlev, Waveguide microwave imaging: spherical inclusion in a dielectric sample, IEEE Microwave and Wireless Comp. Lett., vol. 18, no 9, pp. 647-649, 2008.
[29]. E.E. Eves, E. K. Murphy, and V.V. Yakovlev, Practical aspects of complex permittivity reconstruction with neural-network-controlled FDTD modeling of a two-port fixture, J. Microwave Power & Electromag. Energy, vol. 41, no 4, pp. 81-94, 2007.
[30]. Y.V. Shestopalov and V.V. Yakovlev, Uniqueness of complex permittivity reconstruction in a parallel-plane waveguide, Radio Science, vol. 42, no 10, pp. RS6S20, 2007.
[31]. V.V. Komarov, Y.N. Pchelnikov, and V.V. Yakovlev, Cylindrical double-ridged waveguide as a basic unit of microwave heating applicators, Microwave Opt. Tech. Letters, vol. 49, no 7, pp. 1708-1713, 2007.
[32]. V.V. Komarov and V.V. Yakovlev, CAD of efficient TMmn0 single-mode elliptical applicators with coaxial excitation, J. Microwave Power & Electromag. Energy, vol. 40, no 3, pp. 174-185, 2007.
[33]. E.K. Murphy and V.V. Yakovlev, RBF network optimization of complex microwave systems represented by small FDTD modeling data sets, IEEE Trans. Microwave Theory Tech., vol. 54, no 7, pp. 3069-3083, 2006.
[34]. V.V. Komarov and V.V. Yakovlev, Coupling and power dissipation in a coaxially excited TM01l mode cylindrical applicator with a spherical load, Microwave Opt. Tech. Letters, vol. 48, no 6, pp. 1104-1108, 2006.
[35]. V.V. Yakovlev, E.K. Murphy, and E.E. Eves, Neural networks for FDTD-backed permittivity reconstruction, Intern. J. Computation and Mathematics in Electrical and Electronic Engng (COMPEL), vol. 24, no 1, pp. 291-304, 2005.
[36]. E.E. Eves, P. Kopyt, and V.V. Yakovlev, Determination of complex permittivity with neural networks and FDTD modeling, Microwave Opt. Tech. Let., vol. 40, no 3, pp. 183-188, 2004.
[37]. V.A. Mechenova and V.V. Yakovlev, Efficiency optimization for systems and components for microwave heating, J. Microwave Power & Electromag. Energy, vol. 39, no 1, pp. 15-29, 2004.
[38]. V.V. Komarov and V.V. Yakovlev, Modeling control over determination of dielectric properties by perturbation technique, Microwave Opt. Tech. Let., vol. 39, no 6, pp. 443-446, 2003.
[39]. E.E. Eves and V.V. Yakovlev, Analysis of operational regimes of a high-power water load, J. Microwave Power & Electromag. Energy, vol. 38, no 3, pp. 127-144, 2002.
[40]. K.A. Lurie and V.V. Yakovlev, Control over electric field in traveling wave applicators, J. Engineering Math, vol. 44, no 2, pp.107-123, 2002.
[41]. K.A. Lurie and V.V. Yakovlev, Optimization of electric field in rectangular waveguide with lossy layer, IEEE Trans. on Magnetics, vol. 36, no 4, pp. 1094-1097, 2000.
[42]. K.A. Lurie and V.V. Yakovlev, Method of control and optimization of microwave heating in waveguide systems, IEEE Trans. on Magnetics, vol. 35, pp. 1777-1780, 1999.
[43]. V.V. Yakovlev, V.V. Komarov, and A.R. Zheleznyak, Analysis of horseshoe-shaped waveguide with dielectric in capacitance gap, IEEE Trans. on Magnetics, vol. 29, no. 2, pp. 1616-1619, 1993.
[44]. V.A. Kolomeytsev and V.V. Vakovlev, The bandwidth of microwave equipment for the heating of thermos-parametric materials based on waveguides of complex cross-section, Radiotekh., vol. 46, no. 12, pp. 66-70, 1991 (In Russian). Transl. in: Telecomm. Radio Engng., vol. 47, no. 1, pp. 98-101, 1992.
[45]. G.A. Andreyev, L.V. Zayentsev, and V.V. Yakovlev, Radio wave systems for subsurface sensing, Zarubezh. Radioelektron., no. 2, pp. 3-22, 1991 (In Russian).
[46]. V.A. Kolomeytsev and V.V. Yakovlev, Continuous transitions for matching a rectangular waveguide and rectangular waveguide with a T-ridge, Radiotekh., vol. 45, no. 2, pp. 86-90, 1990 (In Russian). Transl.in: Telecomm. Radio Engng., vol. 45, No. 3, pp. 140-143, 1990.
[47]. G.A. Andreyev and V.V. Yakovlev, Lateral electromagnetic waves: the contemporary concepts and applications, Zarubezh. Radioelektron., no. 11, pp. 21-41, 1988 (In Russian).
[48]. V.A. Kolomeytsev and V.V. Yakovlev, On the effect of dielectric losses on the natural waves of a rectangular waveguide with a T-shaped fin, Radiotekh. i Elektron., vol. 33, no. 8, pp. 1629-1637, 1988 (In Russian). Transl. in: Sov. J. Commun. Technol. Electron., vol. 33, No. 12, pp. 108-115, 1988.
[49]. V.A. Kolomeytsev and V.V. Yakovlev (1987), Electromagnetic field calculation for the microwave chamber of a heating system based on a ridged waveguide, Radiotekh., vol. 42, No. 9, pp. 65-66, 1987 (In Russian). Transl. in: Telecomm. Radio Engng., vol. 41/42, no. 10, pp. 102-103, 1987.
[50]. V.B. Katok, V.A. Kolomeytsev, and V.V. Yakovlev, Eigen parameters and electromagnetic fields of a horseshoe-shaped waveguide, Izv. VUZ. Radioelektron., vol. 30, No. 1, pp. 20-25, 1987 (In Russian). Transl. in: Radioelectron. & Comm. Syst., vol. 30, no. 1, pp. 15-20, 1987.
[51]. V.A. Kolomeytsev and V.V. Yakovlev, Numerical technique for determination of eigen parameters and electromagnetic fields in the waveguides of arbitrary cross-sections partially filled with lossy material, Elektron. Tekh., Ser. Elektron. SVCh, no.7(382), pp. 71-77, 1985 (In Russian).
[52]. I.P. Chepurnykh and V.V. Yakovlev, The broadband characteristics of a rectangular waveguide with a T-ridge and partially filled with a dielectric, Elektron. Tekh., Ser. Elektron. SVCh, Iss.10(355), pp. 37-41, 1983 (In Russian).
[53]. V.A. Kolomeytsev and V.V. Yakovlev, The synthesis of a rectangular waveguide with a T-ridge, Izv. VUZ. Radioelektron., vol. 26, No. 1, pp. 85-87, 1983. (In Russian). Transl. in: Radioelectron. & Comm. Syst., vol. 26, No. 1, pp. 80-82, 1983.
II. Books of Extended Conference Papers
1. P. Kumi, J.S. Venne, V.V. Yakovlev, M.S. Hilario, B.W. Hoff, and I.M. Rittersdorf, Computational characterization of a composite ceramic block for a millimeter wave heat exchanger, In: G. Nicosia and V. Romano, Eds., Scientific Computing in Electrical Engineering, Springer, 2020, pp. 65-74.
2. V.V. Yakovlev, S.M. Allan, M.L. Fall, and H.S. Shulman, Computational study of thermal runaway in microwave processing of zirconia, In: Microwave and RF Power Applications, J. Tao, Ed., Cépaduès Éditions, 2011, pp. 303-306.
3. E.M. Kiley, V.V. Yakovlev, K. Ishizaki, and S. Vaucher, Applicability study of classical and contemporary models for effective permittivity of metal powders, In: Microwave and RF Power Applications, J. Tao, Ed., Cépaduès Éditions, 2011, pp. 314-317.
4. S.A. Bogachev, D. Bouvard, E.M. Kiley, and V.V. Yakovlev, A macroscopic iterative routine for modeling electromagnetic, thermal, and mechanical phenomena in microwave sintering, In: Microwave and RF Power Applications, J. Tao, Ed., Cépaduès Éditions, 2011, pp. 372-375.
5. V.V. Yakovlev, Examination of contemporary electromagnetic software capable of modeling problems of microwave heating, In: M. Willert-Porada, Ed., Advances in Microwave and Radio Frequency Processing, Springer, 2006, pp. 178-190.
6. V.V. Komarov and V.V. Yakovlev, Computational analysis of an irregular slotted waveguide as radiating element, In: Microwave and Radio Frequency Applications, The American Ceramic Society, 2003, pp. 39-45.
7. V.V. Yakovlev, Commercial EM codes suitable for modeling of microwave heating – a comparative review, In: U. van Reinen, et al, Eds., Scientific Computing in Electrical Engineering, Lecture Notes in Computational Sciences and Engineering, 18, Springer, 2001, pp. 87-96.
8. V.V. Yakovlev, Comparative analysis of contemporary EM software for microwave power industry, In: Microwaves: Theory and Applications in Material Processing V. Ceramic Transactions, vol. 111, The American Ceramic Society, 2000, pp. 551-558.
9. A.S. Zusmanovsky and V.V. Yakovlev, Application of microwave energy in processing of fish and marine products, In: Microwaves: Theory and Applications in Material Processing IV. Ceramic Transactions, vol. 80, The American Ceramic Society, Westerville, OH, 1997, pp. 679-686.
10. G.A. Andreyev, G.I. Hokhlov, and V.V. Yakovlev, Parameters of the TL-wave in a single-wire line under the conducting ground, In: Functional Electrodynamic Systems and Elements, Saratov State Univ. Publishing, Saratov, 1988, p. 13 (In Russian).
III. Peer-Reviewed Conference Proceedings
1. K. Hadidi, C.E. Williams, and V.V. Yakovlev, Computational analysis of electron density effect on power absorption in microwave plasma applicators, Proc. 59th IMPI's Microwave Power Symp. (Edmonton, Canada, June 2025), pp. 62-64.
2. C.A. Nieves, A.E. Baros, B.W. Hoff, Z.W. Cohick, J. Perez, V.V. Yakovlev, and B.S. Tilley, Transient electromagnetic heating of ceramic slabs with nonlinear thermal transport, Proc. 2025 IEEE Pulsed Power & Plasma Science (PPPS) Conf. (Berlin, Germany, June 2025), 979-8-3315-4376-1.
3. Z.W. Adams, K. Gomez-Haibach, J.M. Gaone, B.S. Tilley, and V.V. Yakovlev, Optimal defect-layer positions in thin electromagnetic energy absorbers, Proc. 58th IMPI's Microwave Power Symp. (Washington, DC, May 2024), pp. 81-83.
4. C.E. Williams, E.K. Murphy, and V.V. Yakovlev, Machine-learning efficiency optimization of microwave applicators with plasma, Proc. 19th AMPERE Conf. on Microwave and High Frequency Heating (Cardiff, U.K., September 2023), pp. 231-232.
5. C.E. Williams and V.V. Yakovlev, Characterization of microwave plasma in electromagnetic modeling for processing applications, Proc. 57th IMPI's Microwave Power Symp. (Denver, CO, June 2023), pp. 114-116.
6. M.C. Robinson, J.A. Molles, V.V. Yakovlev, and Z. Popovic, Phase effect on the microwave-induced temperature field: computational and experimental evidence, Proc. Intern, Conf. on Heating by Electromagnetic Sources (HES-2023) (Padua, Italy, May 2023), p. 45.
7. M.T. Porter, A. D'Angio, J. Binner, V.V. Yakovlev, and M.K. Cinibulk, SiCf/SiC ceramic matrix composites using microwave enhanced chemical vapor infiltration, Proc. 56th IMPI's Microwave Power Symp. (Savannah, GA, June 2022), pp. 75-77.
8. C. Manière, G. Lee, S. Chan, E. Torresani, V.V. Yakovlev, J.F. Gerling, E.A. Olevsky, G. Riquet, and S. Martine, Multiphysics simulation of flash microwave heating and sintering, Proc. 56th IMPI's Microwave Power Symp. (Savannah, GA, June 2022), p. 80.
9. M.C. Robinson, V.V. Yakovlev, and Z. Popovic, Experimental and computational study of microwave heating in single-stream waste processing, Proc. 56th IMPI's Microwave Power Symp. (Savannah, GA, June 2022), p. 84-86.
10. S.A. Martin, B.W. Hoff, I.M. Rittersdorf, V.V. Yakovlev, Computational study of temperature in a millimeter wave heat exchanger with an AlN:Mo susceptor on an isothermal metal plate, Proc. “Ultra-High Temperature Ceramics: Materials for Extreme Environment Applications V” Conf. (Snowbird, UT, June 2022), p. 20.
11. A.A. Mohekar, B.S. Tilley, and V.V. Yakovlev, Compressible-gas coolants in electromagnetic heat exchangers: a thin domain model, ASME Intern. Mechanical Engineering Congress and Exposition, vol. 85673, p. V011T11A035.
12. A.A. Mohekar, B.S. Tilley, and V.V. Yakovlev, Onset of Bénard convection in an electromagnetic heat exchanger under laminar flow conditions, ASME 2021 Heat Transfer Summer Conference (Virtual, June 2021), 10 p.
13. M.T. Porter, J. Binner, P. Kumi, K.E. Stern, and V.V. Yakovlev, Computational characterization of microwave enhanced CVI production of SiCf/SiC composites, Proc. 18th AMPERE Conf. on Microwave and High Frequency Heating (Virtual Conference, September 2021), 8 pp.
14. J. Binner, M.T. Porter, R. Morell, P. Kumi, and V.V. Yakovlev, Computational characterization of microwave processing of SiCf/SiC composites, XIX Intern. UIE Congress of Evolution and New Trends in Electrothermal Processes (UIE 2021) (Pilsen, Czechia, September 2021), 2 p.
15. C.M. Hogan, B.W. Hoff, I.M. Rittersdorf, and V.V. Yakovlev, Computational characterization of a millimeter-wave heat exchanger with AlN:Mo cylindrical susceptors, Proc. 55th IMPI's Microwave Power Symp. (Virtual Symposium, June 2020), pp. 44-46.
16. J. Binner, R. Morell, M.T. Porter, P. Kumi**, and V.V. Yakovlev, Simulation of temperature fields in microwave processing of SiCf/SiC composites, Proc. 54th IMPI's Microwave Power Symp. (Virtual Symposium, June 2020), pp. 23-25.
17. A.A. Mohekar, B.S. Tilley, V.V. Yakovlev, Plane wave irradiation of a layered system: resonance-based control over thermal runaway, Proc. 17th AMPERE Conf. on Microwave and High Frequency Heating (Valencia, Spain, September 2019), pp. 292-301.
18. P. Kumi and V.V. Yakovlev, Computational procedure for quantitative characterization of uniformity of high frequency heating, Proc. 53rd IMPI's Microwave Power Symp., (Las Vegas, NV, June 2019), pp. 123-125.
19. A.A. Mohekar, B.S. Tilley, and V.V. Yakovlev, A 2D model of a triple layer electromagnetic heat exchanger with porous media flow, In: IEEE MTT-S Intern. Microwave Symp. Dig. (Boston, MA, June 2019), pp. 59-62.
20. P. Kumi, J.S. Venne, V.V. Yakovlev, M.S. Hilario, B.W. Hoff, and I.M. Rittersdorf, Computational characterization of a composite ceramic layer for a millimeter wave heat exchanger, Proc. of the Intern. Conf. on Scientific Computing in Electrical Engineering (SCEE 2018) (Taormina, Italy, Sept 2018).
21. A.A. Mohekar, J.M. Gaone, B.S. Tilley, and V.V. Yakovlev, Multiphysics simulation of temperature profiles in a triple-layer model of a microwave neat exchanger, Proc. of the 52nd IMPI’s Microwave Power Symp. (Long Beach, CA, June 2018), pp. 33-35.
22. A.A. Mohekar, J.M. Gaone, B.S. Tilley, and V.V. Yakovlev, 2D coupled electromagnetic, thermal and fluid flow model: application to layered microwave heat exchangers, IEEE MTT-S Intern. Microwave Symp. Dig. (Philadelphia, PA, June 2018), pp. 1389-1392.
23. S. Vaucher, V.V. Yakovlev, and H. Yeung, Polymer-ceramic composites as materials with required complex permittivity, Proc. 16th AMPERE Conf. on Microwave and High Frequency Heating (Delft, Netherlands, September 2017), no. 84.
24. A.V. Brovko, E.K. Murphy, V.V. Yakovlev, and T.J. York, Waveguide microwave imaging: geometrical parameters of a spherical inhomogeneity, Proc. 16th AMPERE Conf. on Microwave and High Frequency Heating (Delft, Netherlands, September 2017), no. 85.
25. J.M. Gaone, B.S. Tilley, and V.V. Yakovlev, Permittivity-based control of thermal runaway in a triple-layer laminate, IEEE MTT-S Intern. Microwave Symp. Dig. (Honolulu, HI, June 2017), 978-1-5090-6360-4.
26. E.M. Kiley and V.V. Yakovlev, Two-dimensional multiphysics model of microwave sintering, IEEE MTT-S Intern. Microwave Symp. Dig. (Honolulu, HI, June 2017), 978-1-5090-6360-4.
27. E.M. Moon and V.V. Yakovlev, CAD of a dielectric insert supporting uniformity of microwave heating, Proc. 3rd Global Congress on Microwave Energy Applications (Cartagena, Spain, July 2016), pp. 224-227.
28. H. Yeung and V.V. Yakovlev, Inversion of the mixture models for materials of required complex permittivity, Proc. 50th IMPI's Microwave Power Symp. (Orlando, FL, June 2016), pp. 129-130.
29. E.M. Kiley and V.V. Yakovlev, Comprehensive one-dimensional mathematical model of microwave sintering, In: IEEE MTT-S Intern. Microwave Symp. Dig. (San-Francisco, CA, May 2016).
30. J.M. Catalá-Civera, F.L. Penaranda-Foix, E.M. Moon, G.S. Iannacchione, and V.V. Yakovlev, Measurement of material properties of graphite power for input data in multiphysics modeling, Proc. 15th AMPERE Conf. on Microwave and High Frequency Heating (Cracow, Poland, September 2015).
31. E.M. Moon and V.V. Yakovlev, Effect of frequency alternation on the heating patterns in a solid-state microwave oven, Proc. 15th AMPERE Conf. on Microwave and High Frequency Heating (Cracow, Poland, September 2015).
32. E.M. Moon, J.F. Gerling, C.W. Scouten, and V.V. Yakovlev, Modeling-based optimization of thermal processing microwave fixation, Proc. 49th IMPI's Microwave Power Symp. (San Diego, CA, June 2015), pp. 54-55.
33. V.V. Yakovlev, Frequency control over the heating patterns in a solid-state dual-source microwave oven, In: IEEE MTT-S Intern. Microwave Symp. Dig. (Phoenix, AZ, May 2015), 978-1-4799-8275-2/15.
34. A.V. Brovko, E.K. Murphy, and V.V. Yakovlev, An artificial neural network technique for determining the volume fraction of solids in particulate materials, Proc. 48th IMPI's Microwave Power Symp. (New Orleans, LA, June 2014), pp. 78-81.
35. E.M. Moon, C. Yang, M. Patel, H. He, and V.V. Yakovlev, Microwave- induced temperature fields in graphite powder heated in a waveguide reactor, In: IEEE MTT-S Intern. Microwave Symp. Dig. (Tampa, FL, June 2014), 978-1-4799-3869-8/14.
36. A.O. Holmes, C. Yang, M. Patel, K. Savaram, H. He, and V.V. Yakovlev, Microwave-enabled production of solution-processable graphene: principles and techniques of macroscopic modeling, Proc. 14th AMPERE Conf. on Microwave and High Frequency Heating (Nottingham, U.K., September 2013), pp. 13-16.
37. A.O. Holmes, E.K. Murphy, and V.V. Yakovlev, Scaling up reactors for microwave-assisted chemistry via ANN optimization, Proc. 14th AMPERE Conference on Microwave and High Frequency Heating (Nottingham, U.K., September 2013), pp. 316-319.
38. A.V. Brovko, E.K. Murphy, and V.V. Yakovlev, Modeling-based technique for 3D permittivity profile reconstruction, Proc. 47th IMPI's Microwave Power Symp. (Providence, RI, June 2013), pp. 97-100.
39. A.O. Holmes, E.K. Murphy, and V.V. Yakovlev, CAD technique for scaling up reactors of microwave-assisted chemistry, Proc. 47th IMPI's Microwave Power Symp. (Providence, RI, June 2013), pp. 101-104.
40. C. Yang and V.V. Yakovlev, Computation of microwave-induced temperature in liquid cylindrical reactants, Proc. 47th IMPI's Microwave Power Symp. (Providence, RI, June 2013), pp. 105-107.
41. P. Kopyt, E.M. Kiley, V.V. Yakovlev, S.M. Allan, M.L. Fall, and H.S. Shulman, Modeling of hybrid heating of limestone by microwaves and thermal radiation, Proc. 47th IMPI's Microwave Power Symp. (Providence, RI, June 2013), pp. 108-111.
42. A.O. Holmes, C. Yang, and V.V. Yakovlev, Temperature modeling for reaction development in microwave-assisted chemistry, In: IEEE MTT-S Intern. Microwave Symp. Dig. (Seattle, WA, June 2013), 978-1-4673-2141-9/13, pp. 1-4.
43. C. Yang and V.V. Yakovlev, A simple model of microwave-induced heat transfer in cylindrical reactants with strong convection, Proc. Intern. Conf. on Heating by Electromag. Sources (HES-13) (Padua, Italy, May 2013), pp. 191-198.
44. A.O. Holmes, E.K. Murphy, and V.V. Yakovlev, Modeling-based scale-up of reactors in microwave-assisted chemistry, Proc. 15th Seminar "Computer Modeling in Microwave Engineering and Applications – Multiphysics Modeling in Microwave Power Engineering" (Padua, Italy, May 2013), pp. 29-32.
45. C. Yang and V.V. Yakovlev, A simple model of microwave-induced heat transfer in cylindrical reactants with strong convection, Proc. 15th Seminar "Computer Modeling in Microwave Engineering and Applications – Multiphysics Modeling in Microwave Power Engineering" (Padua, Italy, May 2013), pp. 33-38.
46. A.V. Brovko, E.K. Murphy, and V.V. Yakovlev, Modeling-based technique for 3-D microwave imaging of dielectric samples in closed systems, Proc. Progress in Electromagnetics Research Symp. (PIERS'2009) (Moscow, Russia, August 2012), p. 1.
47. P. Kopyt and V.V. Yakovlev, A new modeling technique for processes of hybrid heating by microwaves and thermal radiation, Proc. Progress in Electromagnetics Research Symp. (PIERS'2009) (Moscow, Russia, August 2012), p. 1.
48. A. Raniszewski, M. Krysicki, M. Celuch, A. Wieckowski, and V.V. Yakovlev, Efficient FDTD models of susceptors on cylindrical surfaces, Proc. 2nd Global Congress on Microwave Energy Applications (Long Beach, CA, July 2012).
49. A. Raniszewski, M. Krysicki, A. Wieckowski, M. Celuch, and V.V. Yakovlev, A new FDTD model of microwave susceptors on curved surfaces, 19th Intern. Conf. on Microwaves, Radar & Wireless Communications (MIKON 2012) (Warsaw, May 2012), 10.1109/MIKON.2012.6233586.
50. P. Kopyt, V.V. Yakovlev, S.M. Allan, M.L. Fall, E.M. Kiley, and H.S. Shulman, A new modeling technique for radiative-microwave heating and its application to hybrid thermal processing of limestone, Proc. 2nd Global Congress on Microwave Energy Applications (Long Beach, CA, July 2012).
51. S.M. Allan, M.L. Fall, E.M. Kiley, P. Kopyt, H.S. Shulman, and V.V. Yakovlev, Modeling of hybrid (heat radiation and microwave) high temperature processing of limestone, In: IEEE MTT-S Intern. Microwave Symp. Dig. (Montreal, Canada, June 2012).
52. P. Kopyt, V.V. Yakovlev, S.M. Allan, M.L. Fall, E.M. Kiley, and H.S. Shulman, A new modeling technique for combined heating by thermal radiation and microwaves - application to processing of limestone, Proc. 14th Seminar "Computer Modeling in Microwave Engineering and Applications - Multiphysics Modeling in Microwave Power Engineering" (Bayreuth, Germany, March 2012), p. 16.
53. A. Raniszewski, M. Krysicki, M. Celuch, A. Wieckowski, and V.V. Yakovlev, New models of microwave susceptors for curved surfaces, Proc. 14th Seminar "Computer Modeling in Microwave Engineering and Applications - Multiphysics Modeling in Microwave Power Engineering" (Bayreuth, Germany, March 2012), p. 27.
54. S.A. Bogachev, D. Bouvard, E.M. Kiley, and V.V. Yakovlev, An iterative macroscopic solver for coupled electromagnetic, thermal, and mechanical processes in microwave sintering, Proc. 14th Seminar "Computer Modeling in Microwave Engineering and Applications - Multiphysics Modeling in Microwave Power Engineering" (Bayreuth, Germany, March 2012), pp. 28-30.
55. E.M. Kiley, V.V. Yakovlev, K. Ishizaki, and S. Vaucher, Applicability of mixture models to estimation of the effective complex permittivity of metal powders, Proc. 14th Seminar "Computer Modeling in Microwave Engineering and Applications - Multiphysics Modeling in Microwave Power Engineering" (Bayreuth, Germany, March 2012), pp. 31-35.
56. E.M. Kiley and V.V. Yakovlev, Modeling of microwave ovens with perforated metal walls (2011), In: IEEE MTT-S Intern. Microwave Symp. Dig. (Baltimore, MD, June 2011), 10.1109/MWSYM.2011.5972947, pp. 1-4.
57. E.M. Kiley and V.V. Yakovlev, Contemporary models of effective permittivity and permeability of metal powders - a comparative review, Proc. 13th Seminar "Computer Modeling in Microwave Engineering and Applications - Advances in Determining Material Parameters" (Thun, Switzerland, March 2011), pp. 36-43.
58. A.V. Brovko, E.K. Murphy, and V.V. Yakovlev, Modeling-based reconstruction of 3D permittivity profiles using a neural network inversion, Proc. 13th Seminar "Computer Modeling in Microwave Engineering and Applications - Advances in Determining Material Parameters" (Thun, Switzerland, March 2011), pp. 44-46.
59. V.V. Yakovlev, S.M. Allan, M.L. Fall, and H.S. Shulman, Computational study of microwave processing of zirconia: effects of frequency and temperature-dependent material parameters, Proc. 13th Seminar "Computer Modeling in Microwave Engineering and Applications - Advances in Determining Material Parameters" (Thun, Switzerland, March 2010), pp. 54-61.
60. A.V. Brovko, E.K. Murphy, and V.V. Yakovlev, A modeling-based technique for nondestructive evaluation of metal powders undergoing microwave sintering, In: IEEE MTT-S Intern. Microwave Symp. Dig. (Anaheim, MA, May 2010), pp. 1428-1431.
61. Yu.G. Smirnov, Yu.V. Shestopalov, and V.V. Yakovlev, A volume singular integral equation technique for reconstruction of complex permittivity of a body in a rectangular waveguide, Proc. 2010 ACES Conference on Applied Computational Electromagnetics (Tampere, Finland, April 2010), pp. 426-430.
62. E.K. Murphy and V.V. Yakovlev, CAD of microwave chemistry reactors with energy efficiency optimized for multiple reactants, Proc. ACES Conference on Applied Computational Electromagnetics (Tampere, Finland, April 2010), pp. 431-436.
63. A.V. Brovko, E.K. Murphy, and V.V. Yakovlev, Principles of modeling-based nondestructive evaluation of metal powders under microwave processing, Proc. 12th Seminar "Computer Modeling in Microwave Engineering and Applications - Advances in Modeling of Microwave Sintering" (Grenoble, France, March 2010), pp. 58-61.
64. S. Demjanenko, K. Nowak, R. Northrup, S.A. Bogachev, E.M. Kiley, D. Bouvard, S.L. Weekes, and V.V. Yakovlev, Interpolation algorithms for interfacing FDTD and FEM meshes in multiphysics modeling of microwave sintering, Proc. 12th Seminar "Computer Modeling in Microwave Engineering and Applications - Advances in Modeling of Microwave Sintering" (Grenoble, France, March 2010), pp. 62-64.
65. T.V. Koutchma, E.K. Murphy and V.V. Yakovlev, A modeling-based approach to designing of microwave sterilization processes for low acid foods, Proc. 12th AMPERE Conference on Microwave and High Frequency Heating (Karlsruhe, Germany, September 2009), pp. 375-378.
66. E.K. Murphy and V.V. Yakovlev, RBF network optimization with CORS sampling for practical CAD of microwave applicators, Proc. 12th AMPERE Conference on Microwave and High Frequency Heating (Karlsruhe, Germany, September 2009), pp. 79-82.
67. E.M. Kiley, S.L. Weekes, and V.V. Yakovlev, Coupled electromagnetic- thermal 1-D model of combined microwave-convective heating with pulsing microwave energy, Proc. Progress in Electromagnetics Research Symposium (PIERS'2009) (Moscow, Russia, August 2009), pp. 402-403.
68. A.V. Brovko, E.K. Murphy, M. Rother, H.P. Schuchmann, and V.V. Yakovlev, Microwave imaging in closed cavities - locating spatial inhomogeneities of dielectric objects, Proc. Progress in Electromagnetics Research Symposium (PIERS'2009) (Moscow, Russia, August 2009), p. 631.
69. E.K. Murphy and V.V. Yakovlev), Optimization of complex microwave systems with CORS RBF network backed by FDTD analysis data, Proc. Progress in Electromagnetics Research Symposium (PIERS'2009) (Moscow, Russia, August 2009), pp. 629-630.
70. E.K. Murphy and V.V. Yakovlev, Efficiency optimization for microwave thermal processing of materials with temperature-dependent media parameters, Proc. Progress in Electromagnetics Research Symposium (PIERS'2009) (Moscow, Russia, August 2009), pp. 400-401.
71. A.V. Brovko, E.K. Murphy, and V.V. Yakovlev, Efficient techniques of ANN-based microwave imaging in closed systems, Recent Advances in Microwave Power Applications & Techniques (RAMPAnT) Workshop Notes, IEEE MTT-S Inter. Microwave Symp. (Boston, MA, June 2009).
72. E.K. Murphy and V.V. Yakovlev (2009), Reducing a number of full-wave analyses in RBF neural network optimization of complex microwave structures, In: IEEE MTT-S Intern. Microwave Symp. Dig. (Boston, MA, June 2009), pp. 1253-1256.
73. A.V. Brovko, E.K. Murphy, and V.V. Yakovlev, A neural network technique for reconstruction of 2D complex permittivity profiles of materials in waveguide systems, Proc. Global Congress on Microwave Energy Applications (GCMEA 2008 MAJIC 1st) (Otsu, Japan, August 2008), pp. 381-384.
74. Yu.V. Shestopalov, Yu.G. Smirnov, and V.V. Yakovlev, Development of mathematical methods for reconstructing complex permittivity of a scatterer in a waveguide, Proc. 5th Intern. Workshop on Electromagnetic Wave Scattering (Antalya, Turkey, August 2008).
75. Yu.V. Shestopalov, Yu.G. Smirnov, and V.V. Yakovlev, Volume singular integral equation method for determination of effective permittivity of meta- and nanomaterials, Proc. Progress in Electromagnetics Research Symposium (PIERS'2008) (Cambridge, MA, June 2008), pp. 291–292.
76. E.E. Eves, B.G. Cordes, and V.V. Yakovlev, Modeling-based synthesis of a microwave heating process producing homogeneous temperature field, Proc. ACES Conference on Applied Computational Electromagnetics (Niagara Falls, ON, Canada, April 2008), pp. 542-544.
77. E.K. Murphy and V.V. Yakovlev, Neural network technique simultaneously optimizing antenna return loss and radiation pattern, Proc. ACES Conference on Applied Computational Electromagnetics (Niagara Falls, ON, Canada, April 2008), pp. 528-531.
78. A.V. Brovko, E.K. Murphy, and V.V. Yakovlev, Neural network technique for Gaussian reconstruction of spatial distribution of complex permittivity, Proc. 10th Seminar "Computer Modeling & Microwave Power Engng" (Modena, Italy, February 2008), pp. 28-34.
79. B.G. Cordes, E.E. Eves and V.V. Yakovlev, Modeling-based synthesis of a microwave heating process resulting in a uniform temperature field, Proc. 10th Seminar "Computer Modeling & Microwave Power Engng" (Modena, Italy, February 2008), pp. 35-37.
80. B.G. Cordes and V.V. Yakovlev, Optimization of the Sierpinski carpet fractal antenna, Proc. SIAM Conf. on Math. for Industry: Challenges and Frontiers (Philadelphia, PA, October 2007), pp. 37-38.
81. B.G. Cordes and V.V. Yakovlev (2007), Synthesis of microwave heating process producing uniform temperature field, Proc. SIAM Conf. on Math. for Industry: Challenges and Frontiers (Philadelphia, PA, October 2007), p.23.
82. B.G. Cordes, E.E. Eves and V.V. Yakovlev, Modeling-based minimization of time-to uniformity in microwave heating systems, Proc. 11th AMPERE Conference on Microwave and High Frequency Heating (Oradea, Romania, September 2007), pp. 305-308.
83. B.G. Cordes and V.V. Yakovlev, Computational tools for synthesis of a microwave heating process resulting in the uniform temperature field, Proc. 11th AMPERE Conf. on Microwave and High Frequency Heating (Oradea, Romania, September 2007), pp. 71-74.
84. D.A. Feldman, E.M. Kiley, S.L. Weekes, and V.V. Yakovlev, Modeling of temperature fields in 1D and 2D heating scenarios with pulsing microwave energy, Proc. 41st Microwave Power Symposium (Vancouver, BC, Canada, August 2007), pp. 130-134.
85. Yu.V. Shestopalov and V.V. Yakovlev, Uniqueness of complex permittivity reconstruction for an arbitrarily shaped body in a parallel-plane waveguide, Proc. of URSI Electromagnetic Theory Symp. (EMTS 2007), Ottawa, Canada, July 2007).
86. Yu.V. Shestopalov and V.V. Yakovlev, Determination of permittivity of a lossy dielectric inclusion in a rectangular waveguide, Proc. Progress in Electromagnetics Research Symp. (PIERS'2007) (Beijing, China, March 2007), p. 1205.
87. D.A. Feldman, E.M. Kiley, S.L. Weekes, and V.V. Yakovlev, 1D and 2D Coupled electromagnetic-thermal models for combined convective-microwave heating in a pulsing regime, Proc. 9th Seminar "Computer Modeling & Microwave Power Engng" (Valencia, Spain, March 2007), pp. 15-19.
88. E.E. Eves, E.K. Murphy, and V.V. Yakovlev, Reconstruction of complex permittivity with neural-network-controlled FDTD modeling, Proc. 9th Seminar "Computer Modeling & Microwave Power Engng" (Valencia, Spain, March 2007), pp. 22-27.
89. E.K. Murphy and V.V. Yakovlev, Viable FDTD-backed RBF network optimization versus local conventional techniques, Proc. 9th Workshop on Optimization and Inverse Problems in Electromagnetics (Sorrento, Italy, September 2006), pp. 117-118.
90. V.V. Komarov, Yu.N. Pchelnikov, and V.V. Yakovlev, Double-ridged circular quasi-waveguide applicator, Proc. 40th Microwave Power Symposium (Boston, MA, August 2006), pp. 279-282.
91. V.V. Komarov and V.V. Yakovlev, CAD of a single-mode elliptical applicator with coaxial excitation, Proc. 40th Microwave Power Symposium (Boston, MA, August 2006), pp. 201-204.
92. B.G. Cordes, E.K. Murphy and V.V. Yakovlev, Modeling and optimization of the Sierpinski Carpet fractal antenna, IX Intern. School for Junior Scientists and Students on Optics, Laser Physics, and Biophysics – Workshop "Electromagnetics of Microwaves, Submillimeter and Optical Waves" (Saratov, Russia, September 2005).
93. E.K. Murphy and V.V. Yakovlev, RBF ANN optimization of systems represented by small FDTD data sets, Proc. 10th AMPERE Conf. on Microwave and High Frequency Heating (Modena, Italy, September 2005), pp. 376-379.
94. V.V. Komarov and V.V. Yakovlev, Modeling of a cylindrical applicator with the TM01l mode and a spherical load, Proc. 10th AMPERE Conference on Microwave and High Frequency Heating (Modena, Italy, September 2005), pp. 423-427.
95. E.E. Eves, V.V. Yakovlev, A. Moryc, E.K. Murphy, V.A. Staffon, and T.D. Wendel, Reconstruction of complex permittivity of dispersive materials with FDTD modeling control-led by neural networks, Proc. 39th Microwave Power Symp. (Seattle, WA, July 2005), pp. 36-39.
96. E.K. Murphy and V.V. Yakovlev, Numerical optimization of microwave systems represented by limited modeling data, Abstracts of Intern. Conf. on Matrix Methods & Operator Equations (Moscow, Russia, June 2005), pp. 36-37.
97. E.E. Eves, E.K. Murphy and V.V. Yakovlev, ANN-FDTD-based numerical technique for reconstruction of complex permittivity, Abstracts of Intern. Conf. on Matrix Methods & Operator Equations (Moscow, Russia, June 2005), pp. 36-37.
98. B.G. Cordes and V.V. Yakovlev, Optimization of the Sierpinski Carpet fractal antenna, Proc. 2005 ASEE NE Conf. (Fairfield, CT, April 2005).
99. V.V. Yakovlev, Optimization of reflection and transmission characteristics of a waveguide window, Proc. 4th World Congress on Microwave & RF Processing (Austin, TX, Nov 2004), pp. 172-174.
100. V.A. Mechenova, E.K. Murphy, and V.V. Yakovlev, Advances in computer optimization of microwave heating systems, Proc. 38th Microwave Power Symposium (Toronto, Canada, July 2004), pp. 87-91.
101. E.E. Eves, E.K. Murphy, and V.V. Yakovlev, Neural networks for FDTD-backed permittivity reconstruction, Intern. Symp. Heating by Electromagnetic Sources (HES-04) (Padua, Italy, June 2004), pp. 149-156.
102. E.K. Murphy and V.V. Yakovlev, FDTD-backed reconstruction of complex permittivity with backward-trained neural networks, Proc. 6th Seminar "Computer Modeling & Microwave Power Engineering" (Austin, TX, January 2004), pp. 40-47.
103. J. Cresko and V.V. Yakovlev, A slotted waveguide applicator design for heating fluids, Proc. 9th AMPERE Conf. on Microwave & HF Processing (Loughborough, U.K., September 2003), pp. 317-320.
104. E.E. Eves, P. Kopyt, G. Pettigrew**, and V.V. Yakovlev, Reconstruction of complex permittivity with neural networks, Proc. 9th AMPERE Conf. on Microwave & HF Processing (Loughborough, U.K., September 2003), pp. 141-144.
105. E.K. Murphy and V.V. Yakovlev, FDTD-backed RBF network technique for efficiency optimization of microwave structures, Proc. 9th AMPERE Conf. on Microwave & HF Processing (Loughborough, U.K., September 2003), pp. 197-200.
106. V.A. Mechenova and V.V. Yakovlev, Efficient optimization of S-parameters of systems and components in microwave heating, Proc. 3rd World Congress on Microwave & RF Processing (Sydney, Australia, Sept 2002), pp. M4A.24-M4A.25.
107. V.V. Komarov and V.V. Yakovlev, Computational analysis of an irregular slotted waveguide as radiating element, Proc. 3rd World Congress on Microwave & RF Processing (Sydney, Australia, September 2002), pp. TH1A.2-3.
108. V.V. Komarov and V.V. Yakovlev, Modeling-assisted perturbation technique for measurement of complex permittivity, Proc. 37th Microwave Power Symposium (Atlantic City, NJ, July 2002), pp. 80-83.
109. V.V. Yakovlev, Efficient electromagnetic models for systems and processes of microwave heating, Proc. Intern. Seminar on Heating by Internal Sources (HIS-01) (Padua, Italy, September 2001), pp. 285-292.
110. V.V. Yakovlev, Examination of contemporary electromagnetic software capable of modeling problems of microwave heating, Proc. 8th AMPERE Conf. on Microwave and RF Heating (Bayreuth, Germany, September 2001), pp. 19-20.
111. K.A. Lurie and V.V. Yakovlev, Optimal materials design in the problem of control of the waveguide fields, Proc. Progress in Electromagnetics Research Symp. (PIERS'2000) (Cambridge, MA, July 2000), p. 1030.
112. V.V. Yakovlev, Comparative analysis of contemporary EM software for microwave power industry, Digest of the 2nd World Congress on Microwave & Radio Frequency Processing, Orlando, FL, April 2000, p. 29.
113. K.A. Lurie and V.V. Yakovlev, Control of microwave thermal processing in the context of the EPRI electrotechnology programs, SIAM Northeast Regional Mathematics in Industry Workshop (Worcester, MA, May 1998), p. 57.
114. V.A. Kolomeytsev, V.V. Komarov, and V.V. Yakovlev, Auxiliary elements enhancing characteristics of traveling wave applicators, Proc. 32nd Microwave Power Symp. (Ottawa, Canada, July 1997), pp. 34-37.
115. V.A. Kolomeytsev, V.V. Komarov & V.V. Yakovlev, Approaching the uniform spatial field distribution for efficient design of microwave heating structures, Proc. Progress in Electromagnetics Research Symp. (PIERS'97) (Cambridge, MA, July 1997), p. 614.
116. V.A. Kolomeytsev, V.V. Komarov, and V.V. Yakovlev, Double-ridged traveling wave applicator for efficient microwave duplicating of fabric, Proc. 31st Microwave Power Symp. (Boston, MA, July 1996), pp. 159-161.
117. V.A. Kolomeytsev and V.V. Yakovlev, Electromagnetic-thermal coupled problem for microwave heating of thermos-parametric material in waveguide structures, Proc. 7th IEEE Conf. on Electromagnetic Field Computation (CEFC'96) (Okayama, Japan, March 1996), p. 294.
118. V.A. Kolomeytsev and V.V. Yakovlev, Self-conjugated problem of microwave heating for waveguide structures contained thermos-parametric media, Proc. 5th Conf. Microwave & HF Heating (Cambridge, U.K., Sept. 1995), pp. S22.1-S22.4.
119. V.V. Yakovlev, V.A. Kolomeytsev, and V.V. Komarov, Two-sectional matching transition for partially filled rectangular T-septum waveguide, Proc. 10th Conf. on the Compu-tation of Electromagnetic Fields (COMPUMAG'95) (Berlin, Germany, July 1995), pp. 692-693.
120. V.V. Yakovlev, Multiparametric optimization of applicators on complex cross-section waveguides, Proc. 29th Microwave Power Symposium (Chicago, IL, July 1994), pp. 50-52.
121. V.V. Yakovlev, Influence of dielectric lossy on electromagnetic fields in rectangular H-plane slab-loaded waveguide, Proc. 6th IEEE Conf. on Electromagnetic Field Computation (CEFC'94) (Aix-les-Bains, France, July 1994), p. 210.
122. V.V. Komarov and V.V. Yakovlev, Continuous single-mode transitions for joining rectangular and dielectric-loaded horseshoe-shaped waveguides, Proc. 9th Conf. on the Computation of Electromagnetic Fields (COMPUMAG'93) (Miami, Fl, Nov. 1993), pp. 340-341.
123. V.A. Kolomeytsev and V.V. Yakovlev, Family of operating chambers for microwave thermal processing of dielectric materials, Proc. 28th Microwave Power Symposium (Montreal, Canada, July 1993), pp. 181-186.
124. G.A. Andreyev, L.F. Chornaia, and V.V. Yakovlev, Decimetric wave propagation along a single-wire line parallel to the surface of conductivity ground, Proc. Intern. Conf. on Electromagnetic Field Problems and Applications (Hangzhou, China, Oct. 1992), pp. 407-408.
125. V.V. Komarov, V.V. Yakovlev, A.R. Zheleznyak, E.I. Dmitrieva, and V.A. Kolomeytsev, Finite-element analysis of T-septum waveguide structures, Proc. Symp. on Antenna Technology and Applied Electromagnetics (ANTEM'92) (Winnipeg, Canada, Aug. 1992), pp. 443-448.
126. V.V. Yakovlev, Bandwidth properties of tuner between rectangular and dielectric-loaded rectangular T-septum waveguide, Digest URSI Radio Sci. Meeting I11 (Chicago, IL, July 1992), p. 221.
127. G.A. Andreyev, and V.V. Yakovlev, Interference structure of the field of the buried source close to the ground surface, Proc 16th All- Union Conference of Radio Wave Propagation (Khar'kov, USSR, Sept. 1990), vol. 2, p. 72. (In Russian).
128. V.A. Kolomeytsev and V.V. Yakovlev, The characteristics of rectangular T-septum waveguide as a unit of equipment for microwave heating of materials, Proc. 20th European Microwave Conf. (Budapest, Hungry, Sept. 1990), pp. 1002-1005.
129. G.A. Andreyev and V.V. Yakovlev, Influence of ground moisture on propagation of decimetre lateral wave along the ground surface, Proc. All-Union Meeting on the Terrestrial Radio Wave Propagation and EMC (Ulan-Ude, USSR, July 1990), pp. 216-217. (In Russian).
130. G.A. Andreyev, L.V. Zayentsev, and V.V. Yakovlev, Remote heat radiation control of MMW attenuation in rain atmosphere, Proc. 11th All-Union Symposium on Propagation of MMW and Sub-MMW in Atmosphere (Frunze, USSR, Sept. 1986), pp. 226-229. (In Russian).
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