Hostname: page-component-586b7cd67f-2plfb Total loading time: 0 Render date: 2024-11-22T08:41:21.145Z Has data issue: false hasContentIssue false

Forty years of European microwaves. What about the future?

Published online by Cambridge University Press:  15 September 2010

André Vander Vorst*
Affiliation:
EuMA – UCL, Chemin du Cyclotron 6, B-1348 Louvain-la-Neuve, Belgium.
Thomas J. Brazil
Affiliation:
School of EEM Engineering, Engineering Building, University College Dublin, Dublin 4, Ireland.
Peter J.B. Clarricoats
Affiliation:
Queen Mary University of London, UK.
Fred E. Gardiol
Affiliation:
EPFL, Chemin des Graminées 11, CH-1009 Pully, [email protected].
Leo P. Ligthart
Affiliation:
IRCTR-Delft University, Mekelweg 4, 2628CD Delft, The Netherlands.
Roger Marriott
Affiliation:
Global Security Asia Pte Ltd, Lonsdale House, 7-9 Lonsdale Gardens, Tunbridge Wells TN1 1NU, UK.
Roberto Sorrentino
Affiliation:
DIEI, University of Perugia, Via Duranti 93, I-06125 Perugia, Italy.
Andrew F. Wilson
Affiliation:
EuMA – The Institution of Engineering and Technology, Savoy Place, London WC2R 0BL, UK.
*
Corresponding author: A. Vander Vorst Email: [email protected]

Abstract

This paper describes some key points in the history and development of the European Microwave Conference, the European Microwave Week, and the European Microwave Association, starting from 1969. It captures the way in which the conference since the earliest days has sought to create a successful blend of scientific and industry interests and has adapted itself to and indeed shaped the many existing technical changes that have characterized and continue to be at the core of the field of microwave engineering.

Type
Original Article
Copyright
Copyright © Cambridge University Press and the European Microwave Association 2010

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

[1]Vander Vorst, A.: Introduction to the special session on 40 years of European microwave conference, in Proc. 39th EuMC, 2009, 653–654.CrossRefGoogle Scholar
[2]Clarricoats, P.J.;Vander Vorst, A.: Early days of the European microwave conference: how did it start?, in Proc. 39th EuMC, 2009, 655–656.CrossRefGoogle Scholar
[3]Gardiol, F.E.: Montreux, Switzerland: the 4th EuMC?, in Proc. 39th EuMC, 2009, 657–661.CrossRefGoogle Scholar
[4]Ligthart, L.P.: The first European microwave week 1998 in Amsterdam, The Netherlands, in Proc. 39th EuMC, 2009, 662–666.CrossRefGoogle Scholar
[5]Wilson, A.F.: Some observations on the development of the European microwave association, in Proc. 39th EuMC, 2009, 667–668.CrossRefGoogle Scholar
[6]Sorrentino, R.; Brazil, T.J.: 40 Years of EuMC and beyond, in Proc. 39th EuMC, 2009, 669–674.CrossRefGoogle Scholar
[7]Collins, J.: Report on EuMC Brussels 1973, Microwave Systems News, October/November 1973, 11–12 and 15.Google Scholar
[8]Gardiol, F.: Thirty years ago… , In Proc. Europ. Microwave Assoc., 1(1), 2005, 5558.Google Scholar
[9]Vander Vorst, A.; Clarricoats, P.J.B.: The early days of the European Microwave Conference, in Proc. Europ. Microwave Assoc., 2(1), Mar. 2006, 107109.Google Scholar
[10]Sorrentino, R.; Vander Vorst, A.: The history and evolution of European microwave week. Microwave J. (2008), 104110.Google Scholar
[12]Vander Vorst, A.; Sorrentino, R.: The European microwave association. IEEE Microwave Magazine, 2 (3) (2001), 92100.Google Scholar
[13]Vander Vorst, A.; Sorrentino, R.: The European microwave association. IEEE Microwave Magazine (2006), 5456.CrossRefGoogle Scholar
[14]Sorrentino, R.: Welcome from the President of the EuMA, in EuMW 2008 Conference Program, 7.Google Scholar
[15]Sorrentino, R.; Oxley, T.; Salmer, G. et al. : Microwaves in Europe. IEEE Trans. Microwave Theory Tech., Special Issue, 50 (3) (2002), 1056.CrossRefGoogle Scholar
[16]Sorrentino, R.; Vander Vorst, A.: ‘Microwaves in Europe overview’ in ‘Microwaves in Europe: historical milestones and industry update, Part I’. Microw. J., 59 (2008), 2834.Google Scholar
[17]Hughes, E.; Wilson, K.; Wills, G.N.; Fey, L.J.: Recent developments in microwave power transistors, in Proc. 1st EuMC, 1969, 430433.Google Scholar
[18]Small, B.I.; Killick, E.A.; Croney, J.: A cylindrical array for electronic scanning, in Proc.1st EuMC, 1969, 133136.Google Scholar
[19]Croney, J.; Mark, J.R.: Design of a volumetric frequency scanning antenna, in Proc. 1st EuMC, 1969, 148151.Google Scholar
[20]Clarricoats, P.J.B.; Hai, Z.; Brown, R.C.; Poulton, G.T.; Crone, G.A.E.: A reconfigurable satellite reflector antenna, in Proc. 8th EuMC, 1988, 482487.Google Scholar
[21]Foldes, P.: Recent advances in multibeam antennas, in Proc. 11th EuMC, 1981, 5972.Google Scholar
[22]Cheng, C-C.; Abbaspour-Tamijani, A.; Lakshminarayanan, B.: Reconfigurable lens-array with monolithically integrated MEMS switches, in Proc. 38th EuMC, 2008, 112115.Google Scholar
[23]Rhodes, J.D.: Advances in microwave linear phase and elliptic function filters, in Proc. 1st EuMC, 1969, 181184.Google Scholar
[24]Rhodes, J.D.; Dean, J.E.: MIC broadband filters and contiguous multiplexers, in Proc. 9th EuMC, 1979, 407411.Google Scholar
[25]Drayton, R.F.; Katehi, L.P.B.: Micromachined circuits for Mm-wave applications, in Proc. 23rd EuMC, 1993, 587588.Google Scholar
[26]Rampnoux, E.; Blondy, P.; Cros, D.; Verdeyme, S.; Trier, M.; Zanchi, C.: Micromachined Ka and W - band filters for space radiometric applications, in Proc. 31st EuMC, 2001, 14.Google Scholar
[27]Cogollos, S.; Boria, V.E.; Soto, P.; Gimeno, B.; Guglielmi, M.: Efficient CAD tool for inductively coupled rectangular waveguide filters with rounded corners, in Proc. 31st EuMC, 2001, 14.Google Scholar
[28]Arndt, F.; Catina, V.; Brandt, J.: Flexible hybrid MM/MoM technique for the CAD and optimization of arbitrarily shaped 3D waveguide components, in Proc. 33rd EuMC, 2003, 343346.Google Scholar
[29]Gentili, G.G.; Macchiarella, G.; Politi, M.: A space-mapping technique for the design of comb filters, in Proc. 33rd EuMC, 2003, 171173.Google Scholar
[30]Koster, N.H.L.; Koblowski, S.; Bertenburg, R.; Heinen, S.; Wolff, I.: Investigation on air bridges for MMICs in CPW technology, in Proc. 19th EuMC, 1989.Google Scholar
[31]Camiade, M.; Domenesque, D.; Ouarch, Z.; Sion, A.: Fully MMIC-based front end for FMCW automotive radar at 77 GHz, in Proc. 30th EuMC, 2000.Google Scholar
[32]Rizzoli, V.; Neri, A.; Mastri, F.: A modulation-oriented piecewise harmonic-balance technique suitable for the transient analysis of microwave circuits driven by slowly-modulated signals, in Proc. 26th EuMC, 1996.Google Scholar
[33]Schreurs, D.; Verspecht, J.; Nauwelaers, B.; Van de Capelle, A.; Van Rossum, M.: Direct extraction of the non-linear model for two-port devices from vectorial non-linear network analyser measurements, in Proc. 27th EuMC, 1997.Google Scholar
[34]Bandler, J.W.; Georgieva, N.; Ismail, M.A.; Rayas-Sanchez, J.E.; Zhang, Q.J.: A generalized space-mapping tableau approach to device modeling, in Proc. 29th EuMC, 1999.Google Scholar
[35]Root, D.E.; Fan, S.; Meyer, J.: Technology independent large-signal non-quasistatic device models by direct construction from automatically characterized device data, in Proc. 21st EuMC, 1991.Google Scholar
[36]Beaubien, M.J.; Wexler, A.: Finite difference solution of arbitrary, two dimensional, rectangular waveguide discontinuities, in Proc. 1st EuMC, 1969, 103.Google Scholar
[37]Pontoppidan, K.: Numerical solution of waveguide problems using finite difference methods, in Proc. 1st EuMC, 1969, 99102.Google Scholar
[38]Mittra, R.; Itoh, T.: Theory of shielded microstrip lines, in Proc. 1st EuMC, 1969, 1417.Google Scholar
[39]Itoh, T.: Spectral domain immittance approach for dispersion characteristics of shielded microstrips with tuning septums, in Proc. 9th EuMC, 1979, 435439.Google Scholar
[40]Karg, R.; Ermert, H.; Brand, H.; Appelhans, G.: Open semiconductor waveguide for millimeter wave application, in Proc. 6th EuMC, 1976, 433437.Google Scholar
[41]Hammerstad, E.O.: Equations for microstrip circuit design, in Proc. 5th EuMC, 1975, 268272.Google Scholar
[42]Hoefer, W.J.R.: New horizons in numerical time domain modelling of microwave structures, in EuMC Proc., 1, Oct 1990, 720.Google Scholar
[43]Sorrentino, R.: Modelling and design of millimetrewave passive circuits: from 2 to 3D, in Proc. 24th EuMC, 1994, 4861.Google Scholar
[44]Weiland, T.: RF&Microwave simulators – from component to system design, in Proc. 33rd EuMC, 2003, 591596.Google Scholar