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🚨 BREAKING FIRST BTC ADDRESS JUST GOT CRACKED USING QUANTUM COMPUTING! A HACKER BROKE A 15-BIT ECC KEY USING PUBLICLY AVAILABLE QUANTUM HARDWARE. MEANWHILE, ~6.9 MILLION BTC ARE SITTING ON ADDRESSES WITH EXPOSED PUBLIC KEYS. IF 256-BIT ECC FALLS, THESE COULD BE THE FIRST TO GO. THIS IS EXTREMELY...

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Wimar.X

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904,133 views • 1 month ago •via X (Twitter)

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🚨BREAKING: GOOGLE WARNS 6.9M BITCOIN WILL BE VULNERABLE WHEN QUANTUM COMPUTERS BECOME POWERFUL ENOUGH A new Google Quantum AI whitepaper has identified approximately 6.9 million Bitcoin $BTC vulnerable to future quantum at-rest attacks. Around 1.7 million BTC sits in old Pay-to-Public-Key scripts, with public keys permanently exposed on the blockchain. This includes coins widely believed to belong to Bitcoin's pseudonymous creator Satoshi Nakamoto. No quantum computer powerful enough to exploit this exists today. But the paper warns that when one does, these dormant assets require no transaction to be broadcast — a future attacker could simply derive the private key silently from public data. The research team revealed that a superconducting quantum computer could derive a Bitcoin private key in approximately 9 minutes — just inside Bitcoin's average 10-minute block time. Google warns the coins represent a "fixed, multibillion-dollar target" if protocol changes are not made in time. The paper proposes governments consider legal frameworks for "digital salvage," treating dormant quantum-vulnerable coins similarly to unclaimed sunken treasure, to prevent them falling to rogue states or criminal actors first.
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🚨BREAKING: GOOGLE WARNS 6.9M BITCOIN WILL BE VULNERABLE WHEN QUANTUM COMPUTERS BECOME POWERFUL ENOUGH A new Google Quantum AI whitepaper has identified approximately 6.9 million Bitcoin $BTC vulnerable to future quantum at-rest attacks. Around 1.7 million BTC sits in old Pay-to-Public-Key scripts, with public keys permanently exposed on the blockchain. This includes coins widely believed to belong to Bitcoin's pseudonymous creator Satoshi Nakamoto. No quantum computer powerful enough to exploit this exists today. But the paper warns that when one does, these dormant assets require no transaction to be broadcast — a future attacker could simply derive the private key silently from public data. The research team revealed that a superconducting quantum computer could derive a Bitcoin private key in approximately 9 minutes — just inside Bitcoin's average 10-minute block time. Google warns the coins represent a "fixed, multibillion-dollar target" if protocol changes are not made in time. The paper proposes governments consider legal frameworks for "digital salvage," treating dormant quantum-vulnerable coins similarly to unclaimed sunken treasure, to prevent them falling to rogue states or criminal actors first.

BSCN

72,583 views • 2 months ago

DARPA researchers make #quantum computing breakthrough creating first-ever quantum circuit with logical quantum bits (qubits), a key discovery that could accelerate fault-tolerant quantum computing & revolutionize designs for quantum computer processors:
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DARPA researchers make #quantum computing breakthrough creating first-ever quantum circuit with logical quantum bits (qubits), a key discovery that could accelerate fault-tolerant quantum computing & revolutionize designs for quantum computer processors:

DARPA

262,813 views • 2 years ago

🚨 BREAKING 🇺🇸 TRUMP JUST DUMPED 2,650 $BTC WORTH OVER $200 MILLION. TRUMP MEDIA IS CURRENTLY SITTING ON $455 MILLION IN UNREALIZED LOSSES. THIS IS EXTREMELY BAD FOR THE CRYPTO MARKET...
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🚨 BREAKING 🇺🇸 TRUMP JUST DUMPED 2,650 $BTC WORTH OVER $200 MILLION. TRUMP MEDIA IS CURRENTLY SITTING ON $455 MILLION IN UNREALIZED LOSSES. THIS IS EXTREMELY BAD FOR THE CRYPTO MARKET...

Wimar.X

82,980 views • 23 days ago

🚨JUST IN: GOOGLE SETS 2029 DEADLINE AS QUANTUM THREAT LOOMS OVER BITCOIN Google has set a 2029 deadline for post-quantum cryptography migration, warning quantum risks are approaching faster than expected. The company says current encryption standards could eventually be broken. For Bitcoin $BTC, this raises long-term concerns around wallet security and private keys. While no immediate threat exists, “Q-Day” could expose vulnerable addresses.
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🚨JUST IN: GOOGLE SETS 2029 DEADLINE AS QUANTUM THREAT LOOMS OVER BITCOIN Google has set a 2029 deadline for post-quantum cryptography migration, warning quantum risks are approaching faster than expected. The company says current encryption standards could eventually be broken. For Bitcoin $BTC, this raises long-term concerns around wallet security and private keys. While no immediate threat exists, “Q-Day” could expose vulnerable addresses.

BSCN

43,970 views • 2 months ago

‼️ALERT: ETHEREUM'S TOP 1,000 WALLETS COULD BE DRAINED IN NINE DAYS WITHOUT A QUANTUM UPGRADE Google's quantum research team warns that a future fast-clock quantum computer could compromise Ethereum's 1,000 highest-value accounts in less than nine days. Those accounts collectively hold approximately 20.5 million $ETH. Bitcoin users can avoid exposing their public keys. Ethereum users cannot. The moment an Ethereum user sends their first transaction, their public key is permanently exposed on the blockchain, according to the report. It stays exposed indefinitely. The paper identifies five distinct quantum attack vectors on Ethereum. Among the most alarming is the threat to smart contract admin keys. Those keys control over $200 billion in stablecoins and tokenised real-world assets. Ethereum's Proof-of-Stake consensus mechanism also relies on quantum-vulnerable BLS signatures. A sufficiently advanced quantum attacker could use this to compromise the blockchain's finality itself. There is a silver lining. The Ethereum Foundation is already researching post-quantum alternatives. The paper suggests this gives Ethereum a potential advantage over Bitcoin in executing an orderly transition to quantum-safe cryptography.
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‼️ALERT: ETHEREUM'S TOP 1,000 WALLETS COULD BE DRAINED IN NINE DAYS WITHOUT A QUANTUM UPGRADE Google's quantum research team warns that a future fast-clock quantum computer could compromise Ethereum's 1,000 highest-value accounts in less than nine days. Those accounts collectively hold approximately 20.5 million $ETH. Bitcoin users can avoid exposing their public keys. Ethereum users cannot. The moment an Ethereum user sends their first transaction, their public key is permanently exposed on the blockchain, according to the report. It stays exposed indefinitely. The paper identifies five distinct quantum attack vectors on Ethereum. Among the most alarming is the threat to smart contract admin keys. Those keys control over $200 billion in stablecoins and tokenised real-world assets. Ethereum's Proof-of-Stake consensus mechanism also relies on quantum-vulnerable BLS signatures. A sufficiently advanced quantum attacker could use this to compromise the blockchain's finality itself. There is a silver lining. The Ethereum Foundation is already researching post-quantum alternatives. The paper suggests this gives Ethereum a potential advantage over Bitcoin in executing an orderly transition to quantum-safe cryptography.

BSCN

45,609 views • 2 months ago

The Next Megacycle in Computing is Quantum—and Dynex is playing a leading role! Today, we’re proud to announce the publication of our international patent (WO/2024/231907). This is a major step in advancing neuromorphic quantum computing. Dynex’s innovation shows method and system for large-scale computation of quantum algorithms using neuromorphic quantum computing. This milestone positions Dynex as a key player in the quantum era, empowering industries to solving real world problems at scale that will define this new megacycle of computing. 🔗 Learn more:
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The Next Megacycle in Computing is Quantum—and Dynex is playing a leading role! Today, we’re proud to announce the publication of our international patent (WO/2024/231907). This is a major step in advancing neuromorphic quantum computing. Dynex’s innovation shows method and system for large-scale computation of quantum algorithms using neuromorphic quantum computing. This milestone positions Dynex as a key player in the quantum era, empowering industries to solving real world problems at scale that will define this new megacycle of computing. 🔗 Learn more:

Dynex

12,928 views • 1 year ago

🚨 SCIENTISTS JUST TRAPPED A SINGLE ATOM ON A PHOTONIC CHIP AND IT COULD CHANGE QUANTUM COMPUTING FOREVER. Researchers at Quantum Source and the Weizmann Institute have successfully trapped a single rubidium atom just 150–200 nanometers from a photonic resonator on a chip. That’s close enough for the atom to directly interact with light flowing through the circuit. Why this matters: Quantum computing has always had two separate superpowers: • Neutral atoms → ultra-stable quantum states • Photonic chips → fast, scalable light-based circuits The problem? They’ve never played well together. Atoms are fragile near surfaces and photonic chips are tiny. Now they’ve cracked it with a new “single-stroke loading” technique: a carefully shaped optical field slows the atom down, catches it, and lets it communicate directly with photons inside the chip. The deeper implication is huge: This is the first real bridge between two of the most promising quantum platforms. It opens the door to: • chip-scale quantum networks • photonic quantum processors • ultra-secure quantum communication • quantum internet infrastructure • and scalable quantum systems built with semiconductor-style fabrication For the first time, a single atom isn’t just sitting near the chip it’s actively changing how photons behave inside the resonator. The two worlds of quantum computing are finally starting to merge. What happens when single atoms become programmable building blocks inside photonic processors? Follow for more frontier physics and future-tech discoveries.
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🚨 SCIENTISTS JUST TRAPPED A SINGLE ATOM ON A PHOTONIC CHIP AND IT COULD CHANGE QUANTUM COMPUTING FOREVER. Researchers at Quantum Source and the Weizmann Institute have successfully trapped a single rubidium atom just 150–200 nanometers from a photonic resonator on a chip. That’s close enough for the atom to directly interact with light flowing through the circuit. Why this matters: Quantum computing has always had two separate superpowers: • Neutral atoms → ultra-stable quantum states • Photonic chips → fast, scalable light-based circuits The problem? They’ve never played well together. Atoms are fragile near surfaces and photonic chips are tiny. Now they’ve cracked it with a new “single-stroke loading” technique: a carefully shaped optical field slows the atom down, catches it, and lets it communicate directly with photons inside the chip. The deeper implication is huge: This is the first real bridge between two of the most promising quantum platforms. It opens the door to: • chip-scale quantum networks • photonic quantum processors • ultra-secure quantum communication • quantum internet infrastructure • and scalable quantum systems built with semiconductor-style fabrication For the first time, a single atom isn’t just sitting near the chip it’s actively changing how photons behave inside the resonator. The two worlds of quantum computing are finally starting to merge. What happens when single atoms become programmable building blocks inside photonic processors? Follow for more frontier physics and future-tech discoveries.

TheNewPhysics

16,653 views • 17 days ago

🚨 QUANTUM BREAKTHROUGH: SCIENTISTS JUST SOLVED ONE OF PHYSICS’ BIGGEST UNSOLVED PROBLEMS. Researchers in Japan have successfully detected an elusive quantum entanglement pattern known as a “W state” something physicists have struggled to measure for decades. Why does this matter? Because W states are considered one of the key building blocks for: • quantum teleportation • ultra-secure communication • next-generation quantum internet • massively powerful quantum computers The breakthrough allows scientists to identify complex entangled photon states in a single measurement instead of using extremely slow quantum tomography. In simple terms: they found a faster way to “read” deeply entangled quantum systems. The team built a stable 3-photon optical quantum circuit capable of detecting these exotic states with high fidelity a major step toward scalable quantum networks and photonic quantum computing. This is the kind of breakthrough that moves quantum technology from fragile lab experiments… toward real-world infrastructure. The future internet may not send information through electrical signals alone. It may send reality itself through entanglement. Follow for more future physics and quantum breakthroughs.
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🚨 QUANTUM BREAKTHROUGH: SCIENTISTS JUST SOLVED ONE OF PHYSICS’ BIGGEST UNSOLVED PROBLEMS. Researchers in Japan have successfully detected an elusive quantum entanglement pattern known as a “W state” something physicists have struggled to measure for decades. Why does this matter? Because W states are considered one of the key building blocks for: • quantum teleportation • ultra-secure communication • next-generation quantum internet • massively powerful quantum computers The breakthrough allows scientists to identify complex entangled photon states in a single measurement instead of using extremely slow quantum tomography. In simple terms: they found a faster way to “read” deeply entangled quantum systems. The team built a stable 3-photon optical quantum circuit capable of detecting these exotic states with high fidelity a major step toward scalable quantum networks and photonic quantum computing. This is the kind of breakthrough that moves quantum technology from fragile lab experiments… toward real-world infrastructure. The future internet may not send information through electrical signals alone. It may send reality itself through entanglement. Follow for more future physics and quantum breakthroughs.

TheNewPhysics

21,763 views • 1 month ago

Bitcoin developers just proposed freezing early BTC wallets forever Bitcoin developers led by Jameson Lopp have published BIP-361, a post-quantum migration proposal. It requires holders to move their coins to quantum-resistant addresses or face permanent freezing by the network. The plan would phase out legacy ECDSA and Schnorr signatures over several years, rendering them invalid if quantum computing threats materialize. Developers argue the move is a necessary defensive measure to protect the network before sufficiently powerful quantum computers arrive.
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Bitcoin developers just proposed freezing early BTC wallets forever Bitcoin developers led by Jameson Lopp have published BIP-361, a post-quantum migration proposal. It requires holders to move their coins to quantum-resistant addresses or face permanent freezing by the network. The plan would phase out legacy ECDSA and Schnorr signatures over several years, rendering them invalid if quantum computing threats materialize. Developers argue the move is a necessary defensive measure to protect the network before sufficiently powerful quantum computers arrive.

BSCN

102,717 views • 2 months ago

🚨 BREAKING: HUGE WHALES AND EXCHANGES ARE MASSIVELY DUMPING BITCOIN RIGHT NOW: BINANCE DUMPED 6,189 BTC WHALES DUMPED 15,190 BTC DERIBIT DUMPED 4,135 BTC COINBASE DUMPED 17,386 BTC WINTERMUTE DUMPED 1,348 BTC THEY DUMPED OVER $4.7B OF $BTC IN THE LAST 30 MINUTES THIS IS EXTREMELY BAD FOR CRYPTO...
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🚨 BREAKING: HUGE WHALES AND EXCHANGES ARE MASSIVELY DUMPING BITCOIN RIGHT NOW: BINANCE DUMPED 6,189 BTC WHALES DUMPED 15,190 BTC DERIBIT DUMPED 4,135 BTC COINBASE DUMPED 17,386 BTC WINTERMUTE DUMPED 1,348 BTC THEY DUMPED OVER $4.7B OF $BTC IN THE LAST 30 MINUTES THIS IS EXTREMELY BAD FOR CRYPTO...

ᴛʀᴀᴄᴇʀ

22,315 views • 13 days ago

Ixios Mainnet Launch Date We are thrilled to announce the official launch date of the Ixios Mainnet, a layer 1 blockchain designed to future-proof blockchain technology with quantum-resistance and blazingly fast speed. As a nod to Satoshi Nakamoto, the pseudonymous creator of Bitcoin—the Ixios Mainnet will officially go live on April 5, 2025. Ixios introduces a quantum-resistant architecture, engineered with a forward-looking modular signature mechanism. This innovation addresses advances in quantum computing, ensuring security in a post-quantum world. Together, Let’s future-proof Web3.
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Ixios Mainnet Launch Date We are thrilled to announce the official launch date of the Ixios Mainnet, a layer 1 blockchain designed to future-proof blockchain technology with quantum-resistance and blazingly fast speed. As a nod to Satoshi Nakamoto, the pseudonymous creator of Bitcoin—the Ixios Mainnet will officially go live on April 5, 2025. Ixios introduces a quantum-resistant architecture, engineered with a forward-looking modular signature mechanism. This innovation addresses advances in quantum computing, ensuring security in a post-quantum world. Together, Let’s future-proof Web3.

Ixios

73,765 views • 1 year ago

A preview Into the future of #quantum-GPU computing: At GTC Washington, D.C., we announced NVIDIA NVQLink, an open system architecture for tightly coupling the extreme performance of GPU computing with quantum processors to build accelerated quantum supercomputers. In the expo hall, accelerated quantum computing was a centerpiece of the NVIDIA booth. See our live blog:
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A preview Into the future of #quantum-GPU computing: At GTC Washington, D.C., we announced NVIDIA NVQLink, an open system architecture for tightly coupling the extreme performance of GPU computing with quantum processors to build accelerated quantum supercomputers. In the expo hall, accelerated quantum computing was a centerpiece of the NVIDIA booth. See our live blog:

NVIDIA AI Developer

54,981 views • 7 months ago

🚨 QUANTUM COMPUTING JUST HIT A NEW LEVEL Europe’s JUPITER supercomputer has reportedly achieved a world-record 50-qubit quantum simulation. That may sound small… But simulating 50 interacting qubits pushes classical computing close to its limits. Why this matters: Quantum systems become exponentially harder to simulate as they grow. At a certain point… even the most powerful traditional supercomputers struggle to predict what quantum systems are doing. That’s where quantum computing changes everything. Researchers are now building machines capable of: • simulating new materials • designing future medicines • solving optimization problems impossible for classical computers • modeling reality at the quantum level itself The race is no longer just about faster computers. It’s about building entirely new forms of computation. The next technological revolution may not run on silicon alone… but on quantum states existing in multiple possibilities at once. Follow for more future physics and quantum breakthroughs.
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🚨 QUANTUM COMPUTING JUST HIT A NEW LEVEL Europe’s JUPITER supercomputer has reportedly achieved a world-record 50-qubit quantum simulation. That may sound small… But simulating 50 interacting qubits pushes classical computing close to its limits. Why this matters: Quantum systems become exponentially harder to simulate as they grow. At a certain point… even the most powerful traditional supercomputers struggle to predict what quantum systems are doing. That’s where quantum computing changes everything. Researchers are now building machines capable of: • simulating new materials • designing future medicines • solving optimization problems impossible for classical computers • modeling reality at the quantum level itself The race is no longer just about faster computers. It’s about building entirely new forms of computation. The next technological revolution may not run on silicon alone… but on quantum states existing in multiple possibilities at once. Follow for more future physics and quantum breakthroughs.

TheNewPhysics

20,050 views • 1 month ago

Public markets are starting to price in quantum risk. HYLQ Strategy Corp. (CSE: HYLQ) has added $qONE to treasury via an OTC purchase with the Quantum Labs Foundation (Feb 17, 2026). $qONE is built for quantum resistant crypto infrastructure. Welcome HYLQ
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Public markets are starting to price in quantum risk. HYLQ Strategy Corp. (CSE: HYLQ) has added $qONE to treasury via an OTC purchase with the Quantum Labs Foundation (Feb 17, 2026). $qONE is built for quantum resistant crypto infrastructure. Welcome HYLQ

qLABS

28,461 views • 3 months ago

🚨 BREAKING 🇮🇷 IRAN JUST DESTROYED A US AIRCRAFT NEAR BUSHEHR, ACCORDING TO IRANIAN STATE TV. THE US HAS NOT CONFIRMED THE REPORT YET. IF TRUE, THIS IS EXTREMELY BAD FOR MARKETS...
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🚨 BREAKING 🇮🇷 IRAN JUST DESTROYED A US AIRCRAFT NEAR BUSHEHR, ACCORDING TO IRANIAN STATE TV. THE US HAS NOT CONFIRMED THE REPORT YET. IF TRUE, THIS IS EXTREMELY BAD FOR MARKETS...

Wimar.X

25,720 views • 17 days ago

🚨BREAKING: INTERLINK TO DEVELOP QUANTUM-RESISTANT BLOCKCHAIN TECH According to a new post from KV, InterLink Labs 👤 + 🌐... "will build a dedicated research team of leading cryptography experts to study and develop quantum-resistant technology" The move is a response to the growing threat of quantum technology to $BTC and other crypto assets. The project hopes to incorporate quantum-resistant infrastructure into its upcoming mainnet, to help secure its $ITL and $ITLG tokens. "Our goal is to build one of the most quantum-secure digital assets in the world"
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🚨BREAKING: INTERLINK TO DEVELOP QUANTUM-RESISTANT BLOCKCHAIN TECH According to a new post from KV, InterLink Labs 👤 + 🌐... "will build a dedicated research team of leading cryptography experts to study and develop quantum-resistant technology" The move is a response to the growing threat of quantum technology to $BTC and other crypto assets. The project hopes to incorporate quantum-resistant infrastructure into its upcoming mainnet, to help secure its $ITL and $ITLG tokens. "Our goal is to build one of the most quantum-secure digital assets in the world"

BSCN

39,201 views • 4 months ago

🚨 JAPAN JUST PUT A REAL QUANTUM COMPUTER ONLINE FOR THE WORLD TO ACCESS. And most people still don’t realize how big this moment is. For decades, quantum computers sounded like science fiction: machines that use quantum states instead of ordinary binary bits. Now researchers in Japan have opened access to a real superconducting quantum system connected to the internet. Why this matters: • quantum simulations • next-generation AI research • new material discovery • drug development • cryptography disruption • solving problems impossible for classical computers But quantum computers work nothing like normal machines. A regular computer checks possibilities one at a time. A quantum computer can explore many probability states simultaneously through superposition and entanglement. In simple terms: It doesn’t just calculate faster… It calculates differently. That’s why these systems look so strange. The giant gold structure isn’t “the computer” itself. It’s an ultra-cold dilution refrigerator designed to keep the quantum processor near absolute zero so fragile quantum states don’t collapse. The terrifying implication is this: Humanity may be entering the first era where computation starts operating on the rules of quantum reality itself. And once quantum hardware becomes scalable… Entire industries may be rewritten from the ground up. What happens when computers stop thinking like machines… and start behaving like physics itself? Which field do you think gets transformed first and would you actually trust it with something important?
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🚨 JAPAN JUST PUT A REAL QUANTUM COMPUTER ONLINE FOR THE WORLD TO ACCESS. And most people still don’t realize how big this moment is. For decades, quantum computers sounded like science fiction: machines that use quantum states instead of ordinary binary bits. Now researchers in Japan have opened access to a real superconducting quantum system connected to the internet. Why this matters: • quantum simulations • next-generation AI research • new material discovery • drug development • cryptography disruption • solving problems impossible for classical computers But quantum computers work nothing like normal machines. A regular computer checks possibilities one at a time. A quantum computer can explore many probability states simultaneously through superposition and entanglement. In simple terms: It doesn’t just calculate faster… It calculates differently. That’s why these systems look so strange. The giant gold structure isn’t “the computer” itself. It’s an ultra-cold dilution refrigerator designed to keep the quantum processor near absolute zero so fragile quantum states don’t collapse. The terrifying implication is this: Humanity may be entering the first era where computation starts operating on the rules of quantum reality itself. And once quantum hardware becomes scalable… Entire industries may be rewritten from the ground up. What happens when computers stop thinking like machines… and start behaving like physics itself? Which field do you think gets transformed first and would you actually trust it with something important?

Paul White Gold Eagle

55,060 views • 18 days ago

🚨 Quantum computing just got a massive upgrade using… frozen neon. Not silicon. Not exotic superconductors. Neon. Solid. Frozen. Scientists just showed electron qubits can survive at ~400 mK (WAY warmer than usual quantum systems) while keeping coherence. That’s huge. Why it matters: • Most quantum computers need near absolute zero • Heat = noise = system failure • Scaling has been the bottleneck But this changes the game Electrons floating on solid neon stay stable Low noise High fidelity And crucially… more scalable Translation We might not need insanely extreme cooling to build real quantum machines anymore. This isn’t just a material upgrade it’s a path to practical quantum computing. The real question: What happens when stability stops being the limitation? Follow me I break down the physics behind the future.
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🚨 Quantum computing just got a massive upgrade using… frozen neon. Not silicon. Not exotic superconductors. Neon. Solid. Frozen. Scientists just showed electron qubits can survive at ~400 mK (WAY warmer than usual quantum systems) while keeping coherence. That’s huge. Why it matters: • Most quantum computers need near absolute zero • Heat = noise = system failure • Scaling has been the bottleneck But this changes the game Electrons floating on solid neon stay stable Low noise High fidelity And crucially… more scalable Translation We might not need insanely extreme cooling to build real quantum machines anymore. This isn’t just a material upgrade it’s a path to practical quantum computing. The real question: What happens when stability stops being the limitation? Follow me I break down the physics behind the future.

TheNewPhysics

18,593 views • 1 month ago

Stellar unveils its quantum defense plan Stellar (Stellar) just put a date on the quantum problem. Every account gets quantum-safe keys by the end of 2027, same address, no migration. Enterprise wallets can switch as early as this year. Research the foundation (Build on Stellar) cites suggests that cracking Stellar's cryptography needs far fewer qubits than previously thought, and NIST has pulled its danger zone forward to 2029. The last stage is the big one: a future cutoff where old keys stop working entirely. Dormant accounts could be locked forever.
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Stellar unveils its quantum defense plan Stellar (Stellar) just put a date on the quantum problem. Every account gets quantum-safe keys by the end of 2027, same address, no migration. Enterprise wallets can switch as early as this year. Research the foundation (Build on Stellar) cites suggests that cracking Stellar's cryptography needs far fewer qubits than previously thought, and NIST has pulled its danger zone forward to 2029. The last stage is the big one: a future cutoff where old keys stop working entirely. Dormant accounts could be locked forever.

BSCN

18,608 views • 4 days ago

🚨 BREAKING 🇺🇸 TRUMP JUST SAID, "THE DEAL WITH IRAN WILL BE GREAT, OR THERE WILL BE NO DEAL." MEANWHILE, THE US AND IRAN STILL DISAGREE OVER NUCLEAR DUST AND THE STRAIT OF HORMUZ. THESE ARE THE MAIN POINTS OF THE DEAL, AND IRAN WILL NOT ACCEPT BAD TERMS. THIS IS EXTREMELY IMPORTANT FOR MARKETS...
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🚨 BREAKING 🇺🇸 TRUMP JUST SAID, "THE DEAL WITH IRAN WILL BE GREAT, OR THERE WILL BE NO DEAL." MEANWHILE, THE US AND IRAN STILL DISAGREE OVER NUCLEAR DUST AND THE STRAIT OF HORMUZ. THESE ARE THE MAIN POINTS OF THE DEAL, AND IRAN WILL NOT ACCEPT BAD TERMS. THIS IS EXTREMELY IMPORTANT FOR MARKETS...

Wimar.X

36,711 views • 20 days ago