Showing 13 to 24 of 77 results
Earliest Stages of Rocky Planet Formation Detected Around Young Star
Astronomers have discovered the earliest stages of rocky planet formation around the young star Hops-315, 1,370 light-years away, using the Webb Space Telescope and the European Southern Observatory, detecting silicon monoxide gas and crystalline silicate minerals condensing within its gas disk—a pr...
Earliest Stages of Rocky Planet Formation Detected Around Young Star
Astronomers have discovered the earliest stages of rocky planet formation around the young star Hops-315, 1,370 light-years away, using the Webb Space Telescope and the European Southern Observatory, detecting silicon monoxide gas and crystalline silicate minerals condensing within its gas disk—a pr...
Progress
20% Bias Score
Record-Breaking Black Hole Merger Challenges Existing Theories
The Laser Interferometer Gravitational-Wave Observatory (LIGO) detected GW231123, a record-breaking merger of two black holes, each exceeding 100 solar masses, challenging current theories of black hole formation and suggesting a possible new population of black holes formed through successive merge...
Record-Breaking Black Hole Merger Challenges Existing Theories
The Laser Interferometer Gravitational-Wave Observatory (LIGO) detected GW231123, a record-breaking merger of two black holes, each exceeding 100 solar masses, challenging current theories of black hole formation and suggesting a possible new population of black holes formed through successive merge...
Progress
28% Bias Score
Record-Breaking Black Hole Merger Challenges Existing Models
On November 23, 2023, US-based gravitational wave detectors observed the merger of two black holes, each over 100 times the sun's mass, 10 billion light-years away, creating a black hole of approximately 265 solar masses—the most massive ever recorded—forcing a re-evaluation of black hole formation ...
Record-Breaking Black Hole Merger Challenges Existing Models
On November 23, 2023, US-based gravitational wave detectors observed the merger of two black holes, each over 100 times the sun's mass, 10 billion light-years away, creating a black hole of approximately 265 solar masses—the most massive ever recorded—forcing a re-evaluation of black hole formation ...
Progress
20% Bias Score
New Model Predicts Universe's Collapse in 33 Billion Years
A new study suggests the universe will collapse in 33 billion years due to weakening dark energy, a finding supported by data from the Dark Energy Survey and Dark Energy Spectroscopic Instrument and contradicting previous theories of indefinite expansion.
New Model Predicts Universe's Collapse in 33 Billion Years
A new study suggests the universe will collapse in 33 billion years due to weakening dark energy, a finding supported by data from the Dark Energy Survey and Dark Energy Spectroscopic Instrument and contradicting previous theories of indefinite expansion.
Progress
40% Bias Score
James Webb Telescope Reveals Active Star Formation in Cat's Paw Nebula
New James Webb Space Telescope images reveal an active star-forming region within a 'toe bean' of the Cat's Paw Nebula, located 4,000 light-years from Earth near Scorpius, showing young stars emitting blue light and carving away at gas and dust, while red spots indicate ongoing formation; this tempo...
James Webb Telescope Reveals Active Star Formation in Cat's Paw Nebula
New James Webb Space Telescope images reveal an active star-forming region within a 'toe bean' of the Cat's Paw Nebula, located 4,000 light-years from Earth near Scorpius, showing young stars emitting blue light and carving away at gas and dust, while red spots indicate ongoing formation; this tempo...
Progress
20% Bias Score
First Photographic Evidence of Type Ia Supernova's Double Detonation
Astronomers using the European Southern Observatory's Very Large Telescope have obtained the first photographic evidence of a Type Ia supernova, a double-detonation event 160,000 light-years away in the Large Magellanic Cloud, revealing two concentric calcium shells expanding outwards, confirming th...
First Photographic Evidence of Type Ia Supernova's Double Detonation
Astronomers using the European Southern Observatory's Very Large Telescope have obtained the first photographic evidence of a Type Ia supernova, a double-detonation event 160,000 light-years away in the Large Magellanic Cloud, revealing two concentric calcium shells expanding outwards, confirming th...
Progress
32% Bias Score
Earliest Stages of Rocky Planet Formation Directly Observed
Astronomers using the Webb Space Telescope and the European Southern Observatory have, for the first time, directly observed the earliest stages of rocky planet formation around the young star HOPS-315, 1,370 light-years from Earth, detecting the condensation of silicon monoxide gas and crystalline ...
Earliest Stages of Rocky Planet Formation Directly Observed
Astronomers using the Webb Space Telescope and the European Southern Observatory have, for the first time, directly observed the earliest stages of rocky planet formation around the young star HOPS-315, 1,370 light-years from Earth, detecting the condensation of silicon monoxide gas and crystalline ...
Progress
20% Bias Score
Record-Breaking Black Hole Merger Challenges Existing Theories
The largest-ever recorded black hole merger, GW231123, involved two black holes exceeding 100 solar masses each, detected by LIGO and Virgo, challenging existing models of black hole formation and suggesting a previously unknown population of black holes.
Record-Breaking Black Hole Merger Challenges Existing Theories
The largest-ever recorded black hole merger, GW231123, involved two black holes exceeding 100 solar masses each, detected by LIGO and Virgo, challenging existing models of black hole formation and suggesting a previously unknown population of black holes.
Progress
24% Bias Score
Record-Breaking Black Hole Merger Challenges Existing Theories
Two rapidly spinning black holes, with a combined mass 225 times that of our sun, recently merged, forming an enormous black hole detected via gravitational waves (GW231123) from between 2 and 13 billion light-years away, challenging existing theories of black hole formation.
Record-Breaking Black Hole Merger Challenges Existing Theories
Two rapidly spinning black holes, with a combined mass 225 times that of our sun, recently merged, forming an enormous black hole detected via gravitational waves (GW231123) from between 2 and 13 billion light-years away, challenging existing theories of black hole formation.
Progress
36% Bias Score
Webb Telescope Reveals Star Formation in Cat's Paw Nebula
The James Webb Space Telescope's NIRCam captured a detailed image of a cluster of forming stars within a substructure of the Cat's Paw Nebula (NGC 6334) located 4,000 light-years away in Scorpius, revealing new insights into the star formation process.
Webb Telescope Reveals Star Formation in Cat's Paw Nebula
The James Webb Space Telescope's NIRCam captured a detailed image of a cluster of forming stars within a substructure of the Cat's Paw Nebula (NGC 6334) located 4,000 light-years away in Scorpius, revealing new insights into the star formation process.
Progress
28% Bias Score
Distant Fossil Galaxy Challenges Understanding of Galaxy Evolution
Astronomers have discovered KiDS J0842+0059, a fossil galaxy located 3 billion light-years away, offering a rare glimpse into the early universe and challenging current understanding of galaxy evolution; its discovery was announced in the May 31st edition of the Monthly Notices of the Royal Astronom...
Distant Fossil Galaxy Challenges Understanding of Galaxy Evolution
Astronomers have discovered KiDS J0842+0059, a fossil galaxy located 3 billion light-years away, offering a rare glimpse into the early universe and challenging current understanding of galaxy evolution; its discovery was announced in the May 31st edition of the Monthly Notices of the Royal Astronom...
Progress
24% Bias Score
Gold's Origin: Core-Collapse Supernovae
Core-collapse supernovae, resulting from the implosion of massive stars, produce gold within hours via shockwaves that synthesize heavy elements through photodisintegration and neutron formation.
Gold's Origin: Core-Collapse Supernovae
Core-collapse supernovae, resulting from the implosion of massive stars, produce gold within hours via shockwaves that synthesize heavy elements through photodisintegration and neutron formation.
Progress
36% Bias Score
Showing 13 to 24 of 77 results