• Corpus ID: 119338506

Hydrogen Line Observations of Cometary Spectra at 1420 Mhz

  title={Hydrogen Line Observations of Cometary Spectra at 1420 Mhz},
  author={Antonio Paris},
  journal={arXiv: Earth and Planetary Astrophysics},
  • Antonio Paris
  • Published 10 June 2017
  • Physics
  • arXiv: Earth and Planetary Astrophysics
In 2016, the Center for Planetary Science proposed a hypothesis arguing a comet and/or its hydrogen cloud were a strong candidate for the source of the Wow! Signal. From 27 November 2016 to 24 February 2017, the Center for Planetary Science conducted 200 observations in the radio spectrum to validate the hypothesis. The investigation discovered that comet 266/P Christensen emitted a radio signal at 1420.25 MHz. The results of this investigation, therefore, conclude that cometary spectra are… 
Decryption of Fast Burst Radio Fbr Using Big Data
  • J. Ronczka
  • Computer Science
    2017 4th Asia-Pacific World Congress on Computer Science and Engineering (APWC on CSE)
  • 2017
It is shown within the signal processing context that the FRB is plausibly an observed fragmented signal that appears to have a fragmented—fractal message with a packet format (Binary: header, Payload, Tail).
Geschichte, Methoden und Vorannahmen der wissenschaftlichen Suche nach außerirdischen Intelligenzen
Aufbauend auf dem im Vorkapitel vermittelten naturwissenschaftlichen Basiswissen schauen wir uns die nunmehr fast 70 jahrige Geschichte der radioastronomischen Suche nach den Signalen auserirdischer