Ana Sayfa  >>  Akademik Personel   >> Doç. Dr. Ceyhun KARPUZ

Doç. Dr. Ceyhun KARPUZ
Elektromanyetik Alanlar  ve Mikrodalga Anabilim Dalı

Çalışma Konuları

Elektromanyetik Dalga Teorisi
Mikrodalga Teorisi
Mikrodalga Devre Tasarımı
Mikrodalga Ölçümleri
Düzlemsel Mikrodalga Filtreleri

 

Akademik Kariyer
Lisans Erciyes Üniversitesi Elk.-Elektronik Müh. 1992
Y.Lisans Erciyes Üniversitesi 1995
Doktora Erciyes Üniversitesi 2001

 

Yüksek Lisans Tezi

“Yavaş-Dalgalı Transmisyon Hatları”, Yrd. Doç. Dr. Adnan GÖRÜR

 

Doktora Tezi

“Mikrodalga Filtrelerinin Minyatürizasyonu için Yeni Planar Rezonatörlerin Tasarımı”, Doç. Dr. Adnan GÖRÜR

 

Uluslararası Dergi Makaleleri

A1.     Görür, A. and Karpuz, C., “Miniaturization of Dual-Mode Microstrip Filters”, to be published in IEEE Microwave and wireless components Letters.

A2.     Helvacı, A. K., C. Karpuz ve A. Görür, “Compact dual-mode microstrip resonator for 900 MHz bandpass filter applications”, Microwave and Optical Tech. Lett., 45, 376-377 (2005).

A3.     Görür, A. ve C. Karpuz, “Reduced-size wideband bandstop filter using two open-circuited shunt stubs spaced by a double-length transmission-line element”, Int. J. RF and Microwave CAE, 15, 79-85 (2005).

A4.     Görür, A., C. Karpuz ve Ş. Çalışkan, “A dual-mode uniplanar bandpass filter using inset coupling structure”, Microwave and Optical Tech. Lett., 41, 481-483 (2004).

A5.     Görür, A., C. Karpuz ve M. Akpınar, “A reduced-size dual-mode bandpass filter with capacitively loaded open-loop arms”, IEEE Microwave and wireless components Letters, 13, 385-387 (2003).

A6.     Görür, A. ve C. Karpuz, “Uniplanar compact wideband bandstop filter”, IEEE Microwave and wireless components Letters, 13, 114-116 (2003).

A7.     Karpuz, C., “Bandstop characteristics of a triangular microstrip slotted patch as an electromagnetic bandgap (EBG)”, Microwave and Optical Tech. Lett., 36, 149-150 (2003).

A8.     Görür, A., C. Karpuz, B. S. Tezekici, ve H. Görür, “Bandstop characteristics of microstrip slotted patch without periodic elements”, Microwave and Optical Tech. Lett., 35, 125-128 (2002).

A9.     Tezekici, B. S., C. Karpuz, H. Görür, ve A. Görür, “Analysis of line to line coupled coplanar waveguides with W-shaped conductor backing using conformal mapping method”, Int. J. RF and Microwave CAE, 12, 354-359 (2002).

A10. Görür, A., C. Karpuz, A. Yılmaz and, K. Yalçın, “A study on resonance characteristics of microstrip open-loop resonator”, Microwave and Optical Tech. Lett., 31, 177-180 (2001).

A11. Karpuz, C., A. Görür ve Z. Genç, “Rectangular-shaped microshield coplanar waveguides on cylindrical substrate”, Microwave and Optical Tech. Lett., 29, 415-418 (2001).

A12. Görür, A. ve C. Karpuz, Comments on “CAD Models for asymmetrical, elliptical, cylindrical, ve elliptical cone coplanar strip lines”, IEEE Transactions on Microwave Theory and Techniques, 49, 410 (2001).

A13. Görür, A., C. Karpuz, ve M. Duyar, “ Analysis of coupled coplanar waveguides with V-shaped conductor backing using conformal mapping method”, IEE Proc. Microw. Antennas Propag., 147, 509-513 (2000).

A14. Görür, A. ve C. Karpuz, “Effect of finite and different ground-plane widths on quasistatic parameters of asymmetrical coplanar waveguides”, Int. J. RF. And Microwave CAE, 10, 383-389 (2000).

A15. Görür, A. ve C. Karpuz, “Effect of finite ground-plane width on quasistatic parameters of asymmetric coplanar waveguides”, IEE Proc. Microw. Antennas Propag., 147, 343-347 (2000).

A16. Karpuz, C., M. Duyar ve A. Görür, “Analysis of coplanar-coupled lines on a cylindrical substrate”, Microwave and Optical Tech. Lett., 27, 187-190 (2000).

A17. Karpuz, C., M. Duyar ve A. Görür, “Analysis of cylindrical conductor-backed coplanar waveguides”, Microwave and Optical Tech. Lett., 27, 144-146 (2000).

A18. Karpuz, C., M. Duyar ve A. Görür, “Quasistatic-TEM analysis of broadside-coupled V-shaped microshield coplanar waveguides”, Microwave and Optical Tech. Lett., 26, 229-232 (2000).

A19. Karpuz, C. ve A. Görür, “Quasistatic analysis of broadside-coupled conductor-backed asymmetric coplanar waveguide with one lateral ground plane using conformal mapping method”, Microwave and Optical Tech. Lett., 26, 156-160 (2000).

A20. Görür, A. ve C. Karpuz, “Analysis of broadside-coupled asymmetric coplanar waveguide with one lateral ground plane”, Microwave and Optical Tech. Lett., 24, 298-303 (2000).

A21. Görür, A. ve C. Karpuz, “Influence of narrow transverse slit in CPW resonator on its resonance characteristics”, Electronics Lett., 36, 49-50 (2000).

A22. Görür, A., M. Duyar ve C. Karpuz, “Analytic formulas for calculating the quasistatic parameters of multilayer cylindrical coplanar strip line”, Microwave and Optical Tech. Lett., 22, 432-436 (1999).

A23. Görür, A., M. Duyar ve C. Karpuz, “Analytic of cylindrical coupling structures”, Microwave and Optical Tech. Lett., 22, 298-301 (1999).

A24. Karpuz, C. ve A. Görür, “Fast and Simple CAD-Oriented closed form formulas for double-sided coplanar strip lines”, Microwave and Optical Tech. Lett., 22, 215-218 (1999).

A25. Karpuz, C. ve A. Görür, “Effect of upper shielding and conductor backing on quasistatic parameters of asymmetric coplanar waveguides”, Int. J. RF. And Microwave CAE, 9, 394-402 (1999).

A26.   Görür, A. ve C. Karpuz, “Analytic formulas for conductor-backed asymmetric CPW with one lateral ground plane”, Microwave and Optical Tech. Lett., 22, 123-126 (1999).

A27. Görür, A. ve C. Karpuz, “Experimental study on characteristic of loaded CPW resonators” Microwave and Optical Tech. Lett., 21, 199-201 (1999).

A28. Karpuz, C. ve A. Görür, “Quasistatic solution of elliptical coplanar waveguide”, Microwave and Optical Tech. Lett., 20, 385-389 (1999).

A29. Görür, A. ve C. Karpuz, “Quasistatic- TEM analysis of coplanar waveguides with different ground-plane widths”, Microwave and Optical Tech. Lett., 20, 311-315 (1999).

A30. Karpuz, C. ve A. Görür, “Slow-wave phenomena in modified coplanar waveguides”, Electronics Lett, 35, 309-311 (1999).

A31. Görür, A., C. Karpuz ve M. Alkan, “Characteristics of periodically loaded CPW structures”, IEEE Microwave and Guided Wave Letters, 8, 278-280 (1998).

A32. Alkan, M., A. Görür ve C. Karpuz, “Quasistatic analysis of cylindrical coplanar waveguide with multilayer dielectric”, Int. J. MIMICAE, 8, 297-304 (1998).

A33. Karpuz, C., A. Görür ve M. Alkan, “Quasistatic analysis of cylindrical coplanar strip lines”, Microwave and Optical Tech. Lett., 17, 148-151 (1998).

A34. Görür, A., C. Karpuz ve M. Alkan “Quasistatic TEM characteristic of overlayed supported asymmetric coplanar waveguides”, Int. J. MIMICAE, 6, 297-304 (1996).

A35. Karpuz, C., A. Görür, H. Görür ve M. Alkan, “Fast and analytical expressions for quasistatic parameters of asymmetric coplanar lines”, Microwave and Optical Tech. Lett., 9, 334-336 (1995).

A36.   Görür, A., C. Karpuz ve M. J. LANCASTER, “Modified Coplanar Meander Transmission Line for MMIC’s”, Electronics Lett., 30, 1317-1318 (1994).

A37.   Görür, A. ve C. Karpuz, “Slow Wave Characteristics of Coplanar Meander Transmission Lines with Dielectric Substrate”, Microwave and Optical Tech. Lett., 7, 852-854 (1994).

 

Uluslararası Konferans Makaleleri

B1.    Karpuz, C., A. Görür ve G. Kaptan “Novel microstrip diplexer and dual-band filter applications for wireless communication systems”, IASTED (International Association of Science and Technology for Development), CSS (Circuits, Signals and Systems)-2006, San Francisco, Acta Press tarafından yayınlanacak, 2006.

B2.    Görür, A., C. Karpuz ve K. Yalçın, “Bandstop filter with a wider upper passband using microstrip open-loop resonator”, Proc. Asia-Pacific Microwave Conference, Taipei, Vol.II, 527-530, Piscataway, N.J., 2001.

B3.    Görür, A., C. Karpuz ve K. Yalçın, “A novel double-frequency-tuned photonic bandgap (PBG) structure”, Proc. Asia-Pacific Microwave Conference, Taipei, Vol.II, 771-774, Piscataway, N.J., 2001.

B4.    Görür, A., C. Karpuz ve K. Yalçın, “An investigation on resonance characteristics of CPS open-loop resonator”, Proc. Asia-Pacific Microwave Conference, Taipei, Vol.III, 1104-1107, Piscataway, N.J., 2001.

B5.    Görür, A., ve C. Karpuz, “Cross-coupled bandpass filter using microstrip triangular open-loop resonators”, 31st The European Microwave Conference, London, EuMC 13, 2001.

B6.    Görür, A., C. Karpuz ve K. Yalçın, “A novel photonic bandgap (PBG) structure”, 31st The European Microwave Conference, London, EuMC 20, 2001.

B7.    Karpuz, C., A. Görür, “The effect of the loop strip width of CPW open-loop resonator on its resonance characteristics”, 30th The European Microwave Conference, Paris, EuMC12, 2000.

B8.    Karpuz, C., G. Baykan ve A. Görür, “Resonance characteristics of CPS open-loop resonator”, Proc. Asia-Pacific Microwave Conference, Sydney, 1290-1293, Piscataway, N.J., 2000.

B9.    Görür, A., C. Karpuz, H. Görür ve Ö. G. Saraçoğlu, “Properties of interdigitated transmission line”, Proc. Asia-Pacific Microwave Conference, Taejon, S25-5, 1995.

 

Ulusal Bildiriler

C1.     Kaptan, G. ve C. Karpuz, “Mikrodalga entegre devreler için gerçel ve sanal sonlu frekanslarda bir çift iletim sıfırlı çift band mikroşerit filtre tasarımı”, URSİ-2006, 434-437, Ankara, 2006.

C2.     Kaptan, G., C. Karpuz ve A. Görür, “Mobil haberleşme sistemleri için mikrodalga dual-mod planar filtre tasarımı”, III. Bilgi Teknolojileri Kongresi, 148-152, Denizli, 2004.

 

Başka Makalelerde Referans Gösterilen Çalışmalar

D1. A. Görür, C. Karpuz and M. Akpınar, “A reduced-size dual-mode bandpass filter with capacitively loaded open-loop arms”, IEEE Microwave and wireless components Letters, Vol.13, No.9, pp.385-387, September 2003

1.     S. W. Fok, P. Cheong, K. W. Tam and R. P. Martins, “A novel microstrip square-loop dual-mode bandpass filter with simultaneous size reduction and spurious response suppression”, IEEE Transactions On Microwave Theory and Techniques, Vol.54, No.5, pp.2033-2041, May 2006

2.     Y. H. Jeng, S. F. R. Chang, Y. M. Chen and Y. J. Huang, “A novel self-coupled dual-mode ring resonator and its applications to bandpass filters”, IEEE Transactions On Microwave Theory and Techniques, Vol.54, No.5, pp.2146-2152, May 2006

3.     Chen, H. J., Huang, T. H., Chen, L. S., et al., “New design concept of dual-mode bandpass filter by using nonorthogonal input and output ports for wireless application”, Microwave and Optic. Tech. Lett., Vol.48, No.4, pp.639-641, Apr 2006

4.     Kuo, J. T. and Tsai, C. Y., “Periodic stepped-impedance ring resonator (PSIRR) bandpass filter with a miniaturized area and desirable upper stopband characteristics”, IEEE Transactions On Microwave Theory and Techniques, Vol.54, No.3, pp.1107-1112, Mar 2006

D2. “A. Görür and C. Karpuz, “Uniplanar compact wideband bandstop filter”, IEEE Microwave and wireless components Letters, Vol.13, No.3, pp.114-116, March 2003

   Atıfta Bulunan Makaleler:

1.     R. G. Gomez and J. I. Alonso, “Systematic method for the exact synthesis of ultra-wideband filtering responses using high-pass and low-pass sections”, IEEE Transactions on Microwave Theory and Techniques, Vol.54, No.10, pp.3751–3764, Oct 2006

2.      R. G. Gomez, J. I. Alonso and D. A. Martin, “Using the branch-line directional coupler in the design of microwave bandpass filters”, IEEE Transactions on Microwave Theory and Techniques, Vol.53, No.10, pp.3221–3229, Oct 2005

3.      R. G. Gomez and J. I. Alonso, “Design of sharp-rejection and low-loss wide-band planar filters using signal-interference techniques”, IEEE Microwave and wireless components Letters, Vol.15, No.8, pp.530-532, Aug 2005

4.      A. Görür and C. Karpuz, “Reduced-size wideband bandstop filter using two open-circuited shunt stubs spaced by a double-length transmission-line element”, Int. J. RF and Microwave CAE, Vol.15, No.1, pp.79-85, January 2005

5.      M.L. Her, Y.-Z. Wang, K.Y. Lin, and Y.-W. Chen, “Improved tunable coplanar waveguide (CPW) bandstop filter”, Microwave and Optical Tech. Lett., Vol.41, No.3, pp.198-200, May 5, 2004

D3. C. Karpuz, “Bandstop characteristics of a triangular microstrip slotted patch as an electromagnetic bandgap (EBG)”, Microwave and Optical Tech. Lett., Vol.36, No.3, pp.149-150, February 5, 2003

   Atıfta Bulunan Makaleler:

1.      G. Çakır and L. Sevgi, “Design of a novel microstrip electromagnetic bandgap (EBG) structure”, Microwave and Optical Tech. Lett., Vol.46, No.4, pp.399-401, Aug 2005

D4.A. Görür, C. Karpuz, A. YILMAZ and K. Yalçın, “A study on resonance characteristics of microstrip open-loop resonator”, Microwave and Optical Tech. Lett., Vol.31, No.3, pp.177-180, November 5, 2001

   Atıfta Bulunan Makaleler:

1.      Akgün, O. and Görür, A., “Slow-wave CPW resonator with defected ground structure (DGS) for filter applications”, Microwave and Optic. Tech. Lett., 48 (2) 229-233 FEB 2006

2.      A. Görür and C. Karpuz, “Reduced-size wideband bandstop filter using two open-circuited shunt stubs spaced by a double-length transmission-line element”, Int. J. RF and Microwave CAE, Vol.15, No.1, pp.79-85, January 2005

3.      A. Görür, and O. Akgün, “Resonance characteristics of capacitively loaded CPW open-loop resonators”, Microwave and Optical Tech. Lett., Vol.38, No.4, pp.298-300, Aug. 20, 2003

4.      A. Görür, “A novel electromagnetic band-gap (EBG) structure with one cell with the use of properties of a microstrip open-loop resonator” Microwave and Optical Tech. Lett., Vol.34, No.6, pp.454-459, Sep. 5, 2002

D5.C. Karpuz, M. Duyar and A. Görür, “Analysis of coplanar-coupled lines on a cylindrical substrate”, Microwave and Optical Tech. Lett., Vol.27, No.3, pp.187-190, November 5, 2000

1.     Duyar, M., Akan, V., Yazgan, E., et al., “Analyses of elliptical coplanar coupled waveguides and coplanar coupled waveguides with finite ground width”, IEEE Transactions On Microwave Theory and Techniques, 54 (4): 1388-1395 Part 1 APR 2006

D6.A. Görür, M. Duyar and C. Karpuz, “Analytic formulas for calculating the quasistatic parameters of multilayer cylindrical coplanar strip line”, Microwave and Optical Tech. Lett., Vol.22, No.6, pp.432-436, September 20, 1999

   Atıfta Bulunan Makaleler:

1.      Akan, V. and Yazgan, E., “Quasi-static solutions of multilayer elliptical, cylindrical coplanar striplines and multilayer coplanar striplines with finite dielectric dimensions - Asymmetrical case”, IEEE Transactions On Microwave Theory and Techniques, 53 (12): 3681-3686 DEC 2005

2.      V. Akan and E. Yazgan, “Quasistatic TEM characteristics of multilayer elliptical and cylindrical coplanar waveguides”, Microwave and Optical Techn. Lett., Vol.42, No.4, pp.317-322, Aug 20 2004.

D7. A. Görür, M. Duyar and C. Karpuz, “Analysis of cylindrical coupling structures”, Microwave and Optical Tech. Lett., Vol.22, No.5, pp.298-301, September 5, 1999

   Atıfta Bulunan Makaleler:

1.   M. S. Al Salameh and A. M. Olaimat, “Method of moments modeling of cylindrical microwave integrated circuits interconnections”, Int. J. Num. Mod.-Elk. Net. Devices. and Fields, Vol.17, No.2, pp.119-133, March-April 2004

D8. “C. Karpuz and A. Görür, “Effect of upper shielding and conductor backing on quasistatic parameters of asymmetric coplanar waveguides”, Int. J. RF. And Microwave CAE, Vol. 9 No.5, pp.394-402, 1999

   Atıfta Bulunan Makaleler:

1.   C. Karpuz and A. Görür, “Quasistatic analysis of broadside-coupled conductor-backed asymmetric coplanar waveguide with one lateral ground plane using conformal mapping method”, Microwave and Optical Tech. Lett., Vol.26, No.3, pp.156-160, August 5, 2000

D9. A. Görür and C. Karpuz, “Experimental study on characteristic of loaded CPW resonators” Microwave and Optical Tech. Lett., Vol.21, No.3, pp.199-201, May 5, 1999

   Atıfta Bulunan Makaleler:

1.      J. J. Yu, S. T. Chew, M. S. Leong, and B. L. Ooi, “Miniaturized microstrip open loop filters”, Microwave and Optical Techn. Lett., Vol.35, No.2, pp.157-159, Oct.20 2002

D10. C. Karpuz and A. Görür, “Quasistatic solution of elliptical coplanar waveguide”, Microwave and Optical Tech. Lett.,  Vol.20, No.6, pp.385-389, March 1999

   Atıfta Bulunan Makaleler:

1.      V. Akan and E. Yazgan, “Quasistatic TEM characteristics of multilayer elliptical and cylindrical coplanar waveguides”, Microwave and Optical Techn. Lett., Vol.42, No.4, pp.317-322, Aug 20 2004

2.      M. S. Al Salameh and A. M. Olaimat, “Method of moments modeling of cylindrical microwave integrated circuits interconnections”, Int. J. Num. Mod.-Elk. Net. Devices. and Fields, Vol.17,  No.2, pp.119-133, March-April 2004

3.      V. Akan and E. Yazgan, “A simple formulation for quasistatic solutions of elliptical, cylindrical and asymmetrical coplanar strip lines”, Microwave and Optical Tech. Lett., Vol.41, No.1, pp.18-21, Apr. 5, 2004

D11. M. Alkan, A. Görür and C. Karpuz, “Quasistatic analysis of cylindrical coplanar waveguide with multilayer dielectric”, Int. J. MIMICAE, Vol. 8, No.4, pp.303-314, 1998

   Atıfta Bulunan Makaleler:

1.      M. S. Al Salameh and A. M. Olaimat, “Method of moments modeling of cylindrical microwave integrated circuits interconnections”, Int. J. Num. Mod.-Elk. Net. Devices. and Fields, Vol.17,  No.2, pp.119-133, March-April 2004

2.      C. Karpuz, A. Görür and Z. Genç, “Rectangular-shaped microshield coplanar waveguides on cylindrical substrate”, Microwave and Optical Tech. Lett., Vol.29, No.6, pp.415-418, June 20, 2001

3.      C. Karpuz, M. Duyar and A. Görür, “Analysis of coplanar-coupled lines on a cylindrical substrate”, Microwave and Optical Tech. Lett., Vol.27, No.3, pp.187-190, November 5, 2000

4.      N. Dib, and T. Weller, “Finite difference time domain analysis of cylindrical coplanar waveguide circuits”, Int. J. Electron, Vol.87, No.9, pp.1083-1094, Sep 2000

D12.C. Karpuz, A. Görür and M. Alkan, “Quasistatic analysis of cylindrical coplanar strip lines”, Microwave and Optical Tech. Lett., Vol.17,No.2, pp.148-151, Feb., 1998

   Atıfta Bulunan Makaleler:

1.      V. Akan and E. Yazgan, “Quasistatic TEM characteristics of multilayer elliptical and cylindrical coplanar waveguides”, Microwave and Optical Techn. Lett., Vol.42, No.4, pp.317-322, Aug 20 2004

2.      A. Görür and C. Karpuz, Comments on “CAD Models for asymmetrical, elliptical, cylindrical, and elliptical cone coplanar strip lines”, IEEE Transactions on Microwave Theory and Techniques, Vol.49, No.2, pp.410, February 2001

3.      Z. W. Du, K. Gong, J. S. Fu, et al., “Comments on “CAD models for asymmetrical, elliptical, cylindrical, and elliptical cone coplanar strip lines”-Reply”, IEEE Trans. On Microwave Theory and Tech., Vol.49, No.2, pp.410-411, Feb 2001

4.      Z. W. Du, K. Gong, J. S. Fu, et al., “CAD models for asymmetrical, elliptical, cylindrical, and elliptical cone coplanar strip lines”, IEEE Trans. On Microwave Theory and Tech., Vol.48, No.2, pp.312-316, Feb 2000

5.      Z. W. Du, K. Gong, and J. S. Fu, “Analysis of asymmetrical coplanar strip lines with finite boundary substrate”, Int. J. Infrared Millimeter, Vol.20, No.9, pp.1701-1707, Sep 1999

6.      A. Görür, M. Duyar and C. Karpuz, “Analytic formulas for calculating the quasistatic parameters of multilayer cylindrical coplanar strip line”, Microwave and Optical Tech. Lett., Vol.22, No.6, pp.432-436, September 20, 1999

D13.A. Görür, C. Karpuz and M. Alkan, “Characteristics of periodically loaded CPW structures”, IEEE Microwave and Guided Wave Letters, Vol.8, No.8, pp.278-280, 1998

   Atıfta Bulunan Makaleler:

1.     Lakshminarayanan, B. and Weller, T. M., “Design and modeling of 4-bit slow-wave MEMS phase shifters”, IEEE Transactions On Microwave Theory and Techniques, 54 (1) 120-127 JAN 2006

2.     Akgün, O. and Görür, A., “Slow-wave CPW resonator with defected ground structure (DGS) for filter applications”, Microwave and Optic. Tech. Lett., 48 (2) 229-233 FEB 2006

3.     J. H. Park, S. Lee, J. M. Kim, et al. “Reconfigurable millimeter-wave filters using CPW-based periodic structures with novel multiple-contact MEMS switches”, J Microelectromechanical Sys., Vol.14, No.3, pp.456-463, June 2005

4.     S. K. Padhi and N. C. Karmakar, “Fractal PBG assisted co-planar waveguides”, Microwave and Optical Techn. Lett., Vol.45, No.1, pp.75-78, Apr 5 2005

5.     K. W. Eccleston, “Compact dual-fed distributed power amplifier”, IEEE Trans. on Microwave Theory and Tech., Vol.53, No.3, pp.825-831, Part 1, March 2005

6.     S. S. Liao, H. K. Chen, H. Y. Liao and Y. C. Chang, “Novel compact narrowband CPW bandpass filter using an efficient loaded structure”, Microwave and Optical Techn. Lett., Vol.42, No.3, pp.185-187, Aug.5 2004

7.     J. F. Zhou, M. J. Lancaster and F. Huang, “HTS coplanar meander-line resonator filters with a suppressed slot-line mode”, IEEE Trans. On Applied Supercon., Vol.14, No.1, pp.28-32, March 2004

8.     S. Lee, J.-H. Park, J.-M. Kim, H.-T. Kim, Y.-K. Kim, and Y. Kwon, “A compact low-loss reconfigurable monolithic low-pass filter using multiple-contact MEMS switches”, IEEE Microwave and Wireless Component Lett., Vol.14, No.1, pp.37-39, Jan 2004

9.     K. W. Eccleston and S. H. M. Ong, “Compact planar microstrip-line branch-line and rat-race couplers”, IEEE Trans. on Microwave Theory and Tech., Vol.51, No.10, pp.2119-2125, Oct. 2003

10. L. Zhu, “Guided-wave characteristic of periodic coplanar waveguides with inductive loading-Unit-length transmission parameters”, IEEE Trans. on Microwave Theory and Tech., Vol.51, No.10, pp.2133-2138, Oct. 2003

11. S. S. Liao, P. T. Sun, H. K. Chen and X. Y. Liao, “Compact-size coplanar waveguide bandpass filter”, IEEE Microwave and Wireless Component Lett., Vol.13, No.6, pp.241-243, Feb 2003

12.   F. Martin, et al., “New electromagnetic bandgap nonlinear coplanar waveguides”, Microwave and Optical Techn. Lett., Vol.37, No.6, pp.397-401, June 20 2003

13. Q. Xue, T. T. Mo, K. M. Shum and C. H. Chan, “Characteristics of a compact CPW resonant cell”, Microwave and Optical Techn. Lett., Vol.37, No.6, pp.408-410, April 20 2003

14.   Q. Xue, K. M. Shum and C. H. Chan, “Low conversion-loss fourth sub-harmonic mixers incorporating CMRC for millimeter-wave applications”, IEEE Trans. on Microwave Theory and Tech., Vol.51, No.5, pp.1449-1454, May 2003

15. Q. Xue, Y. F. Liu, K. M. Shum, and C. H. Chan, “A study of compact microstrip resonant cells with applications in active circuits”, Microwave and Optical Techn. Lett., Vol.37, No.2, pp.158-162, April 20 2003

16. F. Martin, et al., “Periodic-loaded sinusoidal patterned electromagnetic bandgap coplanar waveguides”, Microwave and Optical Techn. Lett., Vol.36, No.3, pp.181-184, Feb.5 2003

17. J. Zhou, D. Hung, M. J. Lancaster, H. T. Su, and X. Xiong, “A novel superconducting CPW slow-wave bandpass filter”, Microwave and Optical Techn. Lett., Vol.34, No.4, pp.255-259, August 20 2002

18. J. Sor, Y. Qian, and T. Itoh “Miniature low-loss CPW periodic structures for filter applications”, IEEE Trans. on Microwave Theory and Tech., Vol.49, No.12, pp.2336-2341, Dec. 2001

19. A. Alphones, and W. K. Yee, “Reply to “Comments on ‘Periodically slotted microstrip ring resonator’”, Microwave and Optical Techn. Lett., Vol.31, No.3, pp.243-243, Nov 5 2001

20. G. Leon, R.R. Boix, and F. Medina, “A comparison among different reduced-size resonant microstrip patches”, Microwave and Optical Techn. Lett., Vol.29, No.3, pp.143-146, May 5 2001

21. Y. K. Kuo, C. H. Wang, and C. H. Chen, “Novel reduced-size coplanar-waveguide bandpass filters”, IEEE Microwave and Wireless Component Lett., Vol.11, No.2, pp.65-67, Feb 2001

22. S. Reed, L. Desclos, C. Terret, et al., “Patch antenna size reduction by means of inductive slots”, Microwave and Optical Techn. Lett., Vol.29, No.2, pp.79-81, Apr 20 2001

23. Q. Xue, K. M. Shum, and C. H. Chan, “Novel 1-D microstrip PBG cells”, IEEE Microwave and Guided Wave Lett., Vol.10, No.10, pp.403-405, Oct 2000

24. A. Alphones, and W. K. Yee, “Periodically slotted microstrip ring resonator”, Microwave and Optical Techn. Lett., Vol.27, No.3, pp.192-195, Nov 5 2000

D14.A. Görür, C. Karpuz and M. Alkan “Quasistatic TEM characteristic of overlayed supported asymmetric coplanar waveguides”, Int. J. MIMICAE, Vol. 6, No.5, pp.297-304, Sept. 1996

   Atıfta Bulunan Makaleler:

1.      V. Akan and E. Yazgan, “Quasistatic TEM characteristics of multilayer elliptical and cylindrical coplanar waveguides”, Microwave and Optical Techn. Lett., Vol.42, No.4, pp.317-322, Aug. 20 2004

2.      A. Görür and C. Karpuz, “Effect of finite and different ground-plane widths on quasistatic parameters of asymmetrical coplanar waveguides”, Int. J. RF. And Microwave CAE, Vol. 10 No.6, pp.383-389, November 3, 2000

3.      A. Görür and C. Karpuz, “Effect of finite ground-plane width on quasistatic parameters of asymmetric coplanar waveguides”, IEE Proc. Microw. Antennas Propag., Vol.147, No.5, pp.343-347, October, 2000

4.      A. Görür, M. Duyar and C. Karpuz, “Analytic formulas for calculating the quasistatic parameters of multilayer cylindrical coplanar strip line”, Microwave and Optical Tech. Lett., Vol.22, No.6, pp.432-436, September 20, 1999

5.      C. Karpuz and A. Görür, “Effect of upper shielding and conductor backing on quasistatic parameters of asymmetric coplanar waveguides”, Int. J. RF. And Microwave CAE, Vol. 9 No.5, pp.394-402, 1999

6.      A. Görür and C. Karpuz, “Effect of finite ground-plane width on quasistatic parameters of asymmetric coplanar waveguides”., Microwave and Optical Tech. Lett., Vol.22, No.1, pp.63-68, July 5, 1999

7.      M. Alkan, A. Görür and C. Karpuz, “Quasistatic analysis of cylindrical coplanar waveguide with multilayer dielectric”, Int. J. MIMICAE,  Vol. 8, No.4, pp.303-314, 1998

D15.C. Karpuz, A. Görür, H. Görür and M. Alkan, “Fast and analytical expressions for quasistatic parameters of asymmetric coplanar lines”, Microwave and Optical Tech. Lett., Vol.9, No.6, pp-334-336, August 20 1995

   Atıfta Bulunan Makaleler:

1.      E. D. Ubeyli and I. Güler, “Multilayer perceptron neural networks to compute quasistatic parameters of asymmetric coplanar waveguides”, Neurocomputing, Vol.62, pp.349-365, Dec 2004

2.      A. Görür and C. Karpuz, “Effect of finite and different ground-plane widths on quasistatic parameters of asymmetrical coplanar waveguides”, Int. J. RF. And Microwave CAE, Vol. 10 No.6, pp.383-389, November 3, 2000

3.      A. Görür and C. Karpuz, “Effect of finite ground-plane width on quasistatic parameters of asymmetric coplanar waveguides”, IEE Proc. Microw. Antennas Propag., Vol.147, No.5, pp.343-347, October, 2000

4.      C. Karpuz and A. Görür, “Effect of upper shielding and conductor backing on quasistatic parameters of asymmetric coplanar waveguides”, Int. J. RF. And Microwave CAE, Vol. 9 No.5, pp.394-402, 1999

5.      A. Görür and C. Karpuz, “Effect of finite ground-plane width on quasistatic parameters of asymmetric coplanar waveguides”, Microwave and Optical Tech. Lett., Vol.22, No.1, pp.63-68, July 5, 1999

6.      A. Görür and C. Karpuz, “Quasistatic- TEM analysis of coplanar waveguides with different ground-plane widths”, Microwave and Optical Tech. Lett., Vol.20, No.5, pp.311-315, March 1999

7.      C. Karpuz, A. Görür and M. Alkan, “Quasistatic analysis of cylindrical coplanar strip lines”, Microwave and Optical Tech. Lett., Vol.17,No.2, pp.148-151, Feb.5,

D16. A. Görür, C. Karpuz and M.J. LANCASTER, “Modified Coplanar Meander Transmission Line for MMIC’s”, Electronics Lett., Vol.30, No.16, pp. 1317-1318, August 1994

   Atıfta Bulunan Makaleler:

1.      A. Görür, and O. Akgün, “Resonance characteristics of capacitively loaded CPW open-loop resonators”, Microwave and Optical Tech. Lett., Vol.38, No.4, pp.298-300, Aug. 20, 2003

2.      A. Görür and C. Karpuz, “Experimental study on characteristic of loaded CPW resonators” Microwave and Optical Tech. Lett., Vol.21, No.3, pp.199-201, May 5, 1999

3.      A. Görür, “Slow-wave characteristics of interdigitated meander transmission lines” Microwave and Optical Tech. Lett., Vol.13, No.1, pp.45-47, Sep. 5, 1996

4.      E.H. Bottcher, H. Pfitzenmaier, E. Droge, et al, “Millimeter-wave coplanar waveguide slow wave transmission lines on InP”, Electronics Lett., Vol.32, No.15, pp.1377-1378, Jul 18 1996

M.J. Lancaster, F. Huang, A. Porch, et al., “Miniature superconducting filters”, IEEE Trans. On Microwave Theory and Tech., Vol.44, No.7, pp.1339-1346, July 1996

 

Ödüller

35’in üzerinde TÜBİTAK Uluslararası Bilimsel Yayınları Teşvik ödülü

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TÜBAV Başarı ve Destek ödülü

Serhat ÖZYAR Yılın Genç Bilim İnsanı Ödülü (2004)

TÜBA GEBİP-2005 Üstün Başarılı Genç Bilim Adamı Ödülü (2005)

 

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