Tag #Milky Way

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cbsnews.com

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Sep 26, 04:16

James Webb Telescope Reveals Milky Way's Star-Forming Secrets

NASA's James Webb Space Telescope captured unprecedented images of Sagittarius B2, a star-forming region near the Milky Way's center, revealing details about gas, dust, and star formation.

James Webb Telescope Reveals Milky Way's Star-Forming Secrets

NASA's James Webb Space Telescope captured unprecedented images of Sagittarius B2, a star-forming region near the Milky Way's center, revealing details about gas, dust, and star formation.

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What are the key findings from the James Webb Telescope's observation of Sagittarius B2?

The Webb telescope's infrared instruments produced images of Sagittarius B2 North, showcasing gas and dust in unprecedented detail. Stars appear as blue pinpoints through thick clouds in mid-infrared images, while near-infrared images reveal colorful stars illuminating gas and dust clouds. These observations will help determine the size and age of stars, advancing star formation research.

mk.ru

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Aug 23, 10:17

Interstellar Tunnels Discovered Extending from Solar System's Location

New research using the eROSITA X-ray telescope reveals two massive interstellar tunnels emanating from the Local Hot Bubble, our solar system's location, extending towards the Centaurus and Canis Major constellations, possibly part of a larger network shaped by stellar feedback.

Interstellar Tunnels Discovered Extending from Solar System's Location

New research using the eROSITA X-ray telescope reveals two massive interstellar tunnels emanating from the Local Hot Bubble, our solar system's location, extending towards the Centaurus and Canis Major constellations, possibly part of a larger network shaped by stellar feedback.

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How were these tunnels detected, and what is the role of supernova remnants in their formation?

The Local Hot Bubble, a region of hot, less dense plasma, is believed to be a supernova remnant formed 10-20 million years ago. The discovery of these tunnels provides further evidence of this origin, as they appear to be carved out by powerful stellar winds and supernova explosions. These events shape the structure of the Milky Way galaxy.

bbc.com

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Jul 11, 13:13

Seven-Billion-Year-Old Interstellar Comet Discovered

Astronomers have discovered 3I/Atlas, a potentially seven-billion-year-old interstellar comet from the Milky Way's thick disk, detected by the Atlas survey telescope in Chile on July 1st, 2025; its approach to the sun later this year may create a visible tail.

Seven-Billion-Year-Old Interstellar Comet Discovered

Astronomers have discovered 3I/Atlas, a potentially seven-billion-year-old interstellar comet from the Milky Way's thick disk, detected by the Atlas survey telescope in Chile on July 1st, 2025; its approach to the sun later this year may create a visible tail.

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How does the discovery of 3I/Atlas contribute to our knowledge of interstellar objects and their formation in different galactic regions?

3I/Atlas's trajectory and composition suggest it formed around an ancient star in the Milky Way's thick disk, a region of older stars. This discovery allows scientists to study the oldest parts of our galaxy and better understand its stellar populations.

cnnespanol.cnn.com

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Jun 3, 10:12

Milky Way-Andromeda Collision Probability Reduced to 50%

New research, using data from the Hubble and Gaia telescopes and accounting for gravitational influences from the LMC and M33, indicates a 50% probability of a Milky Way-Andromeda collision within 10 billion years, challenging previous predictions of a near-certain collision within 4-5 billion years...

Milky Way-Andromeda Collision Probability Reduced to 50%

New research, using data from the Hubble and Gaia telescopes and accounting for gravitational influences from the LMC and M33, indicates a 50% probability of a Milky Way-Andromeda collision within 10 billion years, challenging previous predictions of a near-certain collision within 4-5 billion years...

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How do the gravitational forces of the LMC and M33 influence the likelihood of a Milky Way-Andromeda collision?

The LMC's gravitational pull, perpendicular to Andromeda, alters the Milky Way's trajectory, decreasing the likelihood of a collision. Similarly, M33's gravity influences the Milky Way, but the LMC's effect is more significant in reducing the probability of a merger. These findings challenge previous predictions of an inevitable collision.

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Jun 2, 19:17

Revised Galaxy Collision Probability: Milky Way-Andromeda Merger Less Likely

New research, using advanced supercomputing and data from the Hubble and Gaia telescopes, indicates only a 2% chance of a Milky Way-Andromeda collision within 5 billion years, primarily due to the gravitational influence of the Large Magellanic Cloud; a Milky Way-Large Magellanic Cloud merger is nea...

Revised Galaxy Collision Probability: Milky Way-Andromeda Merger Less Likely

New research, using advanced supercomputing and data from the Hubble and Gaia telescopes, indicates only a 2% chance of a Milky Way-Andromeda collision within 5 billion years, primarily due to the gravitational influence of the Large Magellanic Cloud; a Milky Way-Large Magellanic Cloud merger is nea...

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What factors, previously unconsidered, did this study incorporate to reach its conclusions regarding the Milky Way's future, and how did these impact the results?

The study, conducted by an international team, utilized 100,000 simulations incorporating observational uncertainties and the Large Magellanic Cloud's effect on the Milky Way's trajectory. This resulted in a significant shift from earlier predictions of a certain collision within 5 billion years to a much lower probability.

cbsnews.com

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May 28, 22:13

Mysterious Celestial Object Emits Correlated X-rays and Radio Waves

An international team discovered a celestial object, ASKAP J1832−091, 15,000 light-years away in the Milky Way, emitting correlated X-rays and radio waves every 44 minutes during hyperactive phases lasting about a month, unlike any known Galactic object.

Mysterious Celestial Object Emits Correlated X-rays and Radio Waves

An international team discovered a celestial object, ASKAP J1832−091, 15,000 light-years away in the Milky Way, emitting correlated X-rays and radio waves every 44 minutes during hyperactive phases lasting about a month, unlike any known Galactic object.

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What future research directions could help clarify the nature of ASKAP J1832−091 and its implications for astrophysics?

This discovery challenges current astronomical understanding and opens possibilities for expanding our knowledge of celestial objects. Further research is crucial to determine if ASKAP J1832−091 represents a new class of objects or an unusual behavior of known celestial bodies. The observation's implications could reshape our understanding of stellar evolution, magnetic fields in extreme environments, and the diversity of objects within the Milky Way galaxy.

dailymail.co.uk

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Sep 3, 13:19

Runaway Pulsar Found Far From Galactic Plane

Astronomers have discovered a runaway pulsar, dubbed Calvera, 6,500 light-years above the Milky Way's plane, a region where such stars shouldn't form, challenging existing understanding of star formation.

Runaway Pulsar Found Far From Galactic Plane

Astronomers have discovered a runaway pulsar, dubbed Calvera, 6,500 light-years above the Milky Way's plane, a region where such stars shouldn't form, challenging existing understanding of star formation.

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What is the significance of finding a runaway pulsar, Calvera, so far from the galactic plane?

Calvera's discovery 6,500 light-years above the Milky Way's plane challenges the understanding of star formation, as massive stars forming pulsars typically originate within denser regions of gas and dust near the galactic plane. Its presence suggests the star traveled a significant distance before exploding.

forbes.com

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Jul 11, 13:13

Interstellar Comet 3I/ATLAS: Potentially Oldest Comet Ever Seen

The interstellar object 3I/ATLAS, potentially 7.6 to 14 billion years old, was detected in June 2024 and is believed to originate from the Milky Way's "thick disk." Its trajectory and composition could reveal insights into early galactic processes.

Interstellar Comet 3I/ATLAS: Potentially Oldest Comet Ever Seen

The interstellar object 3I/ATLAS, potentially 7.6 to 14 billion years old, was detected in June 2024 and is believed to originate from the Milky Way's "thick disk." Its trajectory and composition could reveal insights into early galactic processes.

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What is the significance of 3I/ATLAS's potential age and origin in relation to our understanding of solar system and galactic formation?

The interstellar object 3I/ATLAS, discovered in June 2024, is estimated to be 12 miles in diameter and follows an eccentric trajectory suggesting an origin outside our solar system. Scientists believe it could be the oldest comet ever observed, potentially 7.6 to 14 billion years old, significantly older than our 4.5-billion-year-old solar system.

dailymail.co.uk

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Jul 11, 01:15

Interstellar Object 3I/ATLAS Originated from Older Stars in Milky Way

Harvard physicist Avi Loeb and researcher Shokhruz Kakharov traced interstellar object 3I/ATLAS's path to a region of older stars in the Milky Way, estimating it to be over 4.6 billion years old and possibly a comet, unlike the younger 1I/Oumuamua and similarly aged 2I/Borisov.

Interstellar Object 3I/ATLAS Originated from Older Stars in Milky Way

Harvard physicist Avi Loeb and researcher Shokhruz Kakharov traced interstellar object 3I/ATLAS's path to a region of older stars in the Milky Way, estimating it to be over 4.6 billion years old and possibly a comet, unlike the younger 1I/Oumuamua and similarly aged 2I/Borisov.

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What is the origin and age of the interstellar object 3I/ATLAS, and what are the immediate implications of this discovery?

Harvard physicist Avi Loeb and his student Shokhruz Kakharov have traced the interstellar object 3I/ATLAS to a region of older stars in the Milky Way's disk. This 12-mile-wide object, traveling at 150,000 mph, is estimated to be older than our sun, showing signs of being a comet with a gas and dust cloud and tail.

forbes.com

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Jun 2, 19:17

Milky Way May Avoid Collision With Andromeda Galaxy

New research indicates a 50% chance the Milky Way and Andromeda galaxies will avoid collision within 10 billion years, challenging previous predictions due to the gravitational influence of dwarf galaxies orbiting the Milky Way, especially the Large Magellanic Cloud.

Milky Way May Avoid Collision With Andromeda Galaxy

New research indicates a 50% chance the Milky Way and Andromeda galaxies will avoid collision within 10 billion years, challenging previous predictions due to the gravitational influence of dwarf galaxies orbiting the Milky Way, especially the Large Magellanic Cloud.

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How does the inclusion of dwarf galaxies' gravitational influence, especially the LMC, affect the prediction of the Milky Way and Andromeda collision?

The study, published in Nature Astronomy, utilizes data from the Gaia mission and Hubble Space Telescope, along with revised mass estimates of surrounding galaxies. The gravitational pull of the LMC, previously unaccounted for, significantly alters the projected trajectory of the Milky Way, increasing the likelihood of avoiding a collision with Andromeda. This highlights the complexity of galactic interactions and the importance of considering all gravitational influences.

dailymail.co.uk

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Jun 2, 19:17

Milky Way-Andromeda Collision Probability Lowered by New Simulation

New research suggests a 50% chance of the Milky Way colliding with Andromeda within 10 billion years, lower than previous estimates, due to the Large Magellanic Cloud's gravitational influence; even if it occurs, Earth faces minimal direct risk.

Milky Way-Andromeda Collision Probability Lowered by New Simulation

New research suggests a 50% chance of the Milky Way colliding with Andromeda within 10 billion years, lower than previous estimates, due to the Large Magellanic Cloud's gravitational influence; even if it occurs, Earth faces minimal direct risk.

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What is the probability of the Milky Way colliding with the Andromeda galaxy, and what are the immediate implications of this event?

Scientists have calculated a 50% chance of the Milky Way colliding with the Andromeda galaxy within the next 10 billion years, a probability lower than previously believed. This collision, if it occurs, would be devastating but is less likely to occur within the next 5 billion years.

jpost.com

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Apr 13, 10:08

Planet's Death Plunge into Star: Webb Telescope Reveals New Details

New James Webb Space Telescope observations reveal a planet's demise 12,000 light-years away in the Aquila constellation, caused by a death plunge into its star due to orbital decay, contradicting earlier theories. The event ejected hot gas and dust, observable by Webb.

Planet's Death Plunge into Star: Webb Telescope Reveals New Details

New James Webb Space Telescope observations reveal a planet's demise 12,000 light-years away in the Aquila constellation, caused by a death plunge into its star due to orbital decay, contradicting earlier theories. The event ejected hot gas and dust, observable by Webb.

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How did the planet's orbital decay contribute to its ultimate fate, and what specific evidence supports this new theory?

The event involved a hot Jupiter-type planet, likely several times Jupiter's mass, whose orbit decayed due to gravitational interaction with its star. This led to the planet's plunge into the star, causing a significant stellar disturbance observable by Webb.

Showing 1 to 12 of 19 results