Spelling suggestions: "subject:"circular epolarisation"" "subject:"circular depolarisation""
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Recoil polarimetery in meson photoproduction reactionsSikora, Mark January 2011 (has links)
A large acceptance polarimeter has been designed to measure recoil polarisation in pseudoscalar (Jπ=0−) meson photoproduction reactions. The device was installed at the MAMI facility at the Institut für Kernphysik in Mainz, Germany. A racetrack microtron provided a longitudinally polarised 1.5 GeV electron beam, which impinged on a 12 μm copper radiator, producing a beam of circularly polarised Bremsstrahlung photons with energies between 400-1400 MeV. The electrons were then momentum analysed in the Glasgow Photon Tagging Spectrometer to tag the photon energy with a resolution of ~4 MeV. The photons were incident on a liquid hydrogen target, and the reaction products were detected using the Crystal Ball and TAPS detectors. The beam-recoil polarisation observable Cx, which describes the fraction of circular polarisation transferred from the photon beam to the recoiling nucleon, was measured in the reactions γp→pπ0 and γp→pη from data taken in September-October 2008. The results for π0 production give a significant expansion of the world data set and are shown to be consistent with the few previous measurements taken at Jefferson Lab, USA, while the results for the η channel are a world first. The observed values for Cx are compared to the current solutions from the two leading partial wave analyses, SAID and MAID, with wide angular coverage up to a photon beam energy of 1400 MeV. Significant discrepancies in the prediction of Cx can be resolved by the new data.
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Design of an Array of Patch-elements With a Band-pass Frequency Selective Surface Hybrid Radome : Analysis and characterisation of a frequency selective surface and a phased array antenna / Design av en fasstyrd gruppantenn med en bandpass frekvensselektiv yta hybrid radom : Analys och karaktärisering av en frevensselektiv yta och en fasstyrd gruppantennNormark Frisk, Curt-Herman January 2022 (has links)
A circular polarised phased array antenna and a frequency selective hybrid radome are designed and evaluated. The antenna system is well suited as a part of a communication link between platforms with a 600 MHz bandwidth and a centre frequency of 5 GHz. A prototype consisting of 8 x 8 patch elements has been designed, manufactured and characterised. The final configuration will be a compact, relatively inexpensive system with single-fed antenna elements. An array antenna with circular polarisation is suitable when the receiver must maintain a strong signal regardless of the relative antenna orientation. The radome protects the antenna and can also reduce both the radar cross section and interference from out-of-band signals. The main focus is to make sure that the phased array antenna and the radome work as one unit and maximise the field of view in which the polarisation is circular. The method to maximise the field of view is to reduce the coupling between antenna elements by using shorting via fences surrounding each element. Following this method results in a total array gain of 18 dBi, 25° half-power beamwidth and a ±35° maximum scan angle with maintained circular polarisation. Prototype measurements agree well with the simulated results. / En cirkulärpolariserad fasstyrd gruppantenn samt en frekvensselektiv hybrid-radom har designats och utvärderats. Antennsystemet lämpar sig väl som en kommunikationslänk mellan plattformar med en 600 MHz bandbredd och centerfrekvens 5 GHz. En prototyp besåtende av 8 × 8 patchelement har designats, tillverkats och karaktäriserats. Den slutgiltiga konfigurationen resulterade i ett kompakt och relativt billigt system med single-matade antennelement. En gruppantenn med cirkulär polarisation är lämplig när mottagaren måste bibehålla en stark signal oavsett antennens relativa orientering. Radomen skyddar antennen från väder och vind och kan även minska både radarmålsarean och störningar från utombandiga signaler. Huvudfokus är att se till att den fasstyrda gruppantennen och radomen fungerar som en enhet och maximerar scan-området i vilket polarisationen är cirkulär. Metoden för att maximera detta område är att minska kopplingen mellan antennelementen genom att använda ett kortslutande viastaket som omsluter varje element. Metoden resulterar i totalt 18 dBi array gain, 25° half-power beamwidth och en maximal utstyrningsvinkel på ±35° med bibehållen cirkulär polarisation. Prototypens mätresultat stämmer väl överens med simulationsresultaten.
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