Linearly Polarized Radial Line Slot Antenna

14-05-2021
 |  [RAND-100] - Comments

Create your town with endless possibilities in The Sims FreePlay, a mobile game available on iOS and Android. PC Console The Sims 4 The Sims Mobile The Sims Freeplay Home News Tips News Tips The Sims Forums NEWS gLAm Mansion Update. The Sims FreePlay. Unlock an gLAm Mansion for Sims that love to live the highlife! The Sims Games. Play The Sims Games on Emulator Online. All the best The Sims games online for different retro emulators including GBA, Game Boy, SNES, Nintendo and Sega. There are many online The Sims games in the collection. All of the games that you see here are without download, pick any and start playing right away. Nov 17, 2017  If deep in the heart, you are dreaming about controlling other people’s lives, the Sims 4 affords you such an opportunity. The most popular real-life simulator, The Sims 4 is rapidly conquering the world, and its fan base is ever-increasing because the game allows users to create an ideal world and be whatever they want. Online sims game free download. Sep 02, 2014  The Sims is now an Amazon Alexa skill Great news for Alexa users. It now supports Sims 4. Players must connect their Origin account with Amazon to use full Alexa's power. What it can now: Play hours of The Sims music. EA developers collected 140 songs from The Sims 3 and The Sims 4. You don't need to start the game to listen to favorite music.

Linearly polarized waveRadial
  1. Akiyama A et al (1988) Numerical optimisation of slot parameters for a concentric array radial line slot antenna. Microwaves Antennas Propag IEE Proc 145(2):141–146MathSciNetCrossRefGoogle Scholar
  2. Akiyama A et al (2000) High gain radial line slot antennas for millimetre wave applications. Microwaves Antennas Propag IEE Proc 147(2):134–138CrossRefGoogle Scholar
  3. Albani M et al (2006) An efficient full-wave method of moments analysis for RLSA antennas. IEEE Trans Antennas Propag 54(8):2326–2336MathSciNetCrossRefGoogle Scholar
  4. Albani M et al (2009) Asymptotic approximation of mutual admittance involved in MoM analysis of RLSA antennas. IEEE Trans Antennas Propag 57(4):1057–1063CrossRefGoogle Scholar
  5. Albani M et al (2011) Rigorous MoM analysis of finite conductivity effects in RLSA antennas. IEEE Trans Antennas Propag 59(11):4023–4032MathSciNetCrossRefGoogle Scholar
  6. Ando M et al (1985) A radial line slot antenna for 12 GHz satellite TV reception. IEEE Trans Antennas Propag 33(12):1347–1353CrossRefGoogle Scholar
  7. Ando M et al (1986) Characteristics of a radial line slot antenna for 12 GHz band satellite TV reception. IEEE Trans Antennas Propag 34(10):1269–1272CrossRefGoogle Scholar
  8. Ando M et al (1988) A linearly polarized radial line slot antenna. IEEE Trans Antennas Propag 36(12):1675–1680CrossRefGoogle Scholar
  9. Arai H, Goto N (1995) Novel feed circuit for radial-line waveguide. In: Proceedings of the ninth international conference on antennas and propagation, Eindhoven, vol 1, pp 231–234Google Scholar
  10. Bialkowski ME et al (2002) Analysis of a circular patch antenna radiating in a parallel-plate radial guide. IEEE Trans Antennas Propag 50(2):180–187MathSciNetCrossRefGoogle Scholar
  11. Cheng WY et al (2013) Designs and experiments of a novel radial line slot antenna for high-power microwave application. IEEE Trans Antennas Propag 61(10):4940–4946CrossRefGoogle Scholar
  12. Davis PW et al (1997) Experimental investigations into a linearly polarized radial slot antenna for DBS TV in Australia. IEEE Trans Antennas Propag 45(7):1123–1129CrossRefGoogle Scholar
  13. Davis PW et al (1999) Linearly polarized radial-line slot-array antennas with improved return-loss performance. IEEE Antennas Propag Mag 41(1):52–61CrossRefGoogle Scholar
  14. Ettorre M et al (2014) On the near-field shaping and focusing capability of a radial line slot array. IEEE Trans Antennas Propag 62(4):1991–1999CrossRefGoogle Scholar
  15. Gonzalez JMF et al (2011) Lightweight portable planar slot array antenna for satellite communications in X-band. IEEE Antennas Wirel Propag Lett 10:1409–1412CrossRefGoogle Scholar
  16. Herranz JI et al (2010) Optimization of beam-tilted linearly polarized radial-line slot-array antennas. IEEE Antennas Wirel Propag Lett 9:1165–1168CrossRefGoogle Scholar
  17. Hirokawa J, Ando M (2000) Sidelobe suppression in 76 GHz post-wall waveguide-fed parallel plate slot arrays. IEEE Trans Antennas Propag 48(11):1727–1732CrossRefGoogle Scholar
  18. Hirokawa J et al (1990) Analysis of slot coupling in a radial line slot antenna for DBS reception. Microwaves Antennas Propag IEE Proc H 137(5):249–254CrossRefGoogle Scholar
  19. Hirokawa J et al (1992) Waveguide-fed parallel plate slot array antenna. IEEE Trans Antennas Propag 40(2):218–223CrossRefGoogle Scholar
  20. Junfeng X et al (2013) Xianming Qing 270-GHz LTCC-integrated strip-loaded linearly polarized radial line slot array antenna. IEEE Trans Antennas Propag 61(4, Part 1):1794–1801CrossRefGoogle Scholar
  21. Kelly KC, Goebels F (1964) Annular slot monopulse antenna arrays. IEEE Trans Antennas Propag 12(4):391–403CrossRefGoogle Scholar
  22. Kigure Y et al (1998) A radial line slot antenna fed by a ring slot coupled planar circuit. In: Korea Japan joint conference ‘98, Sep, PusanGoogle Scholar
  23. Kim Y et al (2002) 60 GHz band radial line slot array antenna fed by rectangular waveguide. Electron Lett 38(2):59–60CrossRefGoogle Scholar
  24. Mazzinghi A et al (2010) Influence of the finite slot thickness on RLSA antenna design. IEEE Trans Antennas Propag 58(1):215–218CrossRefGoogle Scholar
  25. Nakano H et al (1992) Low-profile helical array antenna fed from a radial waveguide. IEEE Trans Antennas Propag 40:279–284CrossRefGoogle Scholar
  26. Nguyen T et al (2013) An equivalent double layer model for a fast design and analysis of high gain multilayer radial line slot antennas. IEICE Trans Commun 96(11):2891–2900CrossRefGoogle Scholar
  27. Ohmi T (1997) Preface in New era of semiconductor manufacturing I. Ultra Clean Tech 9(Suppl 1):1–5Google Scholar
  28. Pla V et al (2006) Dual linearly polarized single-layer radial-line slot-array antenna. IEEE Antennas Wirel Propag Lett 5(1):120–122CrossRefGoogle Scholar
  29. Ronghong J et al (2001) A feeding circuit with CPW for CA-RLSA. IEEE Trans Antennas Propag 49(12):1862–1867CrossRefGoogle Scholar
  30. Sasazawa H et al (1988) Slot coupling in a radial line slot antenna for 12-GHz band satellite TV reception. IEEE Trans Antennas Propag 36(9):1221–1226CrossRefGoogle Scholar
  31. Sekine K et al (2000) Highly robust ultrathin silicon nitride films grown at low-temperature by microwave-excitation high-density plasma for giga scale integration. IEEE Trans Electron Device 47(7):1370–1374CrossRefGoogle Scholar
  32. Shibata O et al (1993) Radiation properties of microstrip array antennas fed by radial line. Electron Commun Jpn 76(12):93–102, Wiley InterSci, pt. 1CrossRefGoogle Scholar
  33. Subbarao B, Fusco VF (2003) Probe-fed circularly polarised monopulse radial line slot antenna. Electron Lett 39(21):1495–1496CrossRefGoogle Scholar
  34. Sudo K et al (2002) An analysis and a design for excitation of a rotating mode in a radial waveguide by a cross slot-coupled rectangular waveguide. In: IEICE technical report, AP2001-206, Feb (in Japanese), TokyoGoogle Scholar
  35. Sudo K et al (2007) Reduction of azimuthal amplitude ripple in the rotating-mode feed to a radial waveguide by using a crossed dog-bone slot. IEEE Trans Antennas Propag 55(9):2618–2622CrossRefGoogle Scholar
  36. Sumiyoshi H et al (1993) The feed circuit for exciting a rotating electric field in a radial waveguide. In: IEICE spring national conference, B-51, Mar (in Japanese), NagoyaGoogle Scholar
  37. Takada J et al (1988) A beam-tilted linearly polarized radial line slot antenna. In: IEICE spring national conference, B-107, Mar (in Japanese), TokyoGoogle Scholar
  38. Takada J et al (1992) A reflection cancelling slot set in a linearly polarized radial line slot antenna. IEEE Trans Antennas Propag 40(4):433–438CrossRefGoogle Scholar
  39. Takada J et al (1994) Circularly polarised conical beam radial line slot antenna. Electron Lett 30(21):1729–1730CrossRefGoogle Scholar
  40. Takada J et al (1997) Method of moments analysis of a small aperture radial line slot antenna using the rectangular cavity Green’s function. Microwaves Antennas Propag IEE Proc 144(6):498–500CrossRefGoogle Scholar
  41. Takahashi M et al (1991) A slot design for uniform aperture field distribution in single-layered radial line slot antennas. IEEE Trans Antennas Propag 39(7):954–959CrossRefGoogle Scholar
  42. Takahashi M et al (1992) Characteristics of small-aperture, single-layered, radial-line slot antennas. Microwaves Antennas Propag IEE Proc 139(1):79–83CrossRefGoogle Scholar
  43. Takahashi M et al (1993) A planar antenna for ECR plasma system. In: IEICE spring national conference, B-65, Mar (in Japanese), NagoyaGoogle Scholar
  44. Takahashi M et al (1995) Dual circularly polarized radial line slot antennas. IEEE Trans Antennas Propag 43(8):874–876CrossRefGoogle Scholar
  45. Takahashi M et al (1997) Low sidelobes for radial line slot antennas. Electron Commun Jpn 80(7):70–76, Wiley InterSci, pt. 13.0.CO%3B2-9'>CrossRefGoogle Scholar

Antenna parameters (directivity, equivalent admittance, radiation pattern) are derived for a single slot configuration. Two slots separated by a transmission line are employed to characterize the microstrip radiator. Length and bandwidth of the microstrip resonator are calculated and the design of linear arrays of microstrip radiators is outlined. Low‐Sidelobe Linearly-Polarized Radial Line Slot Antenna using a Double-Layer Dipole Array Polarizer Masahide Unno, Jiro Hirokawa, Makoto Ando Department of Electrical and Electronic Engineering, Tokyo Institute of Technology S3-19, 2-12-1, O-okayama, Meguro-ku, Tokyo, 152-8552, Japan.

This answer page contains the Wheel of Fortune cheat database for the category Movie Title. Get Answers Faster Using Filters Special Thanks to Everyone Who Has Provided Their Word Puzzle Solutions Submit Your Game Solution No Answer? Please Continue reading →. Dec 24, 2017  Autoplay When autoplay is enabled, a suggested video will automatically play next. Up next Wheel of Fortune - The Great Outdoors 2/2 - Duration: 21:21. Wheel of fortune game alexander the great. To summon Alexander the Great, you’ll obviously need his sculptures. The easiest way to get his sculpture is through the Wheel of Fortune. If he is no longer available in your kingdom’s Wheel of Fortune, you can try jumping on another kingdom to get him in another kingdom’s Wheel of Fortune. Geoffrey Chaucer used the concept of the tragic Wheel of Fortune a great deal. It forms the basis for the Monk's Tale, which recounts stories of the great brought low throughout history, including Lucifer, Adam, Samson, Hercules, Nebuchadnezzar, Belshazzar, Nero, Alexander the Great, Julius Caesar and, in the following passage, Peter I of Cyprus.

A Linearly Polarized Radial Line Slot Antenna

Linearly Polarized Radial Line Slot Antenna

Linearly Polarized Light

  1. Akiyama A et al (1988) Numerical optimisation of slot parameters for a concentric array radial line slot antenna. Microwaves Antennas Propag IEE Proc 145(2):141–146MathSciNetCrossRefGoogle Scholar
  2. Akiyama A et al (2000) High gain radial line slot antennas for millimetre wave applications. Microwaves Antennas Propag IEE Proc 147(2):134–138CrossRefGoogle Scholar
  3. Albani M et al (2006) An efficient full-wave method of moments analysis for RLSA antennas. IEEE Trans Antennas Propag 54(8):2326–2336MathSciNetCrossRefGoogle Scholar
  4. Albani M et al (2009) Asymptotic approximation of mutual admittance involved in MoM analysis of RLSA antennas. IEEE Trans Antennas Propag 57(4):1057–1063CrossRefGoogle Scholar
  5. Albani M et al (2011) Rigorous MoM analysis of finite conductivity effects in RLSA antennas. IEEE Trans Antennas Propag 59(11):4023–4032MathSciNetCrossRefGoogle Scholar
  6. Ando M et al (1985) A radial line slot antenna for 12 GHz satellite TV reception. IEEE Trans Antennas Propag 33(12):1347–1353CrossRefGoogle Scholar
  7. Ando M et al (1986) Characteristics of a radial line slot antenna for 12 GHz band satellite TV reception. IEEE Trans Antennas Propag 34(10):1269–1272CrossRefGoogle Scholar
  8. Ando M et al (1988) A linearly polarized radial line slot antenna. IEEE Trans Antennas Propag 36(12):1675–1680CrossRefGoogle Scholar
  9. Arai H, Goto N (1995) Novel feed circuit for radial-line waveguide. In: Proceedings of the ninth international conference on antennas and propagation, Eindhoven, vol 1, pp 231–234Google Scholar
  10. Bialkowski ME et al (2002) Analysis of a circular patch antenna radiating in a parallel-plate radial guide. IEEE Trans Antennas Propag 50(2):180–187MathSciNetCrossRefGoogle Scholar
  11. Cheng WY et al (2013) Designs and experiments of a novel radial line slot antenna for high-power microwave application. IEEE Trans Antennas Propag 61(10):4940–4946CrossRefGoogle Scholar
  12. Davis PW et al (1997) Experimental investigations into a linearly polarized radial slot antenna for DBS TV in Australia. IEEE Trans Antennas Propag 45(7):1123–1129CrossRefGoogle Scholar
  13. Davis PW et al (1999) Linearly polarized radial-line slot-array antennas with improved return-loss performance. IEEE Antennas Propag Mag 41(1):52–61CrossRefGoogle Scholar
  14. Ettorre M et al (2014) On the near-field shaping and focusing capability of a radial line slot array. IEEE Trans Antennas Propag 62(4):1991–1999CrossRefGoogle Scholar
  15. Gonzalez JMF et al (2011) Lightweight portable planar slot array antenna for satellite communications in X-band. IEEE Antennas Wirel Propag Lett 10:1409–1412CrossRefGoogle Scholar
  16. Herranz JI et al (2010) Optimization of beam-tilted linearly polarized radial-line slot-array antennas. IEEE Antennas Wirel Propag Lett 9:1165–1168CrossRefGoogle Scholar
  17. Hirokawa J, Ando M (2000) Sidelobe suppression in 76 GHz post-wall waveguide-fed parallel plate slot arrays. IEEE Trans Antennas Propag 48(11):1727–1732CrossRefGoogle Scholar
  18. Hirokawa J et al (1990) Analysis of slot coupling in a radial line slot antenna for DBS reception. Microwaves Antennas Propag IEE Proc H 137(5):249–254CrossRefGoogle Scholar
  19. Hirokawa J et al (1992) Waveguide-fed parallel plate slot array antenna. IEEE Trans Antennas Propag 40(2):218–223CrossRefGoogle Scholar
  20. Junfeng X et al (2013) Xianming Qing 270-GHz LTCC-integrated strip-loaded linearly polarized radial line slot array antenna. IEEE Trans Antennas Propag 61(4, Part 1):1794–1801CrossRefGoogle Scholar
  21. Kelly KC, Goebels F (1964) Annular slot monopulse antenna arrays. IEEE Trans Antennas Propag 12(4):391–403CrossRefGoogle Scholar
  22. Kigure Y et al (1998) A radial line slot antenna fed by a ring slot coupled planar circuit. In: Korea Japan joint conference ‘98, Sep, PusanGoogle Scholar
  23. Kim Y et al (2002) 60 GHz band radial line slot array antenna fed by rectangular waveguide. Electron Lett 38(2):59–60CrossRefGoogle Scholar
  24. Mazzinghi A et al (2010) Influence of the finite slot thickness on RLSA antenna design. IEEE Trans Antennas Propag 58(1):215–218CrossRefGoogle Scholar
  25. Nakano H et al (1992) Low-profile helical array antenna fed from a radial waveguide. IEEE Trans Antennas Propag 40:279–284CrossRefGoogle Scholar
  26. Nguyen T et al (2013) An equivalent double layer model for a fast design and analysis of high gain multilayer radial line slot antennas. IEICE Trans Commun 96(11):2891–2900CrossRefGoogle Scholar
  27. Ohmi T (1997) Preface in New era of semiconductor manufacturing I. Ultra Clean Tech 9(Suppl 1):1–5Google Scholar
  28. Pla V et al (2006) Dual linearly polarized single-layer radial-line slot-array antenna. IEEE Antennas Wirel Propag Lett 5(1):120–122CrossRefGoogle Scholar
  29. Ronghong J et al (2001) A feeding circuit with CPW for CA-RLSA. IEEE Trans Antennas Propag 49(12):1862–1867CrossRefGoogle Scholar
  30. Sasazawa H et al (1988) Slot coupling in a radial line slot antenna for 12-GHz band satellite TV reception. IEEE Trans Antennas Propag 36(9):1221–1226CrossRefGoogle Scholar
  31. Sekine K et al (2000) Highly robust ultrathin silicon nitride films grown at low-temperature by microwave-excitation high-density plasma for giga scale integration. IEEE Trans Electron Device 47(7):1370–1374CrossRefGoogle Scholar
  32. Shibata O et al (1993) Radiation properties of microstrip array antennas fed by radial line. Electron Commun Jpn 76(12):93–102, Wiley InterSci, pt. 1CrossRefGoogle Scholar
  33. Subbarao B, Fusco VF (2003) Probe-fed circularly polarised monopulse radial line slot antenna. Electron Lett 39(21):1495–1496CrossRefGoogle Scholar
  34. Sudo K et al (2002) An analysis and a design for excitation of a rotating mode in a radial waveguide by a cross slot-coupled rectangular waveguide. In: IEICE technical report, AP2001-206, Feb (in Japanese), TokyoGoogle Scholar
  35. Sudo K et al (2007) Reduction of azimuthal amplitude ripple in the rotating-mode feed to a radial waveguide by using a crossed dog-bone slot. IEEE Trans Antennas Propag 55(9):2618–2622CrossRefGoogle Scholar
  36. Sumiyoshi H et al (1993) The feed circuit for exciting a rotating electric field in a radial waveguide. In: IEICE spring national conference, B-51, Mar (in Japanese), NagoyaGoogle Scholar
  37. Takada J et al (1988) A beam-tilted linearly polarized radial line slot antenna. In: IEICE spring national conference, B-107, Mar (in Japanese), TokyoGoogle Scholar
  38. Takada J et al (1992) A reflection cancelling slot set in a linearly polarized radial line slot antenna. IEEE Trans Antennas Propag 40(4):433–438CrossRefGoogle Scholar
  39. Takada J et al (1994) Circularly polarised conical beam radial line slot antenna. Electron Lett 30(21):1729–1730CrossRefGoogle Scholar
  40. Takada J et al (1997) Method of moments analysis of a small aperture radial line slot antenna using the rectangular cavity Green’s function. Microwaves Antennas Propag IEE Proc 144(6):498–500CrossRefGoogle Scholar
  41. Takahashi M et al (1991) A slot design for uniform aperture field distribution in single-layered radial line slot antennas. IEEE Trans Antennas Propag 39(7):954–959CrossRefGoogle Scholar
  42. Takahashi M et al (1992) Characteristics of small-aperture, single-layered, radial-line slot antennas. Microwaves Antennas Propag IEE Proc 139(1):79–83CrossRefGoogle Scholar
  43. Takahashi M et al (1993) A planar antenna for ECR plasma system. In: IEICE spring national conference, B-65, Mar (in Japanese), NagoyaGoogle Scholar
  44. Takahashi M et al (1995) Dual circularly polarized radial line slot antennas. IEEE Trans Antennas Propag 43(8):874–876CrossRefGoogle Scholar
  45. Takahashi M et al (1997) Low sidelobes for radial line slot antennas. Electron Commun Jpn 80(7):70–76, Wiley InterSci, pt. 13.0.CO%3B2-9'>CrossRefGoogle Scholar