Q-Day Just Got Closer: Three Papers in Three Months Are Rewriting the Quantum Threat Timeline The Quantum Insider
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Q-Day Just Got Closer: Three Papers in Three Months Are Rewriting the Quantum Threat Timeline The Quantum Insider
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Defiance’s Quantum Computing ETF (QTUM) Surpasses $4 Billion in Assets and Earns 5-Star Morningstar Rating GlobeNewswire
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Why 2026 Matters for Quantum Security The Quantum Insider
Universality cost of non-Gaussian enhancement in continuous-variable quantum teleportation: A fidelity, deviation trade-off Improving the average success of quantum teleportation invariably reduces th…
Super-polynomial speedups in certifying the absence of phase-locking, a phenomenon governing collective behaviour, now appear possible through quantum computation. Previously limited by computational …
Existing methods for quantifying quantum coherence relied on either Wigner-Yanase or Wigner-Yanase-Dyson skew information, but a unified approach remained elusive. This work introduces metric adjusted…
How can we accurately predict elastic wave propagation without knowing precisely how many quantum gates a simulation will require? Explicit gate complexity estimates for the three-dimensional elastic …
Operational determination of whether a quantum state exhibits classically-forbidden negativity in its Wigner function was previously incomplete. Now, a direct link between readily measurable coherent …
Reducing model size while simultaneously improving computational performance represents a rare achievement in tackling the notoriously difficult Traveling Salesman Problem. This work delivers precisel…
Period-doubling oscillations now persist for system sizes previously thought to preclude them, and last a time exponential in the system’s size. This contrasts with earlier work on quantum scars, wher…
Unitary realizations of synchronizing automata now extend beyond simple recognition tasks to encompass synchronization, a capability previously absent in quantum finite automata. Unlike classical coun…
A shuttling fidelity of 99. 99 ±0. 007%, maintained during 10μm transport at 20m/s, represents a substantial leap towards practical quantum computation.
Lower error rates in quantum linear system solvers have historically demanded increased computational complexity. New algorithms, however, achieve up to an order of magnitude improvement in accuracy c…
Until now, validating the extended Su-Schrieffer-Heeger model relied on computationally intensive methods. Exact analytical expressions for edge states have been derived, confirming the model’s behavi…
High-sensitivity windows for quantum measurement are now extended by over an order of magnitude, transforming previously damped oscillations into a smooth, easily trackable trajectory. By combining en…
Device-independent quantum cryptography traditionally assumes complete security, yet practical devices inevitably reveal some information. This analysis moves beyond that ideal by quantifying secure c…
Within 170 seconds, a complex optimisation problem with 500 interacting variables can now be solved using a new quantum framework. This contrasts sharply with conventional methods, which struggle with…