SN 2022oqm: A Bright and Multi-peaked Calcium-rich Transient
Tue 07 May 11:30: TBD
Abstract not available
- Speaker: Tsevi Mazeh (Tel Aviv)
- Tuesday 07 May 2024, 11:30-12:30
- Venue: Hoyle Lecture Theatre + online.
- Series: Galaxies Discussion Group; organiser: Sandro Tacchella.
Probing the eccentricity in protostellar discs -- Modeling kinematics and morphologies
Inferring dark matter subhalo properties from simulated subhalo-stream encounters
Hubble Peers at Pair of Closely Interacting Galaxies
2 min read
Hubble Peers at Pair of Closely Interacting Galaxies This NASA/ESA Hubble Space Telescope image features Arp 72. ESA/Hubble & NASA, L. Galbany, J. Dalcanton, Dark Energy Survey/DOE/FNAL/DECam/CTIO/NOIRLab/NSF/AURAThis image from the NASA/ESA Hubble Space Telescope features Arp 72, a very selective galaxy group that only includes two galaxies interacting due to gravity: NGC 5996 (the large spiral galaxy) and NGC 5994 (its smaller companion, in the lower left of the image). Both galaxies lie approximately 160 million light-years from Earth, and their cores are separated from each other by a distance of about 67,000 light-years. The distance between the galaxies at their closest points is even smaller, closer to 40,000 light-years. While this might sound vast, in galactic separation terms it is really quite close. For comparison, the distance between the Milky Way and its nearest independent galactic neighbor Andromeda is around 2.5 million light-years. Alternatively, the distance between the Milky Way and its largest and brightest satellite galaxy, the Large Magellanic Cloud (satellite galaxies orbit around another galaxy), is about 162,000 light-years.
Given this and the fact that NGC 5996 is roughly comparable in size to the Milky Way, it is not surprising that NGC 5996 and NGC 5994 — separated by only about 40,000 light-years — are interacting with one another. In fact, the interaction likely distorted NGC 5996’s spiral shape. It also prompted the formation of the very long and faint tail of stars and gas curving away from NGC 5996, up to the top right of the image. This ‘tidal tail’ is a common phenomenon that appears when galaxies closely interact and is visible in other Hubble images of interacting galaxies.
Text credit: European Space Agency (ESA)
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Media Contact:
Claire Andreoli
NASA’s Goddard Space Flight Center, Greenbelt, MD
claire.andreoli@nasa.gov
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Smallest known starquakes are detected with a subtle shift of colour
Nature, Published online: 04 April 2024; doi:10.1038/d41586-024-00965-1
An unusual technique picks up the slow vibration of a faint star.I might be an astrophysicist, but I'm still learning about stargazing
There are hints that dark energy may be getting weaker
First ‘glory’ on hellish distant world?
In brief For the first time, a team of astronomers (including IoA astronomer Nic Walton) have spotted potential signs of a rainbow-like ‘glory effect’ on a planet outside our Solar System. Glory are colourful concentric rings of light that occur only under peculiar conditions. Data from ESA’s sensitive Characterising...
Fri 03 May 11:30: TBD (have to move to May 7?)
Abstract not available
- Speaker: Tsevi Mazeh (Tel Aviv)
- Friday 03 May 2024, 11:30-12:30
- Venue: Ryle seminar room + online.
- Series: Galaxies Discussion Group; organiser: Sandro Tacchella.
Fri 12 Apr 11:30: Chemo-dynamical evolution of disks over cosmic time
Abstract not available
- Speaker: Emily Wisnioski (ANU)
- Friday 12 April 2024, 11:30-12:30
- Venue: Ryle seminar room + online.
- Series: Galaxies Discussion Group; organiser: Sandro Tacchella.
Lensed Type Ia Supernova "Encore" at z=2: The First Instance of Two Multiply-Imaged Supernovae in the Same Host Galaxy
Physical properties of circumnuclear ionising clusters. III. Kinematics of gas and stars in NGC 7742
Total solar eclipse 2024: how it will help scientists to study the Sun
Nature, Published online: 03 April 2024; doi:10.1038/d41586-024-00973-1
The Sun’s mysterious outer atmosphere, the corona, will become easier to view from Earth on 8 April.Anomaly Detection and Approximate Similarity Searches of Transients in Real-time Data Streams
A Promising New Dark Matter Candidate, and Implications for the Search for Extraterrestrial Intelligence (SETI)
Fri 14 Jun 11:30: Title to be confirmed
Abstract not available
- Speaker: Georges Meynet (Geneva)
- Friday 14 June 2024, 11:30-12:30
- Venue: Ryle seminar room + online.
- Series: Galaxies Discussion Group; organiser: Sandro Tacchella.
Lensed Type Ia Supernova "Encore" at z=2: The First Instance of Two Multiply-Imaged Supernovae in the Same Host Galaxy
That Starry Night Sky? It’s Full of Eclipses
5 min read
That Starry Night Sky? It’s Full of Eclipses An artist’s concept shows the TRAPPIST-1 planets as they might be seen from Earth using an extremely powerful – and fictional – telescope. NASA/JPL-CaltechOur star, the Sun, on occasion joins forces with the Moon to offer us Earthlings a spectacular solar eclipse – like the one that will be visible to parts of the United States, Mexico, and Canada on April 8.
But out there, among the other stars, how often can we see similar eclipses? The answer depends on your point of view. Literally.
On Earth, a total solar eclipse occurs when the Moon blocks the Sun’s disk as seen from part of Earth’s surface. In this case, the “path of totality” will be a strip cutting across the country, from Texas to Maine.
We also can see “eclipses” involving Mercury and Venus, the two planets in our solar system that orbit the Sun more closely than Earth, as they pass between our telescopes and the Sun (though only by using telescopes with protective filters to avoid eye damage). In these rare events, the planets are tiny dots crossing the Sun’s much larger disk.
A composite of images of the Venus transit taken by NASA’s Solar Dynamics Observatory on June 5, 2012. The image shows a timelapse of Venus’ path across the Sun. NASA/Goddard/SDOAnd astronomers can, in a sense, “see” eclipses among other systems of planets orbiting their parent stars. In this case, the eclipse is a tiny drop in starlight as a planet, from our point of view, crosses the face of its star. That crossing, called a transit, can register on sensitive light sensors attached to telescopes on Earth and those in space, such as NASA’s Hubble Space Telescope, James Webb Space Telescope, or TESS (the Transiting Exoplanet Survey Satellite). It’s how the bulk of the more than 5,500 confirmed exoplanets – planets around other stars – have been detected so far, although other methods also are used to detect exoplanets.
“A solar eclipse is a huge transit,” said Allison Youngblood, the deputy project scientist for TESS at NASA’s Goddard Space Flight Center in Greenbelt, Maryland.
And both types of “transits” – whether they involve solar eclipses or exoplanets – can yield world-changing science. Solar eclipse observations in 1919 helped prove Einstein’s theory of general relativity, when the bending of a star’s light by the Sun’s gravity caused the star’s apparent position to shift – showing that gravity causes space and time to curve around it.
Exoplanet transits also provide far more than just detections of distant planets, Youngblood said.
“The planet passes in front of the star, and blocks a certain amount of the star’s light,” she said. “The dip [in starlight] tells us about the size of the planet. It gives us a measurement of the radius of the planet.”
Careful measurements of multiple transits also can reveal how long a year is on an exoplanet, and provide insights into its formation and history. Careful measurements of multiple transits also can provide insights into exoplanet formation and history.
And the starlight shining through the exoplanet’s atmosphere during its transit, if measured using an instrument called a spectrograph, can reveal deeper characteristics of the planet itself. The light is split into a rainbow-like spectrum, and slices missing from the spectrum can indicate gases in the planet’s atmosphere that absorbed that “color” – or wavelength.
“Measuring the planet at many wavelengths tells us what chemicals and what molecules are in that planet’s atmosphere,” Youngblood said.
Eclipses are such a handy way to capture information about distant worlds that scientists have learned how to create their own. Instead of waiting for eclipses to occur in nature, they can engineer them right inside their telescopes. Instruments called coronagraphs, first used on Earth to study the Sun’s outer atmosphere (the corona), are now carried aboard several space telescopes. And when NASA’s next flagship space telescope, the Nancy Grace Roman Space Telescope, launches by May 2027, it will demonstrate new coronagraph technologies that have never been flown in space before. Coronagraphs use a system of masks and filters to block the light from a central star, revealing the far fainter light of planets in orbit around it.
Of course, that isn’t quite as easy as it sounds. Whether searching for transits, or for direct images of exoplanets using a coronagraph, astronomers must contend with the overwhelming light from stars – an immense technological challenge.
“An Earth-like transit in front of stars is equivalent to a mosquito walking in front of a headlight,” said David Ciardi, chief scientist at the NASA Exoplanet Science Institute at Caltech. “That’s how little light is blocked.”
We don’t have this problem when viewing solar eclipses – “our very first coronagraphs,” Ciardi says. By pure happenstance, the Moon covers the Sun completely during an eclipse.
“A solar eclipse is like a human walking in front of a headlight,” he said.
We would have no such luck on other planets in our solar system.
Mars’ oddly shaped moons are too small to fully block the Sun during their transits; and while eclipses might be spectacular among the outer planets – for instance, Jupiter and its many moons – they wouldn’t match the total coverage of a solar eclipse.
We happen to be living at a fortunate time for eclipse viewing. Billions of years ago, the Moon was far closer to Earth, and would have appeared to dwarf the Sun during an eclipse. And in about 700 million years, the Moon will be so much farther away that it will no longer be able to make total solar eclipses.
“A solar eclipse is the pinnacle of being lucky,” Tripathi said. “The Moon’s size and distance allow it to completely block out the Sun’s light. We’re at this perfect time and place in the universe to be able to witness such a perfect phenomenon.”
A Long Year for a Cold Saturn
Share Details Last Updated Apr 02, 2024 Related Terms
- Earth-like Exoplanets
- Eclipses
- Exoplanets
- Gas Giant Exoplanets
- James Webb Space Telescope (JWST)
- TESS (Transiting Exoplanet Survey Satellite)
- The Universe