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| Credit: hubblesite.org |
New images obtained on May 16, 2016, by NASA's Hubble Space Telescope
confirm the presence of a dark vortex in the atmosphere of Neptune.
Though similar features were seen during the Voyager 2 flyby of Neptune
in 1989 and by the Hubble Space Telescope in 1994, this vortex is the
first one observed on Neptune in the 21st century.
The discovery was announced on May 17, 2016, in a Central Bureau for
Astronomical Telegrams (CBAT) electronic telegram by University of
California at Berkeley research astronomer Mike Wong, who led the team
that analyzed the Hubble data.
Neptune's dark vortices are high-pressure systems and are usually
accompanied by bright "companion clouds," which are also now visible on
the distant planet. The bright clouds form when the flow of ambient air
is perturbed and diverted upward over the dark vortex, causing gases to
likely freeze into methane ice crystals.
"Dark vortices coast through the atmosphere like huge, lens-shaped
gaseous mountains," Wong said. "And the companion clouds are similar to
so-called orographic clouds that appear as pancake-shaped features
lingering over mountains on Earth."
Beginning in July 2015, bright clouds were again seen on Neptune by
several observers, from amateurs to astronomers at the W. M. Keck
Observatory in Hawaii. Astronomers suspected that these clouds might be
bright companion clouds following an unseen dark vortex. Neptune's dark
vortices are typically only seen at blue wavelengths, and only Hubble
has the high resolution required for seeing them on distant Neptune.
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This new Hubble Space Telescope image confirms the
presence of a dark vortex in the atmosphere of Neptune. The full
visible-light image at left shows that the dark feature resides near and
below a patch of bright clouds in the planet's southern hemisphere. The
full-color image at top right is a close-up of the complex feature. The
vortex is a high-pressure system. The image at bottom right shows that
the vortex is best seen at blue wavelengths
Credits: NASA, ESA, and M.H. Wong and J. Tollefson (UC Berkeley)
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In September 2015, the Outer Planet Atmospheres Legacy (OPAL)
program, a long-term Hubble Space Telescope project that annually
captures global maps of the outer planets, revealed a dark spot close to
the location of the bright clouds, which had been tracked from the
ground. By viewing the vortex a second time, the new Hubble images
confirm that OPAL really detected a long-lived feature. The new data
enabled the team to create a higher-quality map of the vortex and its
surroundings.
Neptune's dark vortices have exhibited surprising diversity over the
years, in terms of size, shape, and stability (they meander in latitude,
and sometimes speed up or slow down). They also come and go on much
shorter timescales compared to similar anticyclones seen on Jupiter;
large storms on Jupiter evolve over decades.
Planetary astronomers hope to better understand how dark vortices
originate, what controls their drifts and oscillations, how they
interact with the environment, and how they eventually dissipate,
according to UC Berkeley doctoral student Joshua Tollefson, who was
recently awarded a prestigious NASA Earth and Space Science Fellowship
to study Neptune's atmosphere. Measuring the evolution of the new dark
vortex will extend knowledge of both the dark vortices themselves, as
well as the structure and dynamics of the surrounding atmosphere.
The team, led by Wong, also included the OPAL team (Wong, Amy Simon,
and Glenn Orton), UC Berkeley collaborators (Imke de Pater, Joshua
Tollefson, and Katherine de Kleer), Heidi Hammel (AURA), Statia
Luszcz-Cook (AMNH), Ricardo Hueso and Agustin Sánchez-Lavega
(Universidad del Pais Vasco), Marc Delcroix (Société Astronomique de
France), Larry Sromovsky and Patrick Fry (University of Wisconsin), and
Christoph Baranec (University of Hawaii).
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