One of Jupiter's most dominant features, the South Equatorial Belt, has historically gone through a "fading" cycle. The usual dark, brownish clouds turn white, and after a period of time, the region returns to its normal color. Understanding this phenomenon, the latest occurring in 2010, will increase our knowledge of planetary atmospheres. Using the near infrared camera, NSFCAM2, at NASA's Infrared Telescope Facility in Hawaii, images were taken of Jupiter accompanied by data describing the circumstances of each observation. These images are then processed and reduced through an IDL program. By scanning the central meridian of the planet, graphs were produced plotting the average values across the central meridian, which are used to find v...
We use ground‐based mid‐infrared (8–20 μm) data acquired by three different instruments between 2005...
Jupiter's low and mid-latitudes are examined using ultraviolet (UV) images obtained with the Hubble ...
We obtained high-resolution spectra of Jupiter between 4.6 and 5.4 µm using NIRSPEC on the Keck 2 te...
International audienceThe banded appearance of Jupiter’s atmosphere shows significant changes over t...
Mid-infrared 7-20 μm imaging of Jupiter from ESO's Very Large Telescope (VLT/VISIR) demonstrate that...
The identity of the coloring agent(s) in Jupiter's atmosphere and the exact structure of Jupiter's u...
The transformation of Jupiter's South Equatorial Belt (SEB) from its faded, whitened state in 2009-2...
Pole-to-pole microdensitometer scans of Jupiter images, taken at red, green, blue and UV wavelengths...
We use an infrared data set captured between 1984 and 2017 using several instruments and observatori...
Jupiter's low and mid-latitudes are examined using ultraviolet (UV) images obtained with the Hubble ...
Jupiter's low and mid-latitudes are examined using ultraviolet (UV) images obtained with the Hubble ...
We analyse spectra measured by the Jovian Infrared Auroral Mapper (JIRAM, a payload element of the N...
The transformation of Jupiter’s South Equatorial Belt (SEB) from its faded, whitened state in 2009-2...
For decades, the origin of colour-carrying compounds ('chromophores') in Jupiter and Saturn's atmosp...
Ultraviolet (UV) images and spectra of Jupiter were examined to study the circulation pattern and po...
We use ground‐based mid‐infrared (8–20 μm) data acquired by three different instruments between 2005...
Jupiter's low and mid-latitudes are examined using ultraviolet (UV) images obtained with the Hubble ...
We obtained high-resolution spectra of Jupiter between 4.6 and 5.4 µm using NIRSPEC on the Keck 2 te...
International audienceThe banded appearance of Jupiter’s atmosphere shows significant changes over t...
Mid-infrared 7-20 μm imaging of Jupiter from ESO's Very Large Telescope (VLT/VISIR) demonstrate that...
The identity of the coloring agent(s) in Jupiter's atmosphere and the exact structure of Jupiter's u...
The transformation of Jupiter's South Equatorial Belt (SEB) from its faded, whitened state in 2009-2...
Pole-to-pole microdensitometer scans of Jupiter images, taken at red, green, blue and UV wavelengths...
We use an infrared data set captured between 1984 and 2017 using several instruments and observatori...
Jupiter's low and mid-latitudes are examined using ultraviolet (UV) images obtained with the Hubble ...
Jupiter's low and mid-latitudes are examined using ultraviolet (UV) images obtained with the Hubble ...
We analyse spectra measured by the Jovian Infrared Auroral Mapper (JIRAM, a payload element of the N...
The transformation of Jupiter’s South Equatorial Belt (SEB) from its faded, whitened state in 2009-2...
For decades, the origin of colour-carrying compounds ('chromophores') in Jupiter and Saturn's atmosp...
Ultraviolet (UV) images and spectra of Jupiter were examined to study the circulation pattern and po...
We use ground‐based mid‐infrared (8–20 μm) data acquired by three different instruments between 2005...
Jupiter's low and mid-latitudes are examined using ultraviolet (UV) images obtained with the Hubble ...
We obtained high-resolution spectra of Jupiter between 4.6 and 5.4 µm using NIRSPEC on the Keck 2 te...
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