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Gilbert De Mey Department of Electronics and Information Systems University of Ghent Sint Pietersnieuwstraat 41, 9000 Gent tel.:32-9-264.33.86 fax.:32-9-264.35.94 E-mail: demey@elis.ugent.be |
Gilbert De Mey was born in Gent on 22/08/47. He graduated in Electronics in 1970 at the University of Gent. After his military service, performed in Germany, he obtained in 1972 the degree in Telecommunications Engineering. From that time on, he became research assistant at the laboratory of Electronics and Metrology. His research activities involved the study of the Hall effect in semiconductors layers. Later on he was involved in modelling ion transport in dielectric layers. He obtained his PhD degree with a study on the last topic in 1975.
After 1978 he started research projects on photovoltaic energy conversion and systems. The first photovoltaic plant (1 kW) in the city of Ghent was installed on a roof of the university in 1980. In 1984 he started a new research topic on thermal problems in electronics. This work involves both theoretical and numerical simulations of temperature distributions in all kinds of electronic components. Experimental measurements are mainly carried out with infrared thermography. In 1990, biomedical research was also started in the field of electrotherapy and electrosurgery. This research also includes temperature evaluations in human tissues. The study of electroconductive textiles and their use as electric contacts on the human skin started in 2005.
At the moment Gilbert De Mey is full time professor at the University of Gent with an affiliation at the department of Electronics and Information Systems. He teaches courses on heat transfer in electronics, analogue circuits and biomedical measurements. At the Technical University of Łódź, Poland, he has been teaching in collaboration with B. Wi¸ecek some parts of the course ”Digital logic and Systems” at the International Faculty of Engineering since the beginning in 1994. Within the framework of the Erasmus programme, he started exchange programmes with the universities in Cluj (RO), Valencia, Madrid (SP), Thessaloniki (GR), Łódź, Warsaw, Kraków (PL), Strassbourg (FR) and Ankara (TR).
At the moment, he is the head of a research team of several collaborators, among which the majority is originating from eastern europe. The research topics all involve thermal aspects of electronics, not only cooling but also the electro-thermal coupling in modern microelectronic circuits. Since 2005 he is involved in the EU FP6 programme 1 LIDWINE, where he is responsible for the research on electroconductive textiles.
From the education point of view he has been involved in several collaboration programmes with eastern Europe: 4 TEMPUS programs with Poland, 3 with Romania and 1 Flemish collaboration program with Ukraina. All these programmes started after 1990. For two EU TEMPUS projects with the University of Cluj in Romania (1994-1997 and 1997-2000) he was the main contractor. As a consequence this period involved a lot of administrative work and hence dip in the amount of scientific work. The university of Cluj awarded him the title of Doctor Honoris Causa in 1999.
Form the beginning in 1972 till now, the Boundary Element Method has been the link between all the research projects. For the ion transport in dielectrics, modelling of electric and magnetic fields, heat transfer in microelectronics,... BEM was the mostly used numerical tool.
He was elected in 2009 as a member of the CBP (Chemistry Biology Physics) panel of the Nato Science for Peace programme.
Languages: Dutch (native language), French, English, German and a passive knowledge of Polish, Romanian and Afrikaans.
List of journal publications (web of science)
1. G. De Mey: ”Integral equation for the potential distribution in a Hall generator” Electronics Letters, 1973, vol.9, p.264-266.
2. G. De Mey: ”Field Calculations in Hall samples” Solid State Electronics, 1973, vol.16, p.955-957.
3. G. De Mey: ”Influence of sample geometry on Hall Mobility measurements” Archiv fur Elektronik und Uebertragungstechnik, 1973, vol.27, p.309-313.
4. G. De Mey: ”A wide-band high voltage booster” International Journal of Electronics, 1973, vol.35, p.709-711.
5. W. De Wilde and G. De Mey: ”Time constant of the voltage step response in thin film capacitors” Physica Status Solidi (a), 1973, vol.20, p.K147-K149.
6. H.J. Pauwels and G. De Mey: ”Surface to surface transition probabilities in thin film capacitors” Physica Status Solidi (a), 1974, vol.24, p.K39-K44.
7. G. De Mey: ”Electrical contacts to evaporated Cadmium Selenide” Electrocomponent Science and Technology, 1974, vol.1, p.39-41
8. G. De Mey: ”Gaussian and rectangular distributions of relaxation times in dispersion mechanism” Lettere al Nuovo Cimento, 1974, vol.9, p.670-672.
9. G. De Mey: ”Influence of magnetoresistance on Hall mobility measurements” Archiv fur Elektronik und Uebertragungstechnik, 1974, vol.28, p.335-336.
10. G. De Mey: ”Determination of the electric field in a Hall generator under influence of an alternating magnetic field” Solid State Electronics, 1974, vol.17, p.977-979.
11. G. De Mey: ”An expansion method for calculation of low frequency Hall effect magnetoresistance” The Radio and Electronic Engineer, 1974, vol.44, p.321-325.
12. G. De Mey and W. De Wilde: ”Influence of mobile ions on the electronic conduction in silicon oxide films” Thin Solid Films, 1974, vol.23, p.301-305.
13. G. De Mey, X. Burvenich and M. De Molder: ”Influence of sample geometry on magnetoresistance measurements” Physica Status Solidi (a), 1974, vol.23, p.K45-K48.
14. W. De Wilde and G. De Mey: ”Vacuum deposition rate measurements on thin polymer films” Vacuum, 1974, vol.24, p.307-308.
15. G. De Mey: ”A method for calculating eddy currents in plates of arbitrary shape” Archiv fur Elektrotechnik, 1974, vol.56, p.137-140.
16. G. De Mey: ”Frequency shift in resonant cavities” International Journal of Electronics, 1974, vol.37, p.369-375.
17. G. De Mey: ”Cole-Cole diagram of the non-linearised relaxation equation” Journal de Physique, 1974, vol.35, p.867-868.
18. G. De Mey und J. Van Campenhout: ”Hall-Beweglichkeitsmessungen auf dunnen Halbleiterschichten” Archiv fur Technisses Messen, 1975, vol.4, p.55-56.
19. G. De Mey: ”Carrier concentration in a Hall generator under influence of a varying magnetic field” Physica Status Solidi A, 1975, vol.28, p.175-180.
20. G. De Mey: ”Specific conductivity measurements on non homogeneous semiconductor samples” Applied Physics, 1975, vol.6, p.189-197.
21. G. De Mey, W. De Wilde: ”Influence of space charge effects on the ion distribution in evaporated SiO dielectrics” Journal of Non Cristalline Solids, 1975, vol.17, p.428-432.
22. S. De Wolf and G. De Mey: ”Numerical methods for integral equations of potential problems” Information Processing Letters, 1975, vol.3, p.121-124.
23. G. De Mey: ”An integral equation method to solve Poisson’s equation for stochastic charge densities and boundary potential” Lettere al Nuovo Cimento, 1975, vol.12, p.470-472.
24. G. De Mey: ”The finite element method for potential calculations in a Hall plate” The Radio and Electronic Engineer, 1975, vol.45, p.472-474.
25. G. De Mey, M. Demolder, X. Burvenich: ”Negative photoconductance in thin Indium antimonide films” Solid State Communications, 1975, vol.17, p.1201-1203.
26. G. De Mey: ”An analog between Fuoss and Kirkwood’s theory of dielectric relaxation and RC network synthesis” Proceedings IEEE, 1975, vol.63, p.1529-1530.
27. G. De Mey: ”Calculation of eigenvalues of the Helmholtz equation by an Integral Equation” Numerical Methods in Engineering, 1976 ,vol.10, p.59-66.
28. W. De Wilde and G. De Mey: ”Study of low frequency relaxation phenomena in thin film capacitors” Applied Scientific Research, 1976, vol.31, p.401-430.
29. S. De Wolf and G. De Mey: ”Numerical solution of integral equation for potential problems by a variational principle” Information Processing Letters, 1976, vol.4, p.136-139.
30. G. De Mey: ”Eddy currents and Hall effect in a circular disc” Archiv fur Elektronik und Uebertragungstechnik, 1976, vol.30, p.312-315.
31. G. De Mey: ”An integral equation approach to AC diffusion” International Journal of Heat and Mass Transfer, 1976, vol.19, p.702-704.
32. B. Jacobs and G. De Mey: ”Analysis of the clover shaped geometry for a Hall generator” Electronics Letters, 1976, vol.12, p.102-103.
33. G. De Mey: ”An integral equation method for the numerical calculation of ion drift and diffusion in evaporated dielectrics” Computing, 1976, vol.17, p.169-176.
34. G. De Mey: ”Integral equation solution of potential problems in geometries with a slotted boundary” International Journal of Electronics, 1976, vol.41, p.221-226.
35. G. De Mey: ”On the two dimensionality of potential problems in thin conducting films” Thin Solid Films, 1976, vol.38, p.363-365.
36. G. De Mey: ”Frequency shift in cavities with rough walls” Applied Physics, 1977, vol.12, p.83-86.
37. G. De Mey: ”A second order perturbation method for potential calculations in non homogeneous semiconducting layers” Applied Physics, 1977, vol.12, p.213-215.
38. G. De Mey: ”A comment on an integral equation method for diffusion” International Journal of Heat and Mass Transfer, 1977, vol.20, p.181-182.
39. G. De Mey: ”Hall effect in a non homogeneous magnetic field” Solid State Electronics, 1977, vol.20, p.139-142.
40. G. De Mey and H.J. Pauwels: ”Time constant of the ion current in thin film capacitors” Physica Status Solidi, 1977, vol.44, p.K195-K199.
41. G. De Mey: ”Integral equations for potential problems with periodic Green’s functions” Journal of Applied Science and Engineering, 1977, vol.2, p.117-121.
42. G. De Mey: ”Numerical solution of potential problems by integral equations without Green’s functions” Lettere al Nuovo Cimento, 1977, vol.18, p.10-12.
43. G. De Mey: ”Cole-Cole diagrams of ionic hopping systems” Journal of Non Crystalline Solids, 1977, vol.23, p.315-320.
44. P. De Visschere and G. De Mey: ”An integral equation approach to the abrupt depletion approximation in semiconductor components” Electronics Letters, 1977, vol.13, p.104-106.
45. G. De Mey and W. De Wilde: ”The influence of the electronic current on the measurement of ion polarisation in evaporated silicon oxide” Thin Solid Films, 1977, vol.42, p.81-89.
46. G. De Mey: ”Numerical solution of a drift-diffusion problem with special boundary conditions by integral equations” Computer Physics Communications, 1977, vol.13, p.81-88.
47. G. De Mey: ”A simplified integral equation method for the calculation of the eigenvalues of Helmholtz equations” Numerical Methods in Engineering, 1977, vol.11, p.1340-1342.
48. J.P.R. Feys, G. De Mey, E.G. Claeys, and G.P. Van Der Kelen: ”The field within a commercial EI/FI Source of a mass spectrometer” Zeitschrift fur Naturforchung, 1977, vol.32, p.768-774.
49. A. De Vos and G. De Mey: ”The solar energy incident on a plane at the earth surface: situation in Belgium” Archiv fuer Metereologie, Geophysik und Bioklimatologie B, 1977, vol.25, p.135-150.
50. G. De Mey, B. Jacobs and F. Fransen: ”Influence of junction roughness on solar cell characteristics” Electronics Letters, 1977, vol.13, p.657-658.
51. G. De Mey: ”Integral equations for potential problems with the source function not located on the boundary” Computers and Structures, 1978, vol.8, p.113-115.
52. G. De Mey: ”An integral equation method to calculate the transient behaviour of a photovoltaic solar cell” Solid-State Electronics, 1978, vol.21, p. 595-596.
53. K. Stevens and G. De Mey: ”Higher order approximations for integral equations in potential theory” International Journal of Electronics, 1978, vol.45, p.443-446.
54. R. Hostens and G. De Mey: ”An integral equation method for the numerical solution of Laplace equation without Green’s functions” Computer Physics Communication, 1978, vol.16, p.5-9.
55. B. Jacobs and G. De Mey: ”Change of the collection efficiency in a pn-solar cell by scattering of het incident light through the junction” Solid State Electronics, 1978, vol.21, p.1191-1193.
56. G. De Mey: ”The use of approximate functions for the numerical solution of Laplace’ equation by an integral equation” Computers and Structures, 1979, vol.10, p.709-711.
57. G. De Mey: ”Theoretical analysis of the Hall effect photovoltaic cell” IEE Journal on Solid State and Electron Devices, 1979, vol.3, p.69-71.
58. G. De Mey: ”Temperature distribution in floor heating systems” International Journal of Heat and Mass Transfer, 1980, vol.23, p.1289-1291.
59. G. De Mey: ”Characteristics of electro-gas-dynamic wind energy devices” Energy Conversion and Management, 1980, vol.20, p.201-203.
60. B. Jacobs, G. De Mey, K. Stevens: ”Optimised grid patterns for Cu2S - CdS solar cells” International Journal of Electronics, 1980, vol.48, p.397-402.
61. G. De Mey: ”Field calculations in a moving conductor by an integral equation” Archiv fuer Electrotechnik, 1981, vol.64, p.101-103.
62. G. De Mey and H. Simoens: ”Coupling between a photovoltaic panel and the power grid with battery storage” Electric Power Systems Research, 1981, vol.4, p.283-288.
63. G. De Mey, H. Simoens and A. De Vos: ”Analysis of photovoltaic systems with battery storage” International Journal of Electronics, 1981, vol.51, p.215-220.
64. B. Jacobs and G. De Mey: ”Theoretical analysis of Cu2S - CdS solar cells with rough interfaces” IEEE Transactions on Electron Devices, 1981, vol.ED-28, p. 289-293.
65. G. De Mey: ”Parametric Photovoltaic cell” Electronics Letters, 1982, vol.18, p.334-336.
66. G. De Mey: ”A Comment on ’An extension and application of the Thompson-Lampard Theorem’” Proceedings IEEE, 1982, vol.70, p.1363-1364.
67. G. De Mey (invited paper): ”Potential calculations in Hall plates” Advances in Electronics and Electron Physics, 1983, vol.61, p.1-61.
68. G. De Mey and P. De Visschere (invited paper): ”Grid Contacts on Solar Cells” Nieuw Archief voor Wiskunde, 1983, vol.1, p.270-289.
69. G. De Mey: ”A comment on ’Modeling of MOS transistors with nonrectangular gate geometries’” IEEE Transactions on Electron Devices, 1983, vol.ED-30, p.862-863.
70. G. De Mey: ”A Discrete Version of the Boundary Element Method” Engineering Analysis, 1984, vol.1, p.45-53.
71. G. De Mey: ”Potential distribution in Anisotropic Layers and Hall Plates with Arbitrary Geometries” Physica Status Solidi A, 1984, vol.82, p.K91-K93.
72. J.P. Martens, G. De Mey, M.C. Vanwormhoudt: ”CADLEM : a simulation program for non-linear electronic networks” International Journal of Electronics, 1984, vol.57, p.97-110.
73. G. De Mey: ”A comment on ”The modeling of resistive interconnects for integrated circuits” IEEE Journal of Solid State Circuits, 1984, vol.SC-19, p.542-543.
74. F. Cuypers and G. De Mey: ”Boundary element method for calculation of depletion layer profiles” Electronics Letters, 1984, vol.20, p.229-230.
75. G. De Mey and S. Chopra: ”The Hall effect in photovoltaic cells” Lettere al Nuovo Cimento, 1984, vol.41,p.453-461.
76. G. De Mey: ”Multiple choice evaluations in electrical engineering” European Journal of Engineering Education, 1985, vol.9, p.189-201.
77. G. De Mey: ”Stochastic geometry effects in MOS transistors” IEEE Journal on Solid State Circuits, 1985, vol.SC-20, p.865-870.
78. G. De Mey: ”Contact versus bulk noise in resistive layers” Applied Physica A, 1985, vol.36, p.183-187.
79. E. Boone, G. De Mey and L. Rottiers: ”Temperature distribution on ceramic substrates” Electronics Letters, 1986, vol.22, p.442-443.
80. G. De Mey, G. Verhenne, K. Van Oost and J. Landuyt: ”Conductivity fluctuations in planar resistors” Applied Physics, 1987, vol.43, p.93-95.
81. E. Boone, G. De Mey and L. Rottiers: ”Reply to comment on’Temperature distribution on ceramic substrates’” Electronics Letters, 1987, vol.23, p.26.
82. G. De Mey: ”A comment on ’An exact formula for the effects of resistor geometry on current noise’” IEEE Transactions on Electron Devices, 1987, vol.ED-34, p.1838.
83. E. Boone and G. De Mey: ”Some practical aspects of multiple choice examinations” European Journal of Engineering Education, 1987, vol.12, p.325-328.
84. L. Rottiers and G. De Mey: ”Hot spot effects in hybrid circuits” IEEE Transactions on Components, Hybrids and Manufacturing Technology, 1988, vol.11, p.274-278.
85. H. Pauwels, G. De Mey, C. Reynaerts and F. Cuypers: ”Switching with constant D in ferroelectric liquid crystals” Liquid Crytals, 1989, vol.4, p.497-504.
86. H. Pauwels, G. De Mey, C. Reynaerts and F. Cuypers: ”One dimensional stationary states with constant D in ferroelectric liquid crystals” Ferroelectrics, 1989, vol.89, p.171-178.
87. S. Demurie and G. De Mey: ”Design of custom potentiometers” IEEE Transactions of Instrumentation and Measurement, 1989, vol.38, p.745-747.
88. G. De Mey, P. Blontrock, L. Depuydt and L. Penninck: ”Thermal AC measurements on hybrid circuits” International Journal for Hybrid Microelectronics, 1989, vol.12, p.79-82.
89. H. Lambert, F. De Bisschop, H. De Cuyper, S. Demurie, G. Vanderstraeten and W. Blonde: ”Electric current distribution in tissues upon electrotherapy” Belgisch Tijdschrift voor Fysische Geneeskunde en Rehabilitatie, 1989, vol.12, p.31-
90. S. Demurie and G. De Mey: ”Parasitic capacitance effects of planar resistors” IEEE Transactions on Components, Hybrids and Manufacturing Technology, 1989, vol.12, p.348-351.
91. G. De Mey: ”ASNAP, a symbolic network analysis program” International Journal of Electronics, 1989, vol.67, p.385-392.
92. G. De Mey (invited paper): ”Applications of BEM in semiconductor device simulation” Topics in Boundary Element Research, 1990, Springer Verlag, p.1-11.
93. H. Lambert, F. De Bisschop, G. De Mey, S. Demurie, G. Vanderstraeten and H. De Cuyper: ”Calculation of electric current distribution in tissues” European Journal of Physical Medicine and Rehabilitation, 1991, vol.1, p.126-132.
94. H. Lambert, G. Vanderstraeten, H. De Cuyper, W. Blonde, G. De Mey, F. De Bisschop and S. Demurie: ”Electric current distribution during interferential therapy” European Journal of Physical Medicine and Rehabilitation, 1993, vol.3, p.6-10.
95. G. De Mey, E. Boone and G. De Tollenaere: ”Influence of time dependent power dissipations on the ageing behavior of thick film circuits” Active and Passive Electronic Components, 1993, vol.16, p.1-6.
96. H. De Cuyper, H. Lambert, G. Vanderstraeten, G. De Mey, F. De Bisschop, W. Blond´e and S. Demurie: ”Optimization of electrode position in uro-gynecology following calculations of electric current distribution in tissues” European Journal of Physical Medicine and Rehabilitation, 1993, vol.3, p.56-59.
97. S. C. De Smedt, A. Lauwers, J. Demeester, Y. Engelborghs, G. De Mey and M. Du: ”Structural information on hydraulic acid solutions as studied by probe diffusion experiments” Macromolecules, 1994, vol.27, p. 141-146.
98. G. De Mey and A. De Vos: ”On the optimum efficiency of endoreversible thermodynamic processes” Journal of Physics D: Applied Physics, 1994, vol.27, p.736-739.
99. A. Kos and G. De Mey: ”Neural computation for optimum power hybrid design” International Journal of Electronics, 1994, vol.76, p.681-692.
100. A. Kos, G. De Mey and E. Boone: ”Experimental verification of the temperature distribution on ceramic substrates” Journal of Physics D: Applied Physics, 1994, vol.27, p.2163-2166.
101. A. Kos and G. De Mey: ”Thermal placement in hybrid circuits - a heuristic approach” Active and Passive Electronic Components, 1994, vol.17, p.67-77.
102. G. De Mey, R. Suciu, C. Munteanu and L. Matthys: ”BEM solution of Poisson’s equation in 2D with polynomial interpolation of the source function” Engineering Analysis with Boundary Elements, 1996, vol.18, p.175-178.
103. L. Matthys G. De Mey: ”An Analysis of an Engineering Model for the Thermal mismatch Stresses at the Interface of a Uniformly Heated Two Layer Structure” International Jounral of Microcircuits and Electronic Packaging, 1996
104. E. De Baetselier, W. Goedertier and G. De Mey: ”A survey of the thermal stability of an active heat sink” Microelectronics Reliability, 1997, vol.37, p.1805-1812.
105. L. Matthys, E. De Baetselier, W. Dobbelaere, W. Goedertier and G. De Mey: ”Calculation of thermoelastic stresses in microelectronics” Microelectronics Reliability, 1998, vol.38, p.443-448.
106. W. Mara´nda, G. De Mey and A. De Vos: ”Optimization of the master slave inverter system for grid connected photovoltaic plants” Energy Conservation and Management, 1998, vol.39, p.1239-1246.
107. R. Suciu, G. De Mey and E. de Baetselier: ”BEM solution of Poisson’s equation with source function satisfying r2% =constant”” Engineering Analysis with Boundary Elements, 2001, vol.25, p.141-145.
108. G. De Mey: ”A thermodynamic limit for digital electronics” Microelectronics Reliability, 2002, vol.42, p.507-510.
109. O. Leon, G. De Mey and E. Dick: ”Study of the optimal layout of cooling fins in forced convection cooling” Microelectronics Reliability, 2002, vol.42, p.1101-1112.
110. M. Janicki, G. De Mey and A. Napieralski: ”Transient thermal analysis of multilayered structures using Green’s functions” Microelectronics Reliability, 2002, vol.42, p.1069-1064.
111. M. Janicki, G. De Mey and A. Napieralski: ”Application of Green’s functions for analysis of transient thermal states in electronic circuits” Microelectronics Journal, 2002, vol.33, p.733-738.
112. O. Leon, G. De Mey and E. Dick: ”Comparison between the standard and staggered layout for cooling fins in forced convection cooling” Journal of Electronic Packaging, 2003, vol.125, p.442-446.
113. O. Leon, G. De Mey, E. Dick and J. Vierendeels: ”Staggered heat sinks with aerodynamic cooling fins” Microelectronics Reliability, 2004, vol.44, p.1181-1187.
114. C. Munteanu, V. Topa, E. Simion, G. Mates, L. Grindie, G. De Mey and M. Purcar: ”Optimisation of an alternating current multi conductor system” Engineering Analysis with Boundary Elements, 2006, vol.30, p.582-587.
115. J. Legierski, B. Wiecek and G. De Mey: ”Measurements and simulations of transient characteristics of heat pipes” Microelectronics Reliability, 2006, vol.46, p.109-115.
116. B. Vermeersch and G. De Mey: ”Thermal impedance plots of micro scaled devices” Microelectronics Reliability, 2006, vol.46, p.174-177.
117. A. Willockx, G. De Mey, C. T’Joen, H. Steeman and M. De Paepe: ”Natural convection from a square disk in the intermadiate Rayleigh range” Journal of Heat Transfer, 2006, vol.128, p.495-498.
118. B. Vermeersch and G. De Mey: ”Influence of substrate thicknes on thermal impedance of microelectronic structures” Microelectronics Reliability, 2007, vol.47, p.437-443.
119. G. De Mey, B. Vermeersch, J. Banaszczyk, T. Swiatczak, B. Wiecek, M. Janicki and A. Napieralski: ”Thermal impedances of thin plates” International Journal of Heat and Mass Transfer, 2007, vol.50, p.4457-4460.
120. B. Vermeersch and G. De Mey: ”BEM calculation of the complex thermal impedance of microelectronic devices” Engineering Analysis with Boundary Elements, 2007, vol.31, p.289-298.
121. B. Vermeersch and G. De Mey: ”Anomalous thermal behaviour in small electronic devices: non uniformity and overshoot in dynamic temperature distributions” Journal of Physics D: Applied Physics, 2007, vol.40, p.2452-2463.
122. B. Vermeersch and G. De Mey: ”Influence of thermal contact resistance of thermal impedance of microelectronic structures” Microelectronics Reliability, 2007, vol.47, p.1233-1238.
123. M. Janicki, G. De Mey and A. Napieralski: Thermal analysis of layered electronic circuits with Green’s functions” Microelectronics Journal, 2007, vol.38, p.177-184.
124. P. Kawka, G. De Mey and B. Vermeersch: ”Thermal characterisation of electronics packages using the Nyquist plot of the thermal impedance” IEEE Transaction on Components and Packaging Technologies, 2007, vol.30, p.660-
125. B. Vermeersch and G. De Mey: ”Non Fourier thermal conduction in nano scaled electronic structures” Analog Integrated Circuits and Signal Processing, 2008, vol.55, p.197-204.
126. B. Vermeersch and G. De Mey: ”Dependency of thermal spreading resistance on convective heat transfer coefficient” Microelectronics Reliability, 2008, vol.48 p.734-738.
127. S. Miku la, G. De Mey and A. Kos: ”Asynchronous control of modules activity in integrated systems for reducing peak temperatures” Integration the VLSI journal, 2008, vol.41, p.447-458.
128. G. De Mey, M. Felczak and B. Wiecek: ”Exact solution for optimal placement of electronic components on linear array using analytical thermal wake function” Electronic Letters, 2008, vol.44, p.1216-1217.
129. B Vermeersch and G. De Mey: ”A fixed angle dynamic heat spreading model for (an)isotropic rear cooled substrates” Journal of Heat Transfer transactions of the ASME, 2008, vol.130, nr.121301.
130. B. Vermeersch and G. De Mey: ”Dynamic electrothermal simulation of integrated resistors at device level” Microelectronics Journal, 2009, vol. 40, p.1135-1140.
131. M. Janicki, J. Banaszczyk, G. De Mey, M. Kaminski, B. Vermeersch and A. Napieralski: ”Dynamic thermal modelling of power integrated circuit with the application of structure functions” Microelectronics Journal , 2009, vol. 40, p.1135-1140.
132. J. Banaszczyk, G. De Mey, A. Schwarz and L. Van Langehove: ”Current distribution modelling in electroconductive fabrics” Fibres and Textiles in Eastern Europe, 2009, vol.73, p.28-33.
133. M. Felczak, B. Wi¸ecek and G. De Mey: ”Optimal placement of electronic devices in forced convective cooling conditions” Microelectronics Reliability, 2009, vol.49, p.1537-1545.
134. G. De Mey, J. Pilarski, M. W´ojcik, M. Lasota, J. Banaszczyk, B Vermeersch, A. Napieralski and M. De Paepe: ”Influence of interface materials on the thermal impedance of electronic packages” International Communications in Heat and Mass Transfer, 2009, vol.36, p.210-212.
135. G. De Mey, M. W´ojcik, J. Pilarski, M. Lasota, J. Banaszczyk, B Vermeersch, A. Napieralski and M. De Paepe: ”Chimney effect on natural convection cooling of electronic components” Journal of Electronic Packaging, 2009, vol.131, nr.014501.
136. J. Banaszczyk, A. Anca, G. De Mey: ”Infrared thermography of electroconductive woven textiles” QIRT Journal, 2009, volg.6, p.163-173.
137. A. Schwarz, J. Hakuzama, A. Kaczynska, J. Banaszczyk, P.Westbroek, E. McAdams, G. Moody, Y. Chronis, G. Priniotakis, G. De Mey, D. Tseles and L. Van Langenhove: ”Gold coated para aramid yarns through electroless deposition” Surface and Coating Technology, 2010, vol.204, p.1412-1418.
138. K. Gnidzi´nka, G. De Mey and A. Napieralski: ”Heat dissipation and temperature distribution in long interconnect lines”’ Bulletin of the Polish Academy of Sciences - Technical Sciences, 2010, vol.58, p.119-
139. J. Banaszczyk, G. De Mey, A. Schwarz and L. Van Langehove: ”The Van Der Pauw method for sheet resistance measurements of polypyrole coated para aramide woven fabrics” Journal of Applied Polymer Science, 2010, vol.117, p.2553-2558.
140. B. Vermeersch and G. De Mey: ”A shortcut to inverse Fourier transforms: Approximate reconstruction of transient heating curves from sparse frequency domain data” International Journal of Thermal Sciences, 2010, vol.49, p.1319-1332.
141. T. Swi¸atczak, B. Vermeersch, G. De Mey, B. Wi¸ecek, J. Banaszczyk and M. Felczak: ”Evaluation of the heat transfer coefficient in microcircuits from the frequency analysis of the thermal response” IEEE Transactions on Components and Packaging Technologies, 2010, vol.33, p.260-
142. T. Swi¸atczak, B. Wi¸ecek, R. Olbrycht, J. Apolinarzak and G. De Mey: ”Pulse thermography measurements of heat dissipation from high power LEDs” Przegl¸ad Elektrotechniczny, 2010, vol.86, p.138-140.
143. M. T¸ opa, N. Toma, B. Kirei, I. Hom˘an˘a, M. Neag and G. De Mey: ”Comparison of different experimental methods for the assessment of the room’s acoustics” Acoustical Physics, 2011, vol.57, p.199-207.
144. A. Schwarz, L. Cuny, C. Hertleer, F. Ghekiere, I. Kazani, G. De Clercq, G. De Mey and L. Vanlangenhove ”Electrical circuit model of elastic and conductive yarns produced by hollow spindle spinning” Material Technology, 2011, vol.26, p.121-127.
145. M. Janicki, J. Banaszczyk, B. Vermeersch. G. De Mey and A. Napieralski: ”Generation of reduced dynamic thermal models of electronic systems from time constant spectra of transient temperature responses” Microelectronic Reliability, 2011, vol.51, p.1351-1355.
146. A. Schwarz, I. Kazani, L. Cuny, C. Hertleer, F. Ghekiere, G. De Clercq, G. De Mey and L. Vanlangenhove ”Electroconductive and elastic hybrid yarns - The effect of stretching, cyclic straining and washing on their electroconductive properties” Materials & Design, 2011, vol.32, p.4247-4256.
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