A rare gravitationally lensed supernova could help astronomers determine how fast the universe is expanding and shed light on dark energy. Astronomers may be closer to understanding one of the greatest mysteries in cosmology: dark energy, the unknown force thought to be driving the accelerating e
Category: cosmology
The Complete Guide to Interstellar Travel: Wormholes, Antimatter Propulsion, and the “Rejuvenating” Speed of Light
Learn how the “rejuvenating” speed of light, antimatter propulsion, and wormholes could help speed up the vast distances of space during interstellar travel.
Largest ever radio sky survey maps the universe in unprecedented detail
An international collaboration using the Low Frequency Array (LOFAR) has published an exceptionally detailed radio sky map, revealing 13.7 million cosmic sources and delivering the most complete census yet of actively growing supermassive black holes. It showcases an extraordinary variety of systems powered by these black holes, whose radio emission can extend for millions of light-years.
The newly released LOFAR Two-meter Sky Survey (LoTSS-DR3) marks a major milestone in radio astronomy and international scientific collaboration. The results will be published in Astronomy & Astrophysics.
By observing the sky at low radio frequencies, the survey reveals a dramatically different view of the universe than that seen at optical wavelengths. Much of the detected emission arises from relativistic particles moving through magnetic fields, allowing astronomers to trace energetic phenomena such as powerful jets from supermassive black holes and galaxies undergoing extreme star formation across cosmic time.
Quantum entanglement offers route to higher-resolution optical astronomy
Researchers in the US have demonstrated how quantum entanglement could be used to detect optical signals from astronomical sources at the single-photon level. Published in Nature, a team led by Pieter-Jan Stas at Harvard University showed how extremely weak light signals could be detected across a fiber link spanning more than 1.5 km—possibly paving the way for optical telescopes with unprecedented resolution.
Interferometry is often used in astronomy to produce high-resolution images of distant objects. By combining light collected across networks of spatially separated detectors, the technique can achieve resolutions comparable to those of a single telescope with a diameter equivalent to the distance between them. In continent-spanning networks like the Event Horizon Telescope, it was used to create the first direct image of a black hole (Messier 87) in 2019.
Multi-wavelength observations track bright gamma-ray blazar’s three-year cycle
By analyzing the data from various space observatories and ground-based telescopes, European astronomers have performed a multiwavelength study of a bright gamma-ray blazar known as S5 1044+71. The new study, published Feb. 26 on the arXiv pre-print server, delivers a comprehensive view of this blazar, which could help us better understand its nature.
Blazars are very compact quasi-stellar objects (quasars) associated with supermassive black holes (SMBHs) at the centers of active, giant elliptical galaxies. They are the most luminous and extreme subclass of active galactic nuclei (AGNs). The characteristic features of blazars are highly collimated relativistic jets pointed almost exactly toward Earth.
Astronomers divide blazars into two classes, based on their optical emission properties: flat-spectrum radio quasars (FSRQs) that feature prominent and broad optical emission lines, and BL Lacertae objects (BL Lacs), which do not.
We Might Be Wrong About the Big Bang
Astrophysicist Katy Clough uses supercomputers to simulate conditions at the start of the universe and other strong gravity regimes, such as around black holes, testing the limits of general relativity and the standard model of particle physics. Known as numerical relativity, these models are \.
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Let’s unravel what happens when AI merges with quantum, and starts knowing EVERYTHING ♾️ Go to to get 83% off from our sponsor Private Internet Access with 4 months free!
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Experts featured in this video include Demis Hassabis, Tristan Harris, Aza Raskin, Elon Musk, David Deutsch, Michio Kaku, Brian Greene and Nick Bostrom.
Chapter:
0:00 A dangerous truth?
1:29 AI advancement.
3:46 AI pretending not to know.
7:29 Interactive tutoring.
9:37 That’s it from our sponsor!
10:21 The merging of QC and AI
12:03 IBM 100,000 qubits.
14:34 AI wipes out humanity?
16:05 Google Willow.
17:06 The misuse of AI and QC
18:22 Singularity and Turing test.
22:51 Reverse Turing test.
29:39 Quantum-AI consequences.
32:25 The double slit experiment.
36:15 Quantum multiverse.
41:05 Computing history.
46:49 AGI timeline.
51:45 Philosophical consequence.
#AI #quantumcomputing #singularity
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What Happens When Quantum-AI Knows TOO MUCH?
Let’s unravel what happens when AI merges with quantum, and starts knowing EVERYTHING ♾️ Go to https://piavpn.com/beeyondideas to get 83% off from our sponsor Private Internet Access with 4 months free!
Want to support our production? Feel free to join our membership at https://youtu.be/_Z4W6sWDo_4?si=Q8eRZoNFUv7sAd9y Special thanks to our beloved YouTube members this month: Powlin Manuel, Saïd Kadi, Chenxi, Lord, Sudhir Paranjape, Nate Lachae, Alison Rewell, Thomas Lapins, Ahmad Salahudin, Antonio Ferriol Colombram, Anton Nicolas Burger 🚀🚀🚀 Experts featured in this video include Demis Hassabis, Tristan Harris, Aza Raskin, Elon Musk, David Deutsch, Michio Kaku, Brian Greene and Nick Bostrom. Chapter: 0:00 A dangerous truth? 1:29 AI advancement 3:46 AI pretending not to know 7:29 Interactive tutoring 9:37 That’s it from our sponsor! 10:21 The merging of QC and AI 12:03 IBM 100,000 qubits 14:34 AI wipes out humanity? 16:05 Google Willow 17:06 The misuse of AI and QC 18:22 Singularity and Turing test 22:51 Reverse Turing test 29:39 Quantum-AI consequences 32:25 The double slit experiment 36:15 Quantum multiverse 41:05 Computing history 46:49 AGI timeline 51:45 Philosophical consequence #AI #quantumcomputing #singularity.
Special thanks to our beloved YouTube members this month: Powlin Manuel, Saïd Kadi, Chenxi, Lord, Sudhir Paranjape, Nate Lachae, Alison Rewell, Thomas Lapins, Ahmad Salahudin, Antonio Ferriol Colombram, Anton Nicolas Burger 🚀🚀🚀
Experts featured in this video include Demis Hassabis, Tristan Harris, Aza Raskin, Elon Musk, David Deutsch, Michio Kaku, Brian Greene and Nick Bostrom.
Chapter:
0:00 A dangerous truth?
1:29 AI advancement.
3:46 AI pretending not to know.
7:29 Interactive tutoring.
9:37 That’s it from our sponsor!
10:21 The merging of QC and AI
12:03 IBM 100,000 qubits.
14:34 AI wipes out humanity?
16:05 Google Willow.
17:06 The misuse of AI and QC
18:22 Singularity and Turing test.
22:51 Reverse Turing test.
29:39 Quantum-AI consequences.
32:25 The double slit experiment.
36:15 Quantum multiverse.
41:05 Computing history.
46:49 AGI timeline.
51:45 Philosophical consequence.
#AI #quantumcomputing #singularity
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What if void creates matter? this is no longer a philosophical question but an experimental reality. A landmark study published in Nature by the STAR collaboration at the Relativistic Heavy Ion Collider of Brookhaven National Laboratory has, for the first time in history, directly observed virtual particles emerging from the quantum vacuum and becoming real matter. By colliding protons at 99% of the speed of light, scientists excited the quantum vacuum and tracked the precise moment transient quark-antiquark pairs materialized into measurable physical entities.
The experiment revealed something even more profound: particle pairs born from the void carry a measurable spin alignment, a direct signature of quantum entanglement inherited from the vacuum’s chiral condensate. This correlation had no other conceivable explanation than the particles having truly emerged from nothing. The implications extend far beyond particle physics: nearly 99% of the mass of everything that exists, including our own bodies, derives not from the Higgs mechanism, but from the incessant interaction between real quarks and the swarm of virtual particles that populate the quantum vacuum.
what if void creates matter reframes our understanding of reality at its deepest level. The boundary between being and non-being dissolves, revealing that “nothing” is an extraordinarily dense and generative condition. Quantum mechanics remains our most precise but still incomplete map of the universe, yet discoveries like this bring us closer to grasping a cosmos that, starting from the vacuum, generates the infinite.
#quantumvacuum #vacum #science #quantumphysics #entanglement #quantumentanglement #quantumgravity #gravity #generalrelativity #quantummechanics #quantumconsciousness #quantum #quantumweirdness #materialism #awareness #consciuosness #hardproblem #einstein #time #timeisanillusion #retrocausality #doubleslitexperiment #penrose #rogerpenrose #multiverse #manyworlds #paralleluniverse.
TIMESTAMPS
00:00 Introduction: What If Void Creates Matter.
01:16 Heisenberg’s Uncertainty Principle and Quantum Vacuum Fluctuations.
02:12 Virtual Particles and the Casimir Effect.
02:52 The STAR Collaboration Study Published in Nature.
03:27 The Brookhaven Experiment: Exciting the Quantum Vacuum.
04:16 Quantum Entanglement Born Directly from the Void.
05:03 Lambda Hyperons and the Proof of Materialization.
06:10 What It Means That Matter Emerges from Nothing.
06:22 What If Void Creates Matter: The True Origin of Mass.
07:33 Philosophical Implications: Reality, Time, and the Nature of Existence.
⚠️ This video is entirely written, edited, and produced by me in an original way. For practical reasons, I used a synthetic voice, but nothing is automated: every concept comes from my dedication, my research, and a profound passion for science.
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