cua cà mau cua tươi sống cua cà mau bao nhiêu 1kg giá cua hôm nay giá cua cà mau hôm nay cua thịt cà mau cua biển cua biển cà mau cách luộc cua cà mau cua gạch cua gạch cà mau vựa cua cà mau lẩu cua cà mau giá cua thịt cà mau hôm nay giá cua gạch cà mau giá cua gạch cách hấp cua cà mau cua cốm cà mau cua hấp mua cua cà mau cua ca mau ban cua ca mau cua cà mau giá rẻ cua biển tươi cuaganic cua cua thịt cà mau cua gạch cà mau cua cà mau gần đây hải sản cà mau cua gạch son cua đầy gạch giá rẻ các loại cua ở việt nam các loại cua biển ở việt nam cua ngon cua giá rẻ cua gia re crab farming crab farming cua cà mau cua cà mau cua tươi sống cua tươi sống cua cà mau bao nhiêu 1kg giá cua hôm nay giá cua cà mau hôm nay cua thịt cà mau cua biển cua biển cà mau cách luộc cua cà mau cua gạch cua gạch cà mau vựa cua cà mau lẩu cua cà mau giá cua thịt cà mau hôm nay giá cua gạch cà mau giá cua gạch cách hấp cua cà mau cua cốm cà mau cua hấp mua cua cà mau cua ca mau ban cua ca mau cua cà mau giá rẻ cua biển tươi cuaganic cua cua thịt cà mau cua gạch cà mau cua cà mau gần đây hải sản cà mau cua gạch son cua đầy gạch giá rẻ các loại cua ở việt nam các loại cua biển ở việt nam cua ngon cua giá rẻ cua gia re crab farming crab farming cua cà mau
Skip to main content

Clouds on Neptune might be created by the sun, strangely enough

As distant as it is, orbiting nearly 3 million miles from the sun, we know a surprising amount about the atmosphere and weather conditions on Neptune. Dramatic storms have been observed there including by the Voyager 2 spacecraft which passed by in the 1980s, which saw dark spots surrounded by white clouds of frozen methane. However, astronomers are now faced with a puzzle about these storms and why they seem to be appearing and disappearing over time.

Researchers recently used Hubble and other telescopes to observe Neptune’s clouds to investigate a mystery: why sometimes the planet had plentiful clouds in its atmosphere and at other times had barely any. In 2019, the level of clouds dropped dramatically and it wasn’t clear why.

Recommended Videos

“Even now, four years later, the most recent images we took this past June still show the clouds haven’t returned to their former levels,” said lead researcher Erandi Chavez of the Center for Astrophysics | Harvard-Smithsonian in a statement. “This is extremely exciting and unexpected, especially since Neptune’s previous period of low cloud activity was not nearly as dramatic and prolonged.”

This sequence of Hubble Space Telescope images chronicles the waxing and waning of the amount of cloud cover on Neptune. This long set of observations shows that the number of clouds grows increasingly following a peak in the solar cycle – where the Sun's level of activity rhythmically rises and falls over an 11-year period.
This sequence of Hubble Space Telescope images chronicles the waxing and waning of the amount of cloud cover on Neptune. This long set of observations shows that the number of clouds grows increasingly following a peak in the solar cycle – where the Sun’s level of activity rhythmically rises and falls over an 11-year period. NASA, ESA, Erandi Chavez (UC Berkeley), Imke de Pater (UC Berkeley)

The team found a link between the amounts of clouds and the solar cycle, which is an 11-year pattern of activity that the sun goes through. At certain times the number of sunspots and solar flares from the sun increases, which sends more ultraviolet (UV) radiation out into the solar system. This radiation seems to affect the clouds on Neptune, as the research shows that over 30 years of data more clouds are present two years after the peak of the solar cycle. The researchers think that this two-year lag is due to the chemical processes which begin in the planet’s atmosphere and need time to produce clouds.

“These remarkable data give us the strongest evidence yet that Neptune’s cloud cover correlates with the Sun’s cycle,” said senior researcher Imke de Pater. “Our findings support the theory that the Sun’s UV rays, when strong enough, may be triggering a photochemical reaction that produces Neptune’s clouds.”

The researchers want to continue tracking the planet’s cloud activity to understand how the sun affects the clouds, and whether the clouds will reappear from their current low levels.

“It’s fascinating to be able to use telescopes on Earth to study the climate of a world more than 2.5 billion miles away from us,” said fellow researcher Carlos Alvarez of the Keck Observatory. “Advances in technology and observations have enabled us to constrain Neptune’s atmospheric models, which are key to understanding the correlation between the ice giant’s climate and the solar cycle.”

The research is published in the journal Icarus.

Georgina Torbet
Georgina has been the space writer at Digital Trends space writer for six years, covering human space exploration, planetary…
Neptune as you’ve never seen it before, imaged by Webb telescope
Neptune, captured by the James Webb Space Telescope.

The newly deployed James Webb Space Telescope has captured the clearest view of Neptune in decades.

The most powerful space telescope ever built, which launched at the end of 2021, used its infrared imaging capabilities to show the distant planet in a fresh light. Features include Neptune's prominent narrow rings and fainter dust bands, which NASA says have not been detected since 1989 when Voyager 2 passed close by.

Read more
Neptune’s temperatures are fluctuating, and no one knows why
Composite showing thermal images of Neptune taken between 2006 and 2020.

Something strange is happening on Neptune. Researchers have studied 17 years of data from the planet, collected using telescopes including the European Southern Observatory’s Very Large Telescope, NASA’s Spitzer Space Telescope, the Gemini South and North telescopes, the Subaru Telescope, and the Keck Telescope. And they've found surprising swings in the planet's temperatures which they can't explain.

This composite shows thermal images of Neptune taken between 2006 and 2020. The first three images (2006, 2009, 2018) were taken with the VISIR instrument on ESO’s Very Large Telescope while the 2020 image was captured by the COMICS instrument on the Subaru Telescope (VISIR wasn’t in operation in mid-late 2020 because of the pandemic). After the planet’s gradual cooling, the south pole appears to have become dramatically warmer in the past few years, as shown by a bright spot at the bottom of Neptune in the images from 2018 and 2020. ESO/M. Roman, NAOJ/Subaru/COMICS

Read more
Mystery of a strange, mirrored double galaxy solved using Hubble data
hubble mirrored galaxy stsci 01ffjer4zps9v9yfpbhrb7p5wj 1

When telescopes like Hubble peer out into the cosmos, they can sometimes sneak a view of very distant objects using a phenomenon called gravitational lensing. This is where a massive object like a galaxy passes between a distant object and Earth, and the gravity of this intermediate object warps spacetime and acts as a magnifying glass. This allows astronomers to glimpse objects which would otherwise be too faint and far away to be visible.

But sometimes these phenomena result in strange outcomes, like an oddity spotted by Hubble in 2013 which appeared to be two objects that were perfect mirror images of each other.

Read more