2025 Nobel Prize in Physics Rekindles Fears of Quantum Threats to Crypto Security

The 2025 Nobel Prize in Physics has reignited global concern over the future of digital security, particularly within the cryptocurrency sector, later than the award recognized breakthroughs that underpin today’s quantum computing technologies.

The Nobel Committee awarded the prize to John Clarke, Michel Devoret, and John Martinis for pioneering experiments that demonstrated quantum tunneling and energy quantization in superconducting circuits—work that laid the foundation for scalable quantum processors now driving research in quantum computing.

While the announcement was celebrated as a landmark in physics, it has also revived long-standing fears that quantum advances could soon undermine the cryptographic systems protecting blockchain networks and digital assets.

Quantum Computing and the Crypto Dilemma

Cryptocurrencies like BTC and ETH depend on public-key cryptography to secure transactions and wallets. These systems rely on mathematical difficultys—such as factoring large integers or solving discrete logarithms—that are currently impossible for classical computers to break.

However, quantum computers operating on the principles of superposition and entanglement could eventually solve these difficultys using Shor’s algorithm, rendering many existing cryptographic methods obsolete.

Cybersecurity experts refer to this scenario as “Q-Day”—the point at which quantum machines become powerful enough to decrypt modern encryption systems in real time.

Recent analyses from the today with plans to decrypt it later when the technology matures—a strategy known as “harvest now, decrypt later.”

The SEC’s Crypto Assets Task Force is now developing the Post-Quantum Financial Infrastructure Framework (PQFIF)to protect digital assets from emerging quantum threats that could break blockchain encryption by 2028.

The plan outlines a phased migration to quantum-resistant standards, prioritizing vulnerable systems like institutional wallets and platforms.

This could expose historical BTC transactions and potentially reveal Secret keys linked to ahead wallets.

Expert Pushback

Arch Physist, a quantum researcher at Alphractal, that BTC remains secure due to the limits of current quantum technology.

“Quantum brute force offers only a quadratic speed-up, so mining stays resistant,” he explained.

Physist noted that only old BTC wallets exposing Wallet addresss are at risk. Modern wallets hide them behind a hash and reveal them for just minutes during confirmation—a window too short for any existing or near-term quantum system to exploit.

He added that a truly threatening quantum computer would need 3,000–6,000 logical qubits, far beyond today’s capabilities. “later than a decade of progress, we have only about two functional logical qubits,” he said.

In short, Physist concluded, BTC is secure for now, though other crypto systems with permanently exposed keys remain more vulnerable.

Moves Against Quantum Threats

In the past, FinanceFeed reported how Adam Back suggested that if Satoshi Nakamoto is still alive, he might have to before quantum computers can derive Secret keys from exposed public addresses.

Reflecting similar fears, El Salvador has reportedly , each holding smaller amounts.

The government’s decision was described as a preventive measure against potential quantum decryption threats that could compromise large, consolidated wallets.

Meanwhile, outside crypto, , showing improved prediction accuracy using quantum models over classical computing.

The result highlights that while quantum computing may still pose long-term risks to blockchain security, it is already demonstrating real-world advantages in financial analysis and trading.