{"id":2565,"date":"2019-01-13T14:44:03","date_gmt":"2019-01-13T12:44:03","guid":{"rendered":"https:\/\/www.planetary-astronomy-and-imaging.com\/?p=2565"},"modified":"2019-01-13T18:55:07","modified_gmt":"2019-01-13T16:55:07","slug":"uranus-spectrum-commented","status":"publish","type":"post","link":"https:\/\/www.planetary-astronomy-and-imaging.com\/en\/uranus-spectrum-commented\/","title":{"rendered":"Full spectrum of Uranus commented"},"content":{"rendered":"

Spectroscopy is a powerful technique to analyse and understand the celestial objects. It provides us with information about their chemical composition, the quantity of emitted light… Here is a low resolution spectrum of Uranus, commented for pedagogy.<\/em><\/strong><\/p>\n

This spectrum has been obtained on December 9th, 2018, with a Star Analyzer 100. This is a very low resolution grating whose main purpose is to obtain a quick view on the stars spectra. For the full processing, I obtained shortly after another spectrum from a nearby solar-like star, HD9986 in Pisces. This is an almost solar twin of same spectral type, G2V (G means a yellow star, 2 is the luminosity class (0 to 9) and V is the stellar evolution, here a main sequence star).<\/p>\n

For technical reasons (the red end of the first order spectrum is mixed with the blue end of the second order spectrum with the SA100), I have obtained both spectra in two parts, one with the grating alone, and a second one with a Baader IR685 infrared-pass filter, to eliminate the blue mixing. Both parts have been soldered to restore the full spectrum corresponding to the sensitivity of an amateur camera (click for full resolution):<\/p>\n

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