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Radioteleskop za vodikovo črto 21cm
ID SAJE, TADEJA (Author), ID Vidmar, Matjaž (Mentor) More about this mentor... This link opens in a new window

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MD5: 59F50D95C2B617204149607A1997D333
PID: 20.500.12556/rul/99a03fd5-882b-4f82-88d6-49d160def425

Abstract
Radioteleskop je naprava za merjenje moči, spektra in polarizacije elektromagnetnega sevanja, ki ga oddajo nebesni izvori v področju radijski valov. Radijski signali so šibkejši kot vidna svetloba. Velika valovna dolžina radijskega sevanja zahteva velik radioteleskop za primerljivo prostorsko ločljivost.S skrbnim načrtovanjem in izdelavo nizkošumnega ojačevalnika, pasovnega sita in žarilca za parabolično zrcalo nam je uspelo izdelati radioteleskop šumno temperaturo sistema 60K v frekvenčnem pasu 1.42GHz. V radioteleskopu smo uporabili ceneno tržno zrcalo premera 3m za satelitsko televizijo in pripadajoči vrtiljak azimut-elevacija. Signal smo obdelali s cenenim DVB-T ključkom in prosto dostopno programsko opremo na prenosnem osebnem računalniku. S ceneno elektroniko in majhno anteno smo opazovali sevanje nevtralnega vodika v naši galaksiji Rimski cesti. Iz meritev je razvidno, da ima Rimska cesta številne krake spiralne oblike.

Language:Slovenian
Keywords:radioteleskop, LNA, pasovno prepustno frekvenčno sito, vodikove črte, radioastronomija, žarilec
Work type:Master's thesis/paper
Organization:FE - Faculty of Electrical Engineering
Year:2017
PID:20.500.12556/RUL-88901 This link opens in a new window
Publication date in RUL:27.01.2017
Views:4204
Downloads:1106
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Secondary language

Language:English
Title:Radiotelescope for the 21cm Hydrogen Spectral Line
Abstract:
A radio-telescope measures the power, frequency spectrum and polarization of celestial sources in the radio-frequency range. In the radio-frequency range the signals from celestial sources are weaker than in the visible light. The large wavelength of radio waves requires a large radio-telescope for a comparable spatial resolution. With a careful design and manufacturing of a low-noise amplifier, a band- pass filter and a parabolic-dish primary feed we obtained a radio-telescope with a system noise temperature of 60K in the 1.42GHz frequency range. In the radio-telescope we employed an inexpensive commercial parabolic mirror of 3m diameter intended for satellite TV reception and corresponding azimuth-elevation antenna positioner. We processed the signals with an inexpensive DVB-T receiver (USB dongle) and free software running on a portable personal computer. With inexpensive electronics and a small antenna we observed the radia- tion of neutral hydrogen in our galaxy Milky way. From our measurements it is evident that Milky way has several spiral arms. čšž

Keywords:radiotelescope, LNA, band-pass filter, hydrogen line, radioastronomy, feed horn

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