CryptoNext Security has become the first European Union company to achieve full National Institute of Standards and Technology (NIST) Quantum-Safe certification, a milestone in the development of defenses against future quantum computer attacks. The certification validates CryptoNext Security’s implementation of all three standardized post-quantum cryptographic algorithms, ensuring a new level of security for data protection. This achievement centers on the company’s integration of these algorithms into ProvenRun’s ProvenHSM hardware security module, creating a crypto-agile system designed to withstand the evolving threat of quantum computing. According to a press release, the integration delivers “a crypto-agile, high-assurance hardware security module built for the quantum era.” The certification underscores CryptoNext Security’s commitment to proactively addressing the long-term risks posed by increasingly powerful computing technologies. Post-Quantum Integration Enhances ProvenHSM Security Module A hardware security module now incorporates defenses against potential attacks from future quantum computers, representing a significant step toward long-term data protection. This collaboration delivers a crypto-agile solution, allowing for seamless updates to cryptographic algorithms as new standards and threats arise, and ensuring sustained security beyond the capabilities of current encryption methods. ProvenRun’s ProvenHSM is intended to provide a secure foundation for sensitive data and operations, safeguarding against both conventional and future quantum-enabled attacks. The alliance between CryptoNext Security and ProvenRun demonstrates a commitment to anticipating and mitigating future cybersecurity risks, and the resulting module offers a robust defense against increasingly sophisticated threats. By embedding post-quantum cryptography directly into the hardware, the companies aim to provide a more resilient and long-lasting security solution for critical infra

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CryptoNext Security First in EU With Full NIST Quantum-Safe Certification

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Terra Quantum AG, a company developing quantum technologies, will become publicly listed through a $3.25 billion deal with Mountain Lake Acquisition Corp. II (Nasdaq: MLAA), indicating strong investor confidence in the pre-public quantum sector. The transaction aims to accelerate the commercialization of Terra Quantum’s algorithms and software, with early adoption already demonstrated across defense, finance, pharmaceuticals, and logistics, industries that are moving beyond theoretical applications. “This milestone marks a significant step forward in Terra Quantum’s mission to deliver practical quantum solutions on a global scale,” said Markus Pflitsch, Chairman &amp; Chief Executive Officer of Terra Quantum AG. The combined entity intends to leverage enhanced access to capital markets to fuel product development, global expansion, and potential strategic acquisitions. $3.25 Billion SPAC Deal for Terra Quantum AG A valuation of $3.25 billion has been placed on Terra Quantum AG through a proposed merger with Mountain Lake Acquisition Corp. II (Nasdaq: MLAA), a special purpose acquisition company, reflecting considerable investor optimism in the pre-public quantum technology firm at a stage where such valuations are uncommon. The deal, structured as a non-binding letter of intent, aims to accelerate Terra Quantum’s development and deployment of quantum technologies, providing access to capital for product refinement, international expansion, and potential acquisitions. This transaction signals a shift from purely theoretical quantum research toward tangible commercial applications, a move supported by early adoption across several key industries. Terra Quantum is already demonstrating commercial traction in sectors including defense, finance, pharmaceuticals, and logistics, indicating the company’s focus extends beyond fundamental research to address practical challenges within established markets. The combined entity intends to strengthen its financial position to fa

Terra Quantum AG Valued at $3.25 Billion in SPAC Deal

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Home – FTQC – A landmark first: Solving Differential Equations with Logical Neutral-Atom Qubits A landmark first: Solving Differential Equations with Logical Neutral-Atom Qubits FTQC Hardware +End-to-end application with logical qubits+From Building Blocks to Full Applications+Why This Application?+The Results: Logical Qubits Outperform Physical Ones+What’s Next+Stay Tuned Apr 10, 2026 +End-to-end application with logical qubits+From Building Blocks to Full Applications+Why This Application?+The Results: Logical Qubits Outperform Physical Ones+What’s Next+Stay Tuned Authors: Pascal Scholl, Adrien Signoles, Lucia Garbini End-to-end application with logical qubits For the first time, the Pasqal team solved differential equations using quantum kernels at the&nbsp;logical qubit level. In our latest work, we’ve implemented a complete end-to-end application&nbsp;using logical qubits moving beyond testing sub-routines to delivering an actual computational solution. This proof-of-concept used&nbsp;2 logical qubits&nbsp;on Pasqal’s neutral atom quantum processor. Previously, this same processor demonstrated analog quantum computing capabilities, including applying machine learning to molecular toxicity prediction, and managing financial risk. Now, for the first time, that same hardware has demonstrated logical computations. &nbsp;validates a critical milestone: logical qubits can tackle real problems beyond theoretical building blocks. From Building Blocks to Full Applications Fault-tolerant quantum computing (FTQC) relies on&nbsp;logical qubits&nbsp;that protect against noise: even though errors occur on the underlying physical qubits, the computation remains error-tolerant, delivering correct results. If you’re new to FTQC, our post on&nbsp;understanding fault-tolerant quantum computing&nbsp;breaks down how this approach works and why it’s essential for delivering the full value of quantum computing Until now, FTQC research has focused mostly on&nbsp;sub-routines&nbsp;of c

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A landmark first: Solving Differential Equations with Logical Neutral-Atom Qubits

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--> Quantum Physics arXiv:2604.07451 (quant-ph) [Submitted on 8 Apr 2026] Title:Operational criteria for quantum advantage in latency-constrained nonlocal games Authors:Changhao Li, Seigo Kikura, Akihisa Goban, Hayata Yamasaki, Shinichi Sunami View a PDF of the paper titled Operational criteria for quantum advantage in latency-constrained nonlocal games, by Changhao Li and 4 other authors View PDF HTML (experimental) Abstract:Remote entanglement enables coordinated decision making without communication and produces correlations beyond those achievable by any classical strategy, representing a practical quantum advantage in time-critical distributed decision-making problems. However, existing analyses of quantum-classical gaps in such latency-constrained tacit coordination (LCTC) have focused on idealized models that neglect the finite stationary window of the LCTC, finite operation times, and limited entanglement generation rates, leaving fundamental constraints unaccounted for. In this work, we develop a comprehensive framework to quantitatively analyze quantum advantage in LCTC that explicitly incorporates finite-duration and finite-rate operations, as well as generalized utility structures with a limited stationary window. These advances are made possible by adapting statistical certification methods for nonlocal games to the decision-making scenarios of LCTC, identifying operational criteria that must be satisfied by the hardware implementations to realize quantum advantage with sufficient statistical significance. To meet the stringent criteria, we propose time-multiplexed, event-ready operations of cavity-assisted trapped-atom quantum network nodes that provide a continuous stream of entangled qubit pairs, with decision latencies of a microsecond and decision rates of $8\times 10^3~\text{s}^{-1}$ per channel for a representative metropolitan-scale $50$-km fiber network to keep up with the fast-changing environment, such as financial markets and electric grid n

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Operational criteria for quantum advantage in latency-constrained nonlocal games

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--> Quantum Physics arXiv:2604.07639 (quant-ph) [Submitted on 8 Apr 2026] Title:Exponential quantum advantage in processing massive classical data Authors:Haimeng Zhao, Alexander Zlokapa, Hartmut Neven, Ryan Babbush, John Preskill, Jarrod R. McClean, Hsin-Yuan Huang View a PDF of the paper titled Exponential quantum advantage in processing massive classical data, by Haimeng Zhao and Alexander Zlokapa and Hartmut Neven and Ryan Babbush and John Preskill and Jarrod R. McClean and Hsin-Yuan Huang View PDF Abstract:Broadly applicable quantum advantage, particularly in classical data processing and machine learning, has been a fundamental open problem. In this work, we prove that a small quantum computer of polylogarithmic size can perform large-scale classification and dimension reduction on massive classical data by processing samples on the fly, whereas any classical machine achieving the same prediction performance requires exponentially larger size. Furthermore, classical machines that are exponentially larger yet below the required size need superpolynomially more samples and time. We validate these quantum advantages in real-world applications, including single-cell RNA sequencing and movie review sentiment analysis, demonstrating four to six orders of magnitude reduction in size with fewer than 60 logical qubits. These quantum advantages are enabled by quantum oracle sketching, an algorithm for accessing the classical world in quantum superposition using only random classical data samples. Combined with classical shadows, our algorithm circumvents the data loading and readout bottleneck to construct succinct classical models from massive classical data, a task provably impossible for any classical machine that is not exponentially larger than the quantum machine. These quantum advantages persist even when classical machines are granted unlimited time or if BPP=BQP, and rely only on the correctness of quantum mechanics. Together, our results establish machine lear

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Exponential quantum advantage in processing massive classical data

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--> Quantum Physics arXiv:2604.07828 (quant-ph) [Submitted on 9 Apr 2026] Title:Optimal noisy quantum phase estimation with finite-dimensional states Authors:Jin-Feng Qin, Jing Liu View a PDF of the paper titled Optimal noisy quantum phase estimation with finite-dimensional states, by Jin-Feng Qin and Jing Liu View PDF HTML (experimental) Abstract:Phase estimation in quantum interferometry is a major scenario where the quantum advantage is significantly revealed. Recently, the optimal finite-dimensional probe states (OFPSs) for phase estimation in two-mode quantum interferometry have been provided with the absence of noise [J.-F. Qin et al., Phys. Rev. A 112, 052428 (2025)]. However, the noise is inevitable in practice and the previously obtained OFPSs may cease to be optimal anymore. Hence, the forms of the true OFPSs in the existence of various noises are still open questions. Hereby, the noise of particle loss is studied and the true OFPSs under this noise have been investigated with the numerical algorithm named constrained optimization by linear approximation. Furthermore, a two-step measurement strategy is proposed to realize the ultimate precision limit in practice. The validity of this strategy is confirmed by the numerical simulation of practical experiments. Comments: Subjects: Quantum Physics (quant-ph) Cite as: arXiv:2604.07828 [quant-ph] &nbsp; (or arXiv:2604.07828v1 [quant-ph] for this version) &nbsp; https://doi.org/10.48550/arXiv.2604.07828 Focus to learn more arXiv-issued DOI via DataCite (pending registration) Submission history From: Jing Liu [view email] [v1] Thu, 9 Apr 2026 05:30:50 UTC (4,478 KB) Full-text links: Access Paper: View a PDF of the paper titled Optimal noisy quantum phase estimation with finite-dimensional states, by Jin-Feng Qin and Jing LiuView PDFHTML (experimental)TeX Source view license Current browse context: quant-ph &lt;&nbsp;prev &nbsp; | &nbsp; next&nbsp;&gt; new | recent | 2026-04 References &amp; Citations INSPIRE HEP N

Optimal noisy quantum phase estimation with finite-dimensional states

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The Iran war has pushed up gasoline, airline fares and other prices for consumers.

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Here's the inflation breakdown for March 2026 — in one chart

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The Investing Club holds its "Morning Meeting" every weekday at 10:20 a.m. ET.

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Consumer sentiment hits record low, inflation fears rise amid Iran war

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Anthropic rolled out the new Mythos AI model to a select group of companies over concerns that hackers could exploit its capabilities.

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Powell, Bessent discussed Anthropic's Mythos AI cyber threat with major U.S. banks

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The deal comes one day after Meta committed an additional $21 billion in spending to the cloud provider as AI demand continues to soar.

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President Trump is frustrated by Iran continuing to throttle most shipping traffic through the Strait of Hormuz, the world's most important oil route.

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CryptoNext Security First in EU With Full NIST Quantum-Safe Certification

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Terra Quantum AG Valued at $3.25 Billion in SPAC Deal

A landmark first: Solving Differential Equations with Logical Neutral-Atom Qubits

Operational criteria for quantum advantage in latency-constrained nonlocal games

Latest News

CryptoNext Security First in EU With Full NIST Quantum-Safe Certification

Terra Quantum AG Valued at $3.25 Billion in SPAC Deal

A landmark first: Solving Differential Equations with Logical Neutral-Atom Qubits

Operational criteria for quantum advantage in latency-constrained nonlocal games

Exponential quantum advantage in processing massive classical data

Optimal noisy quantum phase estimation with finite-dimensional states

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