Analysis of information sources in references of the Wikipedia article "Radio astronomy" in English language version.
In April 1933, closing in on nearly two years of study, Jansky read his breakthrough paper, "Electrical Disturbances Apparently of Extraterrestrial Origin," before a meeting of the International Scientific Radio Union in Washington, DC. The strongest of the extraterrestrial waves, he found, emanate from a region in Sagittarius centered around right ascension 18 hours and declination — 20 degrees — in other words, from the direction of the galactic center. Jansky's discovery made the front page of the New York Times on 5 May 1933, and the field of radio astronomy was born.
Jansky died in 1950 at the age of 44, the result of a massive stroke stemming from his kidney disease. When that first 1933 paper was reprinted in Proceedings of the IEEE in 1984, the editors noted that Jansky's work would mostly likely have won a Nobel prize, had the scientist not died so young. Today the "jansky" is the unit of measurement for radio wave intensity (flux density).
In April 1933, closing in on nearly two years of study, Jansky read his breakthrough paper, "Electrical Disturbances Apparently of Extraterrestrial Origin," before a meeting of the International Scientific Radio Union in Washington, DC. The strongest of the extraterrestrial waves, he found, emanate from a region in Sagittarius centered around right ascension 18 hours and declination — 20 degrees — in other words, from the direction of the galactic center. Jansky's discovery made the front page of the New York Times on 5 May 1933, and the field of radio astronomy was born.
Jansky died in 1950 at the age of 44, the result of a massive stroke stemming from his kidney disease. When that first 1933 paper was reprinted in Proceedings of the IEEE in 1984, the editors noted that Jansky's work would mostly likely have won a Nobel prize, had the scientist not died so young. Today the "jansky" is the unit of measurement for radio wave intensity (flux density).