Featured Posts
Centauri Dreams
16 Aug 2019, 18:57 UTC
The faint glow of a directly imaged planet will one day have much to tell us, once we’ve acquired equipment like the next generation of extremely large telescopes (ELTs), with their apertures measuring in the tens of meters. Discovering the makeup of planetary atmospheres is an obvious deep dive for biosignatures, but there is another. Biofluorescence, a kind of reflective glow from life under stress, could be detectable in some conditions at astronomical distances.
Looking for Life Under Flaring Skies
16 Aug 2019, 18:57 UTC
The faint glow of a directly imaged planet will one day have much to tell us, once we’ve acquired equipment like the next generation of extremely large telescopes (ELTs), with their apertures measuring in the tens of meters. Discovering the makeup of planetary atmospheres is an obvious deep dive for biosignatures, but there is another. Biofluorescence, a kind of reflective glow from life under stress, could be detectable in some conditions at astronomical distances.
Parker Solar Probe Mission Blog
16 Aug 2019, 17:00 UTC
After Parker Solar Probe’s successful first year in space, the mission team has decided to extend science observations as the spacecraft approaches its third solar encounter.
Parker Solar Probe Gets Extra Observation Time
16 Aug 2019, 17:00 UTC
After Parker Solar Probe’s successful first year in space, the mission team has decided to extend science observations as the spacecraft approaches its third solar encounter.
Starts With a Bang!
16 Aug 2019, 14:01 UTC
For many years, astronomers have looked forward to a coming revolution in ground-based astronomy: going from the current generation of 8-to-10 meter telescopes to the next generation of 30-meter class telescopes. Approximately a decade ago, a variety of partnerships selected their preferred sites, instruments to build, and facilities to construct. Now, in 2019, two of them are right on track, while one — the Thirty Meter Telescope (TMT) in Hawaii — is years behind. The overwhelming majority of astronomers recognize that the preferred site for TMT, atop Hawaii’s Mauna Kea, would be the technically superior location to build it. But doing so would ignore the objections of many citizens whose concerns and values have been marginalized for over a century. As astronomers prepare for a field-defining choice, here’s what everyone should know.
Astronomy Faces A Field-Defining Choice In Choosing The Next Steps For The TMT
16 Aug 2019, 14:01 UTC
For many years, astronomers have looked forward to a coming revolution in ground-based astronomy: going from the current generation of 8-to-10 meter telescopes to the next generation of 30-meter class telescopes. Approximately a decade ago, a variety of partnerships selected their preferred sites, instruments to build, and facilities to construct. Now, in 2019, two of them are right on track, while one — the Thirty Meter Telescope (TMT) in Hawaii — is years behind. The overwhelming majority of astronomers recognize that the preferred site for TMT, atop Hawaii’s Mauna Kea, would be the technically superior location to build it. But doing so would ignore the objections of many citizens whose concerns and values have been marginalized for over a century. As astronomers prepare for a field-defining choice, here’s what everyone should know.
Scientific American
15 Aug 2019, 18:00 UTC
Canadian telescope finds eight more repeating blasts—energetic events from deep in the cosmos
Astronomers Closer to Cracking Mystery of Fast Radio Bursts
15 Aug 2019, 18:00 UTC
Canadian telescope finds eight more repeating blasts—energetic events from deep in the cosmos
Centauri Dreams
15 Aug 2019, 17:22 UTC
So much rides on the successful launch and deployment of the James Webb Space Telescope that I never want to take its capabilities for granted. But assuming that we do see JWST safely orbiting the L2 Lagrange point, the massive instrument will stay in alignment with Earth as it moves around the Sun. allowing its sunshield to protect it from sunlight and solar heating.
Modeling Early JWST Work on TRAPPIST-1
15 Aug 2019, 17:22 UTC
So much rides on the successful launch and deployment of the James Webb Space Telescope that I never want to take its capabilities for granted. But assuming that we do see JWST safely orbiting the L2 Lagrange point, the massive instrument will stay in alignment with Earth as it moves around the Sun. allowing its sunshield to protect it from sunlight and solar heating.
Starts With a Bang!
15 Aug 2019, 14:01 UTC
Every year, the Earth completes an orbital revolution around the Sun, returning to the same relative position that it last occupied a year prior. On the night of August 12, 2019, the Perseid meteor shower will reach its peak, on practically the same date that it did the year prior, as the Earth makes its annual pass through the cometary debris stream that causes those spectacular light streaks across our skies. The Perseids are very special among meteor showers for a number of reasons: they’re fast, they’re bright, and they’re extremely reliable. Year after year, even when there’s a full Moon present, the Perseids often put on a show unsurpassed by any other shower. Yet they’re also a reminder of the impending doom that’s headed our way: our eventual collision with an orbit-crossing comet or asteroid. If the body that created the Perseids ever collides with Earth, it will be a worse catastrophe than the extinction of the dinosaurs. Here’s the story everyone should know.
The Perseid Meteor Shower Is Here, And Might Foretell Humanity’s Extinction
15 Aug 2019, 14:01 UTC
Every year, the Earth completes an orbital revolution around the Sun, returning to the same relative position that it last occupied a year prior. On the night of August 12, 2019, the Perseid meteor shower will reach its peak, on practically the same date that it did the year prior, as the Earth makes its annual pass through the cometary debris stream that causes those spectacular light streaks across our skies. The Perseids are very special among meteor showers for a number of reasons: they’re fast, they’re bright, and they’re extremely reliable. Year after year, even when there’s a full Moon present, the Perseids often put on a show unsurpassed by any other shower. Yet they’re also a reminder of the impending doom that’s headed our way: our eventual collision with an orbit-crossing comet or asteroid. If the body that created the Perseids ever collides with Earth, it will be a worse catastrophe than the extinction of the dinosaurs. Here’s the story everyone should know.
Universe Today
14 Aug 2019, 20:18 UTC
What, exactly, is the inside of a neutron star like? A neutron star is what remains after a massive star goes supernova. It’s a tightly-packed, ultra-dense body made of—you guessed it—neutrons. Actually, that’s not absolutely true.
Neutron Star Suffers a “Glitch”, Gives Astronomers a Glimpse Into How They Work
14 Aug 2019, 20:18 UTC
What, exactly, is the inside of a neutron star like? A neutron star is what remains after a massive star goes supernova. It’s a tightly-packed, ultra-dense body made of—you guessed it—neutrons. Actually, that’s not absolutely true.
New Scientist
14 Aug 2019, 15:00 UTC
Radioactive iron buried in Antarctic snow must have come to Earth from interstellar dust, according to a new study. This suggests that Antarctic snow and ice of different ages could be used to tell us about the patches of interstellar dust Earth has passed through, and so track its path across the Milky Way.
