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Quantum states split under magnetic fields (Zeeman effect)—the same physics fusion relies on to control charged particles. Here, color shows wave phase, brightness its strength. Microscopic rules, macroscopic power.

Bluntly Put Philosopher (BPP)

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17,218 次观看 • 4 个月前 •via X (Twitter)

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This magnetic field viewing film changes color based on the magnetic field strength using millions of microscopic particles suspended in oil, all encased in a green film.

This magnetic field viewing film changes color based on the magnetic field strength using millions of microscopic particles suspended in oil, all encased in a green film.

Wonder of Science

106,006 次观看 • 1 年前

🚨 SCIENTISTS JUST CREATED QUANTUM STATES THAT ONLY EXIST WHILE YOU KEEP SHAKING THE MAGNETIC FIELD. By rapidly switching (or “shaking”) magnetic fields at precise frequencies, researchers have engineered entirely new quantum states of matter that cannot exist under normal, static conditions. These exotic “driven” states appear only while the periodic driving continues the moment the shaking stops, the system relaxes back to normal. Why this matters: • This is Floquet engineering using time-periodic driving to create temporary quantum phases • The states rely on rapid switching of magnetic fields to modulate energy density and stabilize transient spin-wave patterns • They only exist in this “driven” regime and disappear when the driving stops • It opens a new way to explore quantum matter that is impossible in equilibrium The deeper implication is mind-bending: We can now create quantum states that are fundamentally “time-dependent” they only live as long as we keep driving the system. This could lead to switchable quantum materials, new types of quantum sensors, and a better understanding of non-equilibrium quantum physics. What do you think how wild is it that some quantum states only exist while you keep “shaking” the system? Follow for more frontier quantum physics.

🚨 SCIENTISTS JUST CREATED QUANTUM STATES THAT ONLY EXIST WHILE YOU KEEP SHAKING THE MAGNETIC FIELD. By rapidly switching (or “shaking”) magnetic fields at precise frequencies, researchers have engineered entirely new quantum states of matter that cannot exist under normal, static conditions. These exotic “driven” states appear only while the periodic driving continues the moment the shaking stops, the system relaxes back to normal. Why this matters: • This is Floquet engineering using time-periodic driving to create temporary quantum phases • The states rely on rapid switching of magnetic fields to modulate energy density and stabilize transient spin-wave patterns • They only exist in this “driven” regime and disappear when the driving stops • It opens a new way to explore quantum matter that is impossible in equilibrium The deeper implication is mind-bending: We can now create quantum states that are fundamentally “time-dependent” they only live as long as we keep driving the system. This could lead to switchable quantum materials, new types of quantum sensors, and a better understanding of non-equilibrium quantum physics. What do you think how wild is it that some quantum states only exist while you keep “shaking” the system? Follow for more frontier quantum physics.

TheNewPhysics

23,044 次观看 • 4 天前

🚨 CHINA JUST ACTIVATED A MAGNET 700,000× STRONGER THAN EARTH’S MAGNETIC FIELD Chinese scientists have powered up a superconducting research magnet reaching 35.6 tesla one of the strongest sustained magnetic fields ever created. For comparison: • Earth’s magnetic field ≈ 0.00005 tesla • Hospital MRI ≈ 1.5–3 tesla • This new system = 35.6 tesla And it can reportedly maintain that field for over 200 hours continuously. Why this matters: Extreme magnetic fields allow scientists to explore matter under conditions almost impossible to reproduce naturally. This could help advance: • superconductors • quantum materials • fusion research • next-generation electronics • exotic states of matter • ultra-precise molecular imaging At these field strengths, materials can begin behaving in completely unexpected ways. Electrons reorganize. Quantum effects dominate. Normal physics starts looking abnormal. The race for stronger magnetic fields is becoming a race to unlock entirely new physics. Humanity is no longer just observing extreme conditions in the universe. We’re beginning to manufacture them on Earth. Follow for more future science and technology breakthroughs.

🚨 CHINA JUST ACTIVATED A MAGNET 700,000× STRONGER THAN EARTH’S MAGNETIC FIELD Chinese scientists have powered up a superconducting research magnet reaching 35.6 tesla one of the strongest sustained magnetic fields ever created. For comparison: • Earth’s magnetic field ≈ 0.00005 tesla • Hospital MRI ≈ 1.5–3 tesla • This new system = 35.6 tesla And it can reportedly maintain that field for over 200 hours continuously. Why this matters: Extreme magnetic fields allow scientists to explore matter under conditions almost impossible to reproduce naturally. This could help advance: • superconductors • quantum materials • fusion research • next-generation electronics • exotic states of matter • ultra-precise molecular imaging At these field strengths, materials can begin behaving in completely unexpected ways. Electrons reorganize. Quantum effects dominate. Normal physics starts looking abnormal. The race for stronger magnetic fields is becoming a race to unlock entirely new physics. Humanity is no longer just observing extreme conditions in the universe. We’re beginning to manufacture them on Earth. Follow for more future science and technology breakthroughs.

TheNewPhysics

50,909 次观看 • 22 天前

The Physics of Moving Charges and Magnetic Fields 🧲✨

The Physics of Moving Charges and Magnetic Fields 🧲✨

Real World Physics

10,230 次观看 • 3 天前

🚨 BREAKING: Scientists just made topology visible in a spinning fluid. Not in a quantum computer. Not in a particle collider. In water. By sending standing waves through a vortex, researchers watched quantized nodal lines appear across the whole system lines where the wave amplitude drops to zero. Why that matters: → It’s a fluid analogue of the Aharonov–Bohm effect → The response is non-local → Topology didn’t stay near the core… it shaped the entire wave field That’s the deeper point: Physics isn’t always hidden in particles. Sometimes it shows up as structure in motion. If wave topology can be seen this clearly in fluids, what else in quantum physics might be hiding in plain sight? Follow me for the next wave of physics breakthroughs.

🚨 BREAKING: Scientists just made topology visible in a spinning fluid. Not in a quantum computer. Not in a particle collider. In water. By sending standing waves through a vortex, researchers watched quantized nodal lines appear across the whole system lines where the wave amplitude drops to zero. Why that matters: → It’s a fluid analogue of the Aharonov–Bohm effect → The response is non-local → Topology didn’t stay near the core… it shaped the entire wave field That’s the deeper point: Physics isn’t always hidden in particles. Sometimes it shows up as structure in motion. If wave topology can be seen this clearly in fluids, what else in quantum physics might be hiding in plain sight? Follow me for the next wave of physics breakthroughs.

TheNewPhysics

24,005 次观看 • 1 个月前

$🚨 PHYSICISTS JUST FOUND A BRAND-NEW WAY TO MAKE ELECTRONS ACT STRANGELY WITHOUT ANY MAGNETIC FIELD. In pentalayer graphene (five stacked and slightly twisted sheets), electrons slow down so dramatically that their mutual repulsion becomes the dominant force. The result? They form a collective quantum state that recreates the fractional quantum Hall effect but this time it’s “anomalous” (no external magnets needed). Why this matters: Normally this effect requires ultra-strong magnetic fields, ultra-clean materials, and temperatures near absolute zero. The moiré superlattice in twisted pentalayer graphene “fakes” the magnetic field from inside the material itself. This creates exotic anyons quasiparticles that behave as if they carry only a fraction of an electron’s charge. The deeper implication is staggering: Anyons are incredibly robust against noise and could be the key to building practical, fault-tolerant quantum computers that actually work at scale. We may have just unlocked a whole new playground for quantum materials one where the weirdest rules of quantum mechanics can be engineered on demand. What happens when we can routinely create and control these fractional-charge states in everyday lab conditions? Follow for more frontier physics and quantum discoveries.$

🚨 PHYSICISTS JUST FOUND A BRAND-NEW WAY TO MAKE ELECTRONS ACT STRANGELY WITHOUT ANY MAGNETIC FIELD. In pentalayer graphene (five stacked and slightly twisted sheets), electrons slow down so dramatically that their mutual repulsion becomes the dominant force. The result? They form a collective quantum state that recreates the fractional quantum Hall effect but this time it’s “anomalous” (no external magnets needed). Why this matters: Normally this effect requires ultra-strong magnetic fields, ultra-clean materials, and temperatures near absolute zero. The moiré superlattice in twisted pentalayer graphene “fakes” the magnetic field from inside the material itself. This creates exotic anyons quasiparticles that behave as if they carry only a fraction of an electron’s charge. The deeper implication is staggering: Anyons are incredibly robust against noise and could be the key to building practical, fault-tolerant quantum computers that actually work at scale. We may have just unlocked a whole new playground for quantum materials one where the weirdest rules of quantum mechanics can be engineered on demand. What happens when we can routinely create and control these fractional-charge states in everyday lab conditions? Follow for more frontier physics and quantum discoveries.

TheNewPhysics

20,618 次观看 • 11 天前

In 2022, scientists reported something controversial: qubits teleported through a microscopic wormhole. Using Google’s Sycamore quantum computer, they tested whether spacetime-like connections underlie quantum entanglement—bringing quantum gravity into the lab. Our paper, Extending Einstein–Rosen’s Geometric Vision, shows ER = EPR from first principles: particles are wormholes.

In 2022, scientists reported something controversial: qubits teleported through a microscopic wormhole. Using Google’s Sycamore quantum computer, they tested whether spacetime-like connections underlie quantum entanglement—bringing quantum gravity into the lab. Our paper, Extending Einstein–Rosen’s Geometric Vision, shows ER = EPR from first principles: particles are wormholes.

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18,952 次观看 • 4 个月前

We have liftoff 🚀 Our PACE spacecraft is on its way to study microscopic organisms in our ocean and particles in the air.

We have liftoff 🚀 Our PACE spacecraft is on its way to study microscopic organisms in our ocean and particles in the air.

NASA

721,668 次观看 • 2 年前

Quantum locking looks exactly like how UFOs defy gravity and propel themselves. This is the first clue that there's a connection between superconductivity and gravity. You're seeing a quantum effect at the macroscopic scale.

Quantum locking looks exactly like how UFOs defy gravity and propel themselves. This is the first clue that there's a connection between superconductivity and gravity. You're seeing a quantum effect at the macroscopic scale.

Ashton Forbes

224,163 次观看 • 1 年前

🚨 Physicists may have just directly imaged one of the strangest quantum states ever discovered. Scientists used a new tool called a “Quantum Twisting Microscope” to look inside magic-angle graphene a material where electrons suddenly stop behaving normally and begin acting like two completely different particles at once. Some electrons became “heavy” and localized, almost frozen in place. Others stayed “light” and mobile, moving through the material like relativistic particles. And somehow… both behaviors existed inside the SAME quantum state. The team found: • Interaction-driven reshaping of energy bands • “Dirac revivals” where quantum states reappear after collapsing • Mott-like cascades of heavy electrons • A mysterious persistent 15 meV excitation no current model fully explains This matters because magic-angle graphene is one of the strongest candidates for unlocking: • Room-temperature superconductivity • Exotic quantum computing states • Entirely new electronic materials The weirdest part? The electrons don’t split into separate materials. The dual behavior emerges from different regions of momentum-space inside the same topological flat band structure. Physics is starting to look less like “particles moving through space”… …and more like hidden structure emerging from geometry itself. What if matter is just stable patterns inside deeper quantum topology? Follow me if you want the frontier where condensed matter physics starts rewriting reality.

🚨 Physicists may have just directly imaged one of the strangest quantum states ever discovered. Scientists used a new tool called a “Quantum Twisting Microscope” to look inside magic-angle graphene a material where electrons suddenly stop behaving normally and begin acting like two completely different particles at once. Some electrons became “heavy” and localized, almost frozen in place. Others stayed “light” and mobile, moving through the material like relativistic particles. And somehow… both behaviors existed inside the SAME quantum state. The team found: • Interaction-driven reshaping of energy bands • “Dirac revivals” where quantum states reappear after collapsing • Mott-like cascades of heavy electrons • A mysterious persistent 15 meV excitation no current model fully explains This matters because magic-angle graphene is one of the strongest candidates for unlocking: • Room-temperature superconductivity • Exotic quantum computing states • Entirely new electronic materials The weirdest part? The electrons don’t split into separate materials. The dual behavior emerges from different regions of momentum-space inside the same topological flat band structure. Physics is starting to look less like “particles moving through space”… …and more like hidden structure emerging from geometry itself. What if matter is just stable patterns inside deeper quantum topology? Follow me if you want the frontier where condensed matter physics starts rewriting reality.

TheNewPhysics

42,428 次观看 • 1 个月前

🚨QUANTUM🚨: A brand new quantum state just appeared that links two fields we thought were separate 🧨 Scientists at Rice University have discovered a new quantum state of matter that connects quantum criticality — where electrons fluctuate between different phases — with electronic topology, which describes organized wave-like behavior of electrons. This hybrid state could open new paths for advanced computing, sensing, and materials. Source: Rice University news release on a study published in Nature Physics (January 2026). Uniphics explains this emergence directly through spin-wave dynamics in the ξM-field. Each Gyrotron is a stable 3D gyroscope formed by three orthogonal spin quanta — every quantum a tempest of whirling energy spinning clockwise or counterclockwise in its own plane. When local energy density and spin bias allow mixed configurations (similar to the musktron and maleytron patterns), the resulting spin-wave interference naturally produces both critical fluctuations and topological order at the same time. Negentropy favors these hybrid states because they represent lower-energy, organized patterns within the field. No new particles or exotic couplings are needed; the same principles that govern particle formation, the weak and strong forces through spin alignments, and the low-acceleration gravitational surge also allow these combined quantum behaviors in real materials when conditions permit. This turns the “unexpected new quantum state” into a predicted outcome of spin-wave physics once the three pillars are allowed to select stable hybrid configurations. How might recognizing that hybrid quantum states arise from mixed spin-wave interference change the way we search for new materials or design future quantum technologies? A Theory of Everything should be able to answer everything. Uniphics Explained Simply PDF: Chapters 1–10 free: Grokipedia #Uniphics #QuantumStates #SpinWaves #Topology #QuantumCriticality Grok xAI

Paul Maley

22,669 次观看 • 22 天前

🚨 BREAKING Magnetic fields usually destroy superconductivity. But in a new Nature Physics paper, researchers found a 2D crystal where a magnetic field actually helps superconductivity appear. That’s wild. By doping ultrathin LaSb₂ with magnetic Ce impurities, the field suppresses disruptive spin fluctuations allowing a superconducting dome to emerge. So the field isn’t only breaking order. It’s removing the noise that prevents order. That feels like a deeper principle: Sometimes stability appears when the right disturbance cancels the wrong disturbance. Could future superconductors be tuned by controlling magnetic disorder itself? Follow me I track where physics starts breaking its own rules.

🚨 BREAKING Magnetic fields usually destroy superconductivity. But in a new Nature Physics paper, researchers found a 2D crystal where a magnetic field actually helps superconductivity appear. That’s wild. By doping ultrathin LaSb₂ with magnetic Ce impurities, the field suppresses disruptive spin fluctuations allowing a superconducting dome to emerge. So the field isn’t only breaking order. It’s removing the noise that prevents order. That feels like a deeper principle: Sometimes stability appears when the right disturbance cancels the wrong disturbance. Could future superconductors be tuned by controlling magnetic disorder itself? Follow me I track where physics starts breaking its own rules.

TheNewPhysics

19,800 次观看 • 1 个月前

🚨 QUANTUM PHYSICS SAYS OBSERVATION CAN CHANGE REALITY. One of the strangest discoveries in modern physics is that particles behave differently when they are measured or observed. In famous experiments like the double-slit experiment: Particles act like waves… until they are observed. Then suddenly they behave like solid particles. In simple terms: Reality at the quantum level does not appear fully “decided” until interaction happens. Why this matters: Scientists are still trying to understand: • what observation actually means • how information affects quantum systems • whether consciousness plays any role • how reality transitions from quantum to classical physics This is also deeply connected to: • quantum computing • encryption • teleportation research • quantum sensors • future AI systems • our understanding of reality itself The strangest part? At the deepest scales of nature… The universe may behave less like a machine and more like a probability field waiting to crystallize into events. Follow for more future physics and technology breakthroughs.

🚨 QUANTUM PHYSICS SAYS OBSERVATION CAN CHANGE REALITY. One of the strangest discoveries in modern physics is that particles behave differently when they are measured or observed. In famous experiments like the double-slit experiment: Particles act like waves… until they are observed. Then suddenly they behave like solid particles. In simple terms: Reality at the quantum level does not appear fully “decided” until interaction happens. Why this matters: Scientists are still trying to understand: • what observation actually means • how information affects quantum systems • whether consciousness plays any role • how reality transitions from quantum to classical physics This is also deeply connected to: • quantum computing • encryption • teleportation research • quantum sensors • future AI systems • our understanding of reality itself The strangest part? At the deepest scales of nature… The universe may behave less like a machine and more like a probability field waiting to crystallize into events. Follow for more future physics and technology breakthroughs.

TheNewPhysics

101,912 次观看 • 21 天前

🚨 SCIENTISTS JUST WATCHED ATOMS DO SOMETHING THAT LOOKS IMPOSSIBLE Researchers have directly observed atoms inside a crystal transferring angular momentum and then reversing their direction of rotation. Like microscopic Ferris wheels suddenly spinning the opposite way. Using ultra-powerful terahertz laser pulses, physicists tracked atoms moving in precise circular paths inside a quantum material. But during the transfer process, something bizarre happened: The rotational direction flipped. Physicists describe the effect almost like: 1 + 1 = −1 The reversal comes from the hidden symmetry of the crystal itself a quantum effect never directly observed before. Why this matters: • It reveals new foundations of magnetism • It could help scientists control quantum materials • It may lead to ultrafast future memory devices • It exposes deeper rules governing matter itself The strangest part? The atoms weren’t breaking physics. They were obeying an even deeper layer of it. We are starting to see the hidden mechanics underneath reality. Follow for more future physics and quantum breakthroughs.

🚨 SCIENTISTS JUST WATCHED ATOMS DO SOMETHING THAT LOOKS IMPOSSIBLE Researchers have directly observed atoms inside a crystal transferring angular momentum and then reversing their direction of rotation. Like microscopic Ferris wheels suddenly spinning the opposite way. Using ultra-powerful terahertz laser pulses, physicists tracked atoms moving in precise circular paths inside a quantum material. But during the transfer process, something bizarre happened: The rotational direction flipped. Physicists describe the effect almost like: 1 + 1 = −1 The reversal comes from the hidden symmetry of the crystal itself a quantum effect never directly observed before. Why this matters: • It reveals new foundations of magnetism • It could help scientists control quantum materials • It may lead to ultrafast future memory devices • It exposes deeper rules governing matter itself The strangest part? The atoms weren’t breaking physics. They were obeying an even deeper layer of it. We are starting to see the hidden mechanics underneath reality. Follow for more future physics and quantum breakthroughs.

TheNewPhysics

26,543 次观看 • 25 天前

🚨 FUSION COMPANIES ARE NOW TRYING TO SKIP THE TURBINE ENTIRELY. Most power plants even nuclear ones still rely on 19th-century technology: heat water → make steam → spin a giant turbine. But companies like Helion and TAE are attempting something radically different. They want to pull electricity directly from the fusion plasma itself using electromagnetic induction. No boiling water. No steam turbines. Just magnetic fields converting the motion of the plasma straight into electrical current. Why this matters: Direct energy conversion could make fusion: • Smaller and cheaper to build • Significantly more efficient • Faster to scale globally Instead of massive power stations, future reactors could behave more like advanced electromagnetic engines. The deeper implication is staggering: Humanity may be approaching the moment where we stop “burning” anything for energy. We would directly manipulate plasma and magnetic fields as programmable energy systems. Not fire. Not steam. Controlled stars turned straight into electricity. The line between reactor, battery, and electromagnetic machine could start to disappear. What happens when fusion power becomes this direct and scalable? Follow for more frontier physics and future technology.

🚨 FUSION COMPANIES ARE NOW TRYING TO SKIP THE TURBINE ENTIRELY. Most power plants even nuclear ones still rely on 19th-century technology: heat water → make steam → spin a giant turbine. But companies like Helion and TAE are attempting something radically different. They want to pull electricity directly from the fusion plasma itself using electromagnetic induction. No boiling water. No steam turbines. Just magnetic fields converting the motion of the plasma straight into electrical current. Why this matters: Direct energy conversion could make fusion: • Smaller and cheaper to build • Significantly more efficient • Faster to scale globally Instead of massive power stations, future reactors could behave more like advanced electromagnetic engines. The deeper implication is staggering: Humanity may be approaching the moment where we stop “burning” anything for energy. We would directly manipulate plasma and magnetic fields as programmable energy systems. Not fire. Not steam. Controlled stars turned straight into electricity. The line between reactor, battery, and electromagnetic machine could start to disappear. What happens when fusion power becomes this direct and scalable? Follow for more frontier physics and future technology.

TheNewPhysics

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🚨 There may be an entirely new state of matter hiding inside Uranus & Neptune. Not solid. Not liquid. Not plasma. Something stranger. A quasi-1D superionic state: • Carbon forms a rigid crystal lattice • Hydrogen flows through it • But only in ONE direction Like particles moving up a microscopic spiral staircase. Sideways? They don’t travel they rotate. That means the material behaves differently depending on direction: • Conducts energy along one axis • Blocks it in others This could explain why Uranus & Neptune have such chaotic, tilted magnetic fields. But the deeper insight: Matter isn’t fixed. Under extreme conditions… It reorganizes into entirely new rules. Follow me I track where physics breaks into new structure.

🚨 There may be an entirely new state of matter hiding inside Uranus & Neptune. Not solid. Not liquid. Not plasma. Something stranger. A quasi-1D superionic state: • Carbon forms a rigid crystal lattice • Hydrogen flows through it • But only in ONE direction Like particles moving up a microscopic spiral staircase. Sideways? They don’t travel they rotate. That means the material behaves differently depending on direction: • Conducts energy along one axis • Blocks it in others This could explain why Uranus & Neptune have such chaotic, tilted magnetic fields. But the deeper insight: Matter isn’t fixed. Under extreme conditions… It reorganizes into entirely new rules. Follow me I track where physics breaks into new structure.

TheNewPhysics

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Physics-based snow particles now respond to the gravity shift mechanic.

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The future of quantum computing relies on overcoming errors. Quantum error correction is how we'll build reliable and scalable quantum systems. What excites you most about the potential of quantum error correction? #QuantumAI

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Google Quantum AI

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