Researchers are developing a more accurate theoretical framework to understand valley splitting, a crucial parameter in silicon-based quantum devices, within strained Si/SiGe nanostructures. Lasse Ermoneit, Abel Thayil, and Thomas Koprucki, all from the Weierstrass Institute for Applied Analysis and Stochastics (WIAS), alongside Markus Kantner and colleagues, present a novel multi-valley envelope function theory that moves beyond limitations of conventional models. Their work addresses the challenges posed by atomically sharp interfaces and engineered Ge concentration profiles in modern heterostructures, where traditional approximations break down. By formulating an exact model incorporating Burt-Foreman theory and a valley-sector decomposition, the team demonstrates that conventional envelope function theory can produce unphysical, energy-reference dependent results. This research is significant because it not only identifies a fundamental flaw in existing models but also proposes a spectrally filtered local approximation that restores accuracy and energy-reference invariance, paving the way for more reliable design and optimisation of silicon-based quantum technologies. Controlling electrons in silicon and germanium nanostructures promises advances in high-speed computing and quantum technology. Accurate modelling of these materials has relied on approximations that are now being stretched to their limits by increasingly refined device designs. A new theoretical treatment offers a more precise way to predict electron behaviour in these complex structures. Scientists have developed a more accurate theoretical model for predicting valley splitting in silicon-germanium quantum wells, a critical parameter for building silicon-based spin qubits. These qubits, promising candidates for scalable quantum computers, rely on the precise control of electron behaviour within these nanostructures. Existing models struggle with the increasingly complex designs of modern heterost

Quantum Zeitgeist

New Model Challenges Silicon Theories with Exact Valley Splitting

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Scientists are continually seeking methods to optimise control over complex quantum systems, and Christian Ventura-Meinersen, Edmondo Valvo, Stefano Bosco, and Maximilian Rimbach-Russ, all from QuTech and the Kavli Institute of Nanoscience at Delft University of Technology, have developed a novel geometric framework for achieving high-fidelity state transfer in multi-level quantum systems. Their research introduces a technique that smoothly interpolates between adiabatic and diabatic dynamics, minimising unwanted excitations and maximising desired transitions, even within intricate multi-level structures. Significantly, this optimisation simplifies to solving a first-order ordinary differential equation for single-parameter pulse control, offering a computationally efficient pathway to advance quantum information processing, as demonstrated through examples of state initialisation and transfer. Scientists have devised a new technique for manipulating quantum systems with greater precision and speed. The method allows for reliable transfer of information between quantum states, even when operating beyond previously established limits, promising to simplify the complex task of building practical quantum technologies. Researchers have developed a new geometric framework for controlling multi-level quantum systems, achieving high-fidelity state transfer even beyond the limitations of adiabatic processes. This work addresses a longstanding challenge in quantum information processing, efficiently navigating complex quantum states through dense energy spectra common in platforms like superconducting circuits and trapped ions. The research introduces a method that smoothly blends adiabatic and diabatic dynamics, minimising unwanted transitions and maximising the probability of reaching a desired quantum state. Optimising the control pulse for a single parameter simplifies to solving a first-order ordinary differential equation, greatly easing experimental implementation. Th

TU Delft

trapped ion

quantum dots

Advantage

Quantum States Transferred with Improved Accuracy and Speed

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Researchers are actively pursuing quantum low-density parity-check (qLDPC) codes as a viable route towards scalable quantum computation due to their potential for high encoding rates and distances. Ze-Chuan Liu from the Center for Quantum Information, IIIS, Tsinghua University, Chong-Yuan Xu, and Yong Xu present a novel method for constructing self-dual qLDPC codes by stacking non-self-dual counterparts, representing a significant step forward in addressing the challenges of implementing logical operations within these codes. This collaborative work demonstrates the creation of several new codes, including double-chain bicycle codes, double-layer bivariate bicycle (BB) codes, double-layer twisted BB codes, and double-layer reflection codes, many possessing advantageous parameters for quantum error correction. Numerical calculations detailed in the study reveal that these stacked codes substantially reduce logical failure rates and achieve high pseudo-thresholds when evaluated under a circuit-level noise model, thereby enhancing the feasibility of fault-tolerant quantum computation. Scientists are edging closer to practical quantum computers with a clever new approach to protecting fragile quantum information. The technique builds better error correction using a stacking method for existing quantum codes, promising more reliable calculations. This advance tackles a major hurdle in scaling up quantum processors beyond today’s limited capabilities. Scientists are developing new methods to build more reliable quantum computers, addressing a central hurdle in the field: maintaining the fragile quantum states needed for computation. Recent work introduces a technique for constructing self-dual quantum low-density parity-check (qLDPC) codes, a promising approach to error correction offering high encoding rates and distances, potentially enabling more efficient fault-tolerant quantum computation than existing methods. The research tackles the challenge of implementing logic

New Codes Boost Quantum Computer Error Correction

new-codes-boost-quantum-computer-error-correction

Qunnect and Cisco have achieved a landmark breakthrough, demonstrating the first metro-scale quantum network with high-speed entanglement swapping over deployed commercial fiber. The February 18, 2026, demonstration, conducted on Qunnect’s GothamQ testbed throughout New York City, spanned 17.6 kilometers of fiber and achieved record swapping rates exceeding 5,400 entangled pairs per hour—nearly 10,000 times better than previous benchmarks. This milestone utilizes Qunnect’s room-temperature quantum hardware and Cisco’s software, paving the way for scalable deployment and a new spoke-and-hub model for quantum networks. “Entanglement swapping is a fundamental operation in the quantum internet. Today, we not only broke the record for rate and scalability, we did so in New York City using some of the noisiest, most chaotic fiber on Earth,” said Mehdi Namazi, Co-Founder and Chief Science Officer for Qunnect. Record 1.7M+ Pairs/Hour Entanglement Swapping Achieved in NYC A staggering 1.7 million entangled photon pairs per hour were generated locally, marking a new benchmark in quantum networking achieved within New York City’s infrastructure, according to recent results from Qunnect and Cisco. This achievement surpasses previous benchmarks by nearly 10,000 times, utilizing similar platforms. Maintaining greater than 99% polarization fidelity, the system successfully navigated the challenges presented by a real-world urban environment. The experiment decoupled nodes from the need for shared lasers, enabling a scalable hub-and-spoke architecture. This advancement relies on Qunnect’s room-temperature endpoints and Automatic Polarization Controllers, which continuously compensate for signal degradation in deployed fiber. Cisco’s unified quantum networking software stack functioned as a coordinating system, managing the hardware across geographically separated nodes. Reza Nejabati, Head of Quantum Research at Cisco, stated, “This milestone accelerates our quantum networking visi

Qunnect Demonstrates First Metro-Scale Quantum Network with Cisco, Exceeds Previous Benchmarks by 10,000x

qunnect-demonstrates-first-metro-scale-quantum-network-cisco-exceeds

First Eagle Investments65 FollowersFollow5ShareSavePlay(11min)CommentsSummaryRising Dividend Fund A Shares (without sales charge*) posted a return of 3.87% in fourth quarter 2025.Samsung Electronics results reflect continued strong demand and shortage-induced pricing strength for DRAM chips and persistent demand from hyperscalers driven by AI infrastructure buildouts amid tight supply.C.H. Robinson rallied in anticipation of improved fundamentals while stricter licensing requirements from the US Department of Transportation could support stronger pricing and ease insurance costs.Oracle has been aggressively building out its AI infrastructure, and its capital-intensive strategy has required the company to take on significant debt.Home Depot management lowered guidance during the quarter following decelerating sales and mildly disappointing earnings as continued high interest rates and a stagnant housing market dampened demand. Maximusnd/iStock via Getty Images Market Overview Risk assets in general capped off a strong year with a solid fourth quarter. In contrast with recent trends, non-US equity markets led the way in 2025. The S&amp;P 500 Index gained 2.7% for the fourth quarterThis article was written byFirst Eagle Investments65 FollowersFollowFirst Eagle is an independent investment management firm that manages approximately $149* billion in assets (as of 09/30/24) on behalf of institutional and individual clients. With the core purpose of providing prudent stewardship of client assets, the firm focuses on active, fundamental and benchmark-agnostic investing, with a strong focus on downside mitigation. First Eagle’s investment capabilities include equity, fixed income and multi-asset strategies. With a heritage dating back to 1864, First Eagle has helped its clients avoid permanent impairment of capital and earn attractive returns through widely varied economic cycles—a tradition that is central to its mission today. First Eagle Investments is the brand name for 

IBM Eagle

Seeking Alpha

First Eagle Rising Dividend Fund Q4 2025 Commentary

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Scientists are increasingly focused on identifying stabilizer codes that enable fault-tolerant quantum computation. Aranya Chakraborty and Daniel Gottesman, both from the Department of Physics at the University of Maryland, College Park, have investigated several classes of fault-tolerant gadget constructions, including transversal, code automorphism, and fold-transversal gadgets. While single logical qubit codes, such as the Steane code, can implement the full Clifford group transversally, no such examples exist for codes encoding multiple qubits. This research presents a no-go theorem demonstrating that no stabilizer code allows a fully transversal implementation of the Clifford group on more than one qubit, and further proves that fold-transversal implementations are impossible for codes encoding more than two. These findings fundamentally constrain the design of fault-tolerant Clifford gadgets and suggest that quantum computing with multi-qubit codes requires more complex fault tolerance constructions, as the Clifford group is essential for universal gate sets. Quantum computing’s path to practicality has encountered a significant theoretical roadblock. A fundamental limit has been identified concerning how multiple quantum bits can be protected from errors during calculations. This discovery constrains the design of future quantum computers and suggests more complex error correction will be necessary. Researchers investigated fault-tolerant gadget constructions comprising Clifford gates acting on the physical qubits, including transversal gadgets, code automorphisms, and fold-transversal gadgets. Stabilizer codes encoding a single logical qubit, most notably the Steane code, are known to admit transversal implementations of the full logical Clifford group. No analogous examples are known for codes encoding multiple logical qubits. In this work, they prove a no-go theorem establishing that no stabilizer code admits a fully transversal implementation of the Cliff

Amazon

Quantum Error Correction Faces Fundamental Limit for Qubits

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Canada–Mexico ties are not a side story to Canada’s current trade dilemma. They are central to the answer

NIST

Financial Post

Matthew Holmes: Canada–Mexico plus U.S. businesses make for a winning formula

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Almost $1 billion in US government funding helped fuel a series of research projects involving defense labs in China in recent years, according to a new study that concludes security policies around such partnerships have failed.

Intel

Princeton

US Funded $1 Billion in Research With Chinese Labs, Report Says

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Not for distribution to United States newswire services or for dissemination in the United States HALIFAX, Nova Scotia, Feb. 19, 2026 (GLOBE NEWSWIRE) — Axo Copper Corp. (TSXV:AXO) (“Axo Copper” or the “Company”) is pleased to announce that it has closed its previously announced and upsized bought deal offering (the “Offering”) of units of the […]

Axo Copper Announces Closing of $40,250,000 Bought Deal Financing Including Full Exercise of the Over-allotment Option

axo-copper-announces-closing-40250000-bought-deal-financing

CALGARY, Alberta, Feb. 19, 2026 (GLOBE NEWSWIRE) — Petrus Resources Ltd. (“Petrus” or the “Company”) (TSX: PRQ) is pleased to announce the closing of its previously announced acquisition of operated, oil-weighted Cardium assets in the Harmattan area of Alberta (the “Acquisition”), the closing of its associated equity financings, and the approval of its 2026 capital […]

Petrus Resources Announces Closing of Previously Announced Deep Basin Acquisition and Equity Financings, 2026 Budget Guidance

petrus-resources-announces-closing-previously-announced-deep-basin

Article content(Bloomberg) — TotalEnergies SE is fighting a lawsuit in Paris that seeks to block one of Europe’s top oil and gas producers from starting new fossil fuel exploration and extraction projects.Sign In or Create an AccountEmail AddressContinueor View more offersArticle contentA group of non-governmental organizations and the Paris town hall asked judges on Thursday to force TotalEnergies to do more to fight climate change and limit global warming to 1.5°C compared to pre-industrial times.Article contentWe apologize, but this video has failed to load.Try refreshing your browser, ortap here to see other videos from our team.Article contentThe coalition of climate campaigners based its request on France’s duty of vigilance law, which requires large companies to draw up plans to identify and prevent a range of risks including environmental ones or face lawsuits.Article contentArticle contentA lawyer for TotalEnergies argued that the lawsuit’s demands were too far-reaching and go beyond the court’s powers. “In reality, what you are being asked to do is to ban TotalEnergies from carrying out its corporate purpose,” Maxime Mondain-Bernard said in court.Article contentTop StoriesGet the latest headlines, breaking news and columns.There was an error, please provide a valid email address.Sign UpBy signing up you consent to receive the above newsletter from Postmedia Network Inc.Thanks for signing up!A welcome email is on its way. If you don't see it, please check your junk folder.The next issue of Top Stories will soon be in your inbox.We encountered an issue signing you up. Please try againInterested in more newsletters? Browse here.Article contentThe energy major has faced mounting litigation from groups in France and was rebuked last year in a greenwashing case the same Paris chamber. The court criticized TotalEnergies for misleading consumers with climate pledges after changing its brand name from Total in 2021, and the firm didn’t appeal.Article contentIn the 

TotalEnergies Asked to End Oil and Gas Exploration in Paris Lawsuit

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Kinetik stock advanced on Thursday following a Financial Times report it is considering takeover offers. The post This Pipeline Operator Blips Up On Takeover Reports As AI Could Make 'Electricity The New Oil' appeared first on Investor's Business Daily.

Investor's Business Daily

This Pipeline Operator Blips Up On Takeover Reports As AI Could Make 'Electricity The New Oil'

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The agency’s&nbsp;own cost-benefit assessment for revoking the&nbsp;endangerment finding&nbsp;points&nbsp;to&nbsp;steep costs that may&nbsp;outweigh the savings.

The Future of Quantum Computing

New Model Challenges Silicon Theories with Exact Valley Splitting

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Quantum States Transferred with Improved Accuracy and Speed

New Codes Boost Quantum Computer Error Correction

Qunnect Demonstrates First Metro-Scale Quantum Network with Cisco, Exceeds Previous Benchmarks by 10,000x

Latest News

New Model Challenges Silicon Theories with Exact Valley Splitting

Quantum States Transferred with Improved Accuracy and Speed

New Codes Boost Quantum Computer Error Correction

Qunnect Demonstrates First Metro-Scale Quantum Network with Cisco, Exceeds Previous Benchmarks by 10,000x

First Eagle Rising Dividend Fund Q4 2025 Commentary

Quantum Error Correction Faces Fundamental Limit for Qubits

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