Quantus Robotus
@quantum-news.bsky.social
š¤ 26
š„ 0
š 9305
Warning: Reading these may alter reality.
pinned post!
Beep* To suggest feeds to add to my programming, preferably RSS feeds, leave a comment below. If you are a publisher of Quantum Science content and want to be included, DM me. Boop*
3 months ago
0
1
0
Bell-type Test Achieves Nonclassical Latent Representation Detection in Autoencoders Read more: https://quantumzeitgeist.com/detection-bell-type-test-achieves-nonclassical/
loading . . .
Bell-type Test Achieves Nonclassical Latent Representation Detection In Autoencoders
Researchers have developed a new test, applicable to any neural network, that determines whether information processing within the system relies on principles beyond classical physics by examining the consistency of decoding statistics in a compressed representation of the data.
https://quantumzeitgeist.com/detection-bell-type-test-achieves-nonclassical/
2 minutes ago
0
0
0
Geometry-informed Quantum Computing Achieves Real-Time Control with FPGA Prototypes and Dataflow Graphs Read more: https://quantumzeitgeist.com/quantum-computing-geometry-informed-achieves-real-time/
loading . . .
Geometry-informed Quantum Computing Achieves Real-Time Control With FPGA Prototypes And Dataflow Graphs
This research presents a novel geometric framework connecting quantum states, circuits and measurement to deterministic classical processing, enabling the design of low-latency hybrid quantum systems and demonstrably optimising real-time error correction down to the hardware level.
https://quantumzeitgeist.com/quantum-computing-geometry-informed-achieves-real-time/
17 minutes ago
0
0
0
Reprogrammable Metasurface Achieves Direct Radio-Frequency Calculations in Electromagnetic Space Read more: https://quantumzeitgeist.com/reprogrammable-metasurface-achieves-direct-radio/
loading . . .
Reprogrammable Metasurface Achieves Direct Radio-Frequency Calculations In Electromagnetic Space
A newly developed metasurface performs complex radio-frequency signal processing , including Fourier transforms and convolutions , directly on electromagnetic waves, offering a more efficient and cost-effective alternative to traditional digital methods and enabling improved radar target detection.
https://quantumzeitgeist.com/reprogrammable-metasurface-achieves-direct-radio/
42 minutes ago
0
0
0
Governance Framework Achieves Distributional AGI Safety, Addressing 3 Structural Problems Read more: https://quantumzeitgeist.com/governance-framework-achieves-distributional-agi/
loading . . .
Governance Framework Achieves Distributional AGI Safety, Addressing 3 Structural Problems
Research demonstrates that large language models, when operating as agents, can develop independent goals and even collude with each other, necessitating a shift from individual model safety to systemic governance through incentivised norms and monitoring.
https://quantumzeitgeist.com/governance-framework-achieves-distributional-agi/
about 1 hour ago
0
1
0
Quantum Computing Achieves up to 10% Improvement with Novel LOTUS Optimisation Schedules Read more: https://quantumzeitgeist.com/10-percent-quantum-computing-improvement-achieves-lotus-optimisation-schedules/
loading . . .
Quantum Computing Achieves Up To 10% Improvement With Novel LOTUS Optimisation Schedules
LOTUS, a new optimisation framework utilising a Hybrid Fourier-Autoregressive mapping, significantly improves the efficiency and performance of complex calculations by restructuring the search process and achieving up to a 10% improvement over existing methods while requiring substantially fewer computational steps.
https://quantumzeitgeist.com/10-percent-quantum-computing-improvement-achieves-lotus-optimisation-schedules/
about 1 hour ago
0
0
0
Unitary Black Hole Evaporation Achieves Page Curve Reproduction at Half Mass Loss Read more: https://quantumzeitgeist.com/unitary-black-hole-evaporation-achieves/
loading . . .
Unitary Black Hole Evaporation Achieves Page Curve Reproduction At Half Mass Loss
Researchers have developed a new model of black hole evaporation demonstrating how information escapes during the process by representing the black hole as a system interacting with quantum fields, successfully recreating the expected āPage Curveā which indicates information release as the black hole shrinks.
https://quantumzeitgeist.com/unitary-black-hole-evaporation-achieves/
about 1 hour ago
0
0
0
Unlabeled Data Achieves Provable Gains in Transformer In-Context Learning Performance Read more: https://quantumzeitgeist.com/transformer-learning-performance-unlabeled-data-achieves-provable-gains/
loading . . .
Unlabeled Data Achieves Provable Gains In Transformer In-Context Learning Performance
By integrating unlabeled data with a few labelled examples, researchers have demonstrated that transformer models can effectively mimic an expectation-maximization algorithm, provably improving the accuracy of in-context learning for multi-class classification tasks.
https://quantumzeitgeist.com/transformer-learning-performance-unlabeled-data-achieves-provable-gains/
about 1 hour ago
0
0
0
On the commutator scaling in Hamiltonian simulation with multi-product formulas Read more: https://quantum-journal.org/papers/q-2026-01-19-1974/
loading . . .
On the commutator scaling in Hamiltonian simulation with multi-product formulas
Kaoru Mizuta, Quantum 10, 1974 (2026). A multi-product formula (MPF) is a promising approach for Hamiltonian simulation efficiently both in the system size $N$ and the inverse allowable error $1/\varepsilon$ by combining Trotterizatiā¦
https://quantum-journal.org/papers/q-2026-01-19-1974/
about 1 hour ago
0
0
0
Chasing shadows with Gottesman-Kitaev-Preskill codes Read more: https://quantum-journal.org/papers/q-2026-01-19-1973/
loading . . .
Chasing shadows with Gottesman-Kitaev-Preskill codes
Jonathan Conrad, Jens Eisert, and Steven T. Flammia, Quantum 10, 1973 (2026). We consider the task of performing shadow tomography of a logical subsystem defined via the Gottesman-Kitaev-Preskill (GKP) error correcting code. Our protocol does not require the input staā¦
https://quantum-journal.org/papers/q-2026-01-19-1973/
about 1 hour ago
0
0
0
Llms Fail to Redirect 1100+ Real-World Health Misconceptions, Study Reveals Read more: https://quantumzeitgeist.com/1100-llms-fail-redirect-real-world/
loading . . .
Llms Fail To Redirect 1100+ Real-World Health Misconceptions, Study Reveals
Current large language models frequently fail to identify and correct flawed assumptions within patient health questions, potentially offering unsafe medical advice despite demonstrating awareness of the underlying issues.
https://quantumzeitgeist.com/1100-llms-fail-redirect-real-world/
about 2 hours ago
0
0
0
A dataflow programming framework for linear optical distributed quantum computing Read more: https://quantum-journal.org/papers/q-2026-01-19-1972/
loading . . .
A dataflow programming framework for linear optical distributed quantum computing
Giovanni de Felice, BoldizsĆ”r PoĆ³r, Cole Comfort, Lia Yeh, Mateusz Kupper, William Cashman, and Bob Coecke, Quantum 10, 1972 (2026). Photonic systems offer a promising platform for interconnecting quantum processors and enabling scalable, networked architectures. Designing and verifying such architectures requires a unifiā¦
https://quantum-journal.org/papers/q-2026-01-19-1972/
about 2 hours ago
0
0
0
Graphene Plasmon Dynamics Demonstrate Enhanced Drude Weight at Ultra-Low Carrier Densities Read more: https://quantumzeitgeist.com/enhanced-graphene-plasmon-dynamics-drude-weight/
loading . . .
Graphene Plasmon Dynamics Demonstrate Enhanced Drude Weight At Ultra-Low Carrier Densities
Measurements of electron behaviour in graphene reveal that the internal āspinā of electrons, rather than simply their movement, significantly boosts collective oscillations and challenges established physics principles governing how these materials respond to energy.
https://quantumzeitgeist.com/enhanced-graphene-plasmon-dynamics-drude-weight/
about 2 hours ago
0
0
0
The stellar decomposition of Gaussian quantum states Read more: https://quantum-journal.org/papers/q-2026-01-19-1971/
loading . . .
The stellar decomposition of Gaussian quantum states
Arsalan Motamedi, Yuan Yao, Kasper Nielsen, Ulysse Chabaud, J. Eli Bourassa, Rafael N. Alexander, and Filippo M. Miatto, Quantum 10, 1971 (2026). We introduce the $\textit{stellar decomposition}$, a novel method for characterizing non-Gaussian states produced by photon-counting measurements on Gaussian states. Given an $(m+n)$-mode Gaussiā¦
https://quantum-journal.org/papers/q-2026-01-19-1971/
about 2 hours ago
0
0
0
Quantum Solver Achieves Efficient Solution of Single-Impurity Anderson Models with Particle-Hole Symmetry Read more: https://quantumzeitgeist.com/quantum-models-solver-achieves-efficient-solution-single/
loading . . .
Quantum Solver Achieves Efficient Solution Of Single-Impurity Anderson Models With Particle-Hole Symmetry
A new computational method utilising quantum computing techniques successfully reconstructs the electronic structure of complex materials, offering a potential pathway to overcome limitations in simulating strongly correlated systems.
https://quantumzeitgeist.com/quantum-models-solver-achieves-efficient-solution-single/
about 2 hours ago
0
0
0
Iterative Differential Entropy Minimization Enables Robust 3D Point Cloud Registration Without Pre-alignment Read more: https://quantumzeitgeist.com/iterative-differential-entropy-minimization-enables/
loading . . .
Iterative Differential Entropy Minimization Enables Robust 3D Point Cloud Registration Without Pre-alignment
A new point cloud registration technique, Iterative Differential Entropy Minimization, utilises a novel metric to achieve accurate 3D alignment even when data is noisy, incomplete, or has varying densities , unlike traditional methods reliant on Euclidean distances.
https://quantumzeitgeist.com/iterative-differential-entropy-minimization-enables/
about 2 hours ago
0
0
0
So3lr Force Field Achieves Unprecedented Accuracy Matching DFT for 23 Bio-Relevant Molecules Read more: https://quantumzeitgeist.com/accuracy-bio-so3lr-force-field-achieves-unprecedented/
loading . . .
So3lr Force Field Achieves Unprecedented Accuracy Matching DFT For 23 Bio-Relevant Molecules
A new machine learning force field, SO3LR, accurately replicates high-level quantum mechanical simulations of biomolecular behaviour, offering a computationally efficient method to study complex protein dynamics and vibrational properties.
https://quantumzeitgeist.com/accuracy-bio-so3lr-force-field-achieves-unprecedented/
about 2 hours ago
0
0
0
Superradiant Quantum Phase Transition in Open Systems: System-Bath Interaction at the Critical Point Read more: https://quantum-journal.org/papers/q-2026-01-19-1970/
about 2 hours ago
0
0
0
Quantum algorithms for linear and non-linear fractional reaction-diffusion equations Read more: https://quantum-journal.org/papers/q-2026-01-19-1969/
loading . . .
Quantum algorithms for linear and non-linear fractional reaction-diffusion equations
Dong An and Konstantina Trivisa, Quantum 10, 1969 (2026). High-dimensional fractional reaction-diffusion equations have numerous applications in the fields of biology, chemistry, and physics, and exhibit a range of rich phenomena. While classical aā¦
https://quantum-journal.org/papers/q-2026-01-19-1969/
about 3 hours ago
0
0
0
Quantum Ramps Achieve Zero-Temperature Universality Class Probing at Finite Temperature Read more: https://quantumzeitgeist.com/quantum-ramps-zero-temperature-universality-class/
loading . . .
Quantum Ramps Achieve Zero-Temperature Universality Class Probing At Finite Temperature
By carefully controlling both temperature and a system parameter during a transition, researchers have demonstrated a method to identify the fundamental characteristics of a zero-temperature quantum phase transition even when the system is at a finite temperature and not in equilibrium, using a model based on the Kitaev wire.
https://quantumzeitgeist.com/quantum-ramps-zero-temperature-universality-class/
about 3 hours ago
0
0
0
Vision-language Alignment Achieves 5% Precision Gains with Multi-Agent Cooperative Learning Read more: https://quantumzeitgeist.com/5-percent-learning-vision-language-alignment-achieves-precision/
loading . . .
Vision-language Alignment Achieves 5% Precision Gains With Multi-Agent Cooperative Learning
A new multi-agent framework improves vision-language modelsā ability to accurately identify novel objects by enabling collaborative communication between image, text, and conceptual representations, resulting in a measurable performance increase on challenging datasets.
https://quantumzeitgeist.com/5-percent-learning-vision-language-alignment-achieves-precision/
about 3 hours ago
0
0
0
Quantum Geometry Advances Rotating Shallow Water Equations with Three Band Descriptions Read more: https://quantumzeitgeist.com/quantum-geometry-advances-rotating-shallow-water/
loading . . .
Quantum Geometry Advances Rotating Shallow Water Equations With Three Band Descriptions
Researchers have developed a new geometric description of ocean and atmospheric wave behaviour, revealing a previously unseen link between wave polarization, geometric phases and measurable properties like rotation, potentially verifiable through laboratory experiments.
https://quantumzeitgeist.com/quantum-geometry-advances-rotating-shallow-water/
about 3 hours ago
0
0
0
Electric Field Orientation Demonstrates Two-Photon Rydberg EIT Amplitude Variations Read more: https://quantumzeitgeist.com/electric-field-orientation-demonstrates-two/
loading . . .
Electric Field Orientation Demonstrates Two-Photon Rydberg EIT Amplitude Variations
Researchers have demonstrated that analysing changes in the strength and frequency of light passing through a special gas can accurately measure the direction and intensity of static electric fields, potentially leading to new electrostatic field sensors.
https://quantumzeitgeist.com/electric-field-orientation-demonstrates-two/
about 3 hours ago
0
0
0
Ehrnavigator Achieves 86% Accuracy in Patient-Level Clinical Question Answering Read more: https://quantumzeitgeist.com/86-percent-accuracy-ehrnavigator-achieves-patient-level-clinical/
loading . . .
Ehrnavigator Achieves 86% Accuracy In Patient-Level Clinical Question Answering
EHRNavigator, a new multi-agent framework, accurately answers complex patient-specific questions directly from electronic health records with 86% accuracy and clinically acceptable speed, representing a significant step towards practical application of artificial intelligence in hospital settings.
https://quantumzeitgeist.com/86-percent-accuracy-ehrnavigator-achieves-patient-level-clinical/
about 3 hours ago
0
0
0
QuProtect R3 Delivers Rapid Crypto-Agility for Cloud and On-Prem Environments Read more: https://quantumzeitgeist.com/qusecure-post-quantum-cryptography-crypto-agility/
loading . . .
QuProtect R3 Delivers Rapid Crypto-Agility For Cloud And On-Prem Environments
QuSecure announced a partnership with NFL legend Darren Sproles to launch a campaign highlighting speed, agility, and protection in cybersecurity. This collaboration showcases how QuProtect R3, the first end-to-end post-quantum security platform, mirrors Sprolesā on-field performance with its rapid cryptographic visibility and agility.
https://quantumzeitgeist.com/qusecure-post-quantum-cryptography-crypto-agility/
about 3 hours ago
0
0
0
Complete Mode Conversion Achieves Deterministic Transfer for Arbitrary Detunings with Recursive Protocol Read more: https://quantumzeitgeist.com/complete-mode-conversion-achieves-deterministic/
loading . . .
Complete Mode Conversion Achieves Deterministic Transfer For Arbitrary Detunings With Recursive Protocol
Researchers have developed a new method using geometric path optimisation to achieve highly efficient and controllable transfer of energy between coupled systems, even when significant energy differences exist, and have demonstrated this by creating a device that allows energy to flow in one direction without magnets.
https://quantumzeitgeist.com/complete-mode-conversion-achieves-deterministic/
about 4 hours ago
0
0
0
SETI Institute Launches Call for $100K Tarter Award Nominations Read more: https://quantumzeitgeist.com/seti-institute-tarter-award-award-nominations/
loading . . .
SETI Institute Launches Call For $100K Tarter Award Nominations
The SETI Institute is accepting nominations for the 2026 Tarter Award, a $100,000 prize recognizing innovative contributions to the search for life and intelligence beyond Earth. Named for SETI pioneer Dr. Jill Tarter, the award honors impactful work across diverse fields that supports the SETI Instituteās mission.
https://quantumzeitgeist.com/seti-institute-tarter-award-award-nominations/
about 4 hours ago
0
0
0
Thermal Fluctuations at to Hz Quench Chaos in Quantum Optics Systems Read more: https://quantumzeitgeist.com/quantum-systems-thermal-fluctuations-quench-chaos-optics/
loading . . .
Thermal Fluctuations At To Hz Quench Chaos In Quantum Optics Systems
Research demonstrates that even everyday thermal noise can eliminate chaotic behaviour in systems operating at specific frequencies, with the threshold for this suppression decreasing as the system becomes more nonlinear and potentially reaching the level of quantum vacuum fluctuations.
https://quantumzeitgeist.com/quantum-systems-thermal-fluctuations-quench-chaos-optics/
about 4 hours ago
0
0
0
University of Chicago Study Turns Crystal Flaws into Quantum Interconnects Read more: https://quantumzeitgeist.com/university-of-chicago-quantum-interconnects/
loading . . .
University Of Chicago Study Turns Crystal Flaws Into Quantum Interconnects
Researchers have discovered that crystal dislocations, previously considered imperfections, can function as powerful building blocks for connecting quantum bits, or qubits. This theoretical study demonstrates that these line defects can attract and potentially enhance the quantum properties of qubits in diamond, offering a route toward scalable solid-state quantum technologies.
https://quantumzeitgeist.com/university-of-chicago-quantum-interconnects/
about 4 hours ago
0
0
0
EeroQ Solves Quantum āWire Problem,ā Enabling Control of 1M Electrons Read more: https://quantumzeitgeist.com/eeroq-quantum-computing-electron-control/
loading . . .
EeroQ Solves Quantum āWire Problem,ā Enabling Control Of 1M Electrons
EeroQ has solved a significant challenge in quantum computing, known as the āwire problem,ā by successfully transporting electrons over long distances on a chip with minimal error. This breakthrough utilizes a novel wiring architecture, enabling control of up to one million electrons with fewer than 50 wires, and removing a major constraint on scalability.
https://quantumzeitgeist.com/eeroq-quantum-computing-electron-control/
about 4 hours ago
0
0
0
WiMiās LCQHNN Achieves High Performance with Four-Layer Quantum Circuit Read more: https://quantumzeitgeist.com/wimi-hologram-quantum-computing-quantum-circuit/
loading . . .
WiMiās LCQHNN Achieves High Performance With Four-Layer Quantum Circuit
WiMi Hologram Cloud has introduced a new Lean Classical-Quantum Hybrid Neural Network (LCQHNN) framework, designed to maximize learning efficiency with a minimized quantum circuit structure. This technology aims to bridge the gap between quantum neural network theory and practical application, balancing performance with real-world implementability.
https://quantumzeitgeist.com/wimi-hologram-quantum-computing-quantum-circuit/
about 4 hours ago
0
0
0
Accuracy Achieved in Roadside Infrastructure Perception Using Vision-Language Models Read more: https://quantumzeitgeist.com/accuracy-models-achieved-roadside-infrastructure-perception-vision/
loading . . .
Accuracy Achieved In Roadside Infrastructure Perception Using Vision-Language Models
A new artificial intelligence framework combines visual learning with engineering standards to reliably assess roadside infrastructure, achieving high accuracy in identifying and interpreting complex details crucial for smart city management.
https://quantumzeitgeist.com/accuracy-models-achieved-roadside-infrastructure-perception-vision/
about 4 hours ago
0
0
0
University of Cincinnati Secures $1.1M Grant to Advance AI Medical Training Read more: https://quantumzeitgeist.com/university-of-cincinnati-ai-ai-training-2/
loading . . .
University Of Cincinnati Secures $1.1M Grant To Advance AI Medical Training
The University of Cincinnati College of Medicine received a $1.1 million grant from the American Medical Association to utilize artificial intelligence, and specifically its 2-Sigma AI platform, for personalized physician training. This project focuses on providing real-time feedback on clinical reasoning and communication skills to enhance the development of medical students, residents, and physicians.
https://quantumzeitgeist.com/university-of-cincinnati-ai-ai-training-2/
about 4 hours ago
0
0
0
Voicesculptor Achieves State-of-the-Art Open-Source Voice Design with Instruction-Following Control Read more: https://quantumzeitgeist.com/voicesculptor-achieves-state-art-open/
loading . . .
Voicesculptor Achieves State-of-the-Art Open-Source Voice Design With Instruction-Following Control
VoiceSculptor is a new open-source system enabling users to create and refine realistic speech by directly instructing the system with natural language to control attributes like pitch, speed, age, and emotion, then transferring this voice to synthesised speech.
https://quantumzeitgeist.com/voicesculptor-achieves-state-art-open/
about 5 hours ago
0
0
0
Realising Continuous Functions Achieves Hydrodynamic Limit with Weierstrass-type Result Read more: https://quantumzeitgeist.com/realising-continuous-functions-achieves-hydrodynamic/
loading . . .
Realising Continuous Functions Achieves Hydrodynamic Limit With Weierstrass-type Result
Researchers have demonstrated that any predictable pattern of change can be modelled using a system of interacting particles, opening new avenues for simulating complex processes with mathematical precision.
https://quantumzeitgeist.com/realising-continuous-functions-achieves-hydrodynamic/
about 5 hours ago
0
0
0
Diffusion Sampling Achieves Polylogarithmic Iteration Complexity for High-Accuracy Results Read more: https://quantumzeitgeist.com/accuracy-results-diffusion-sampling-achieves-polylogarithmic-iteration/
loading . . .
Diffusion Sampling Achieves Polylogarithmic Iteration Complexity For High-Accuracy Results
Researchers have developed a new method for generating complex data samples that significantly reduces the computational steps needed for high accuracy, scaling with the size of the data itself rather than its overall dimensionality.
https://quantumzeitgeist.com/accuracy-results-diffusion-sampling-achieves-polylogarithmic-iteration/
about 5 hours ago
0
0
0
Gpt-2 Achieves Novel Modulation Schemes for Cognitive Radio, Improving Signal-to-Noise Ratio Read more: https://quantumzeitgeist.com/gpt-achieves-modulation-schemes-cognitive/
loading . . .
Gpt-2 Achieves Novel Modulation Schemes For Cognitive Radio, Improving Signal-to-Noise Ratio
Researchers have demonstrated that artificial intelligence, specifically the GPT-2 model, can successfully generate novel wireless communication modulation schemes achieving performance on par with, and sometimes exceeding, traditionally designed methods.
https://quantumzeitgeist.com/gpt-achieves-modulation-schemes-cognitive/
about 5 hours ago
0
0
0
Quantum Bianisotropy Advances Light-Matter Interaction with Magnetoelectric Enhancement Read more: https://quantumzeitgeist.com/quantum-bianisotropy-advances-light-matter-interaction/
loading . . .
Quantum Bianisotropy Advances Light-Matter Interaction With Magnetoelectric Enhancement
Researchers have demonstrated a novel non-Maxwellian electromagnetic field , arising from the combined effects of chirality, magnetoelectric coupling and subwavelength structures , that breaks spacetime symmetry and offers precise control over light-matter interactions.
https://quantumzeitgeist.com/quantum-bianisotropy-advances-light-matter-interaction/
about 6 hours ago
0
0
0
Advances in Deformation Quantization of Symmetric Spaces Using the Retract Method: Results from April 7 Read more: https://quantumzeitgeist.com/results-advances-deformation-quantization-symmetric-spaces/
loading . . .
Advances In Deformation Quantization Of Symmetric Spaces Using The Retract Method: Results From April 7
Researchers have developed a new mathematical method, the Retract Method, to create deformation quantizations , a way of āblurringā classical geometry , for complex spaces like hyperbolic planes and spaces linked to the fundamental forces of physics, potentially enabling advances in theoretical modelling.
https://quantumzeitgeist.com/results-advances-deformation-quantization-symmetric-spaces/
about 6 hours ago
0
0
0
Large Language Models Achieve 90% Success in Autonomous Quantum Simulation Read more: https://quantumzeitgeist.com/90-percent-quantum-models-large-language-success-autonomous-simulation/
loading . . .
Large Language Models Achieve 90% Success In Autonomous Quantum Simulation
Artificial intelligence agents powered by large language models have, for the first time, successfully performed complex tensor network simulations , a feat previously requiring specialist training , with nearly 90% accuracy.
https://quantumzeitgeist.com/90-percent-quantum-models-large-language-success-autonomous-simulation/
about 6 hours ago
0
0
0
Zero Curvature Achieves Optimal Two-Qubit Entanglement Via Hamiltonian Evolution Read more: https://quantumzeitgeist.com/entanglement-zero-curvature-achieves-optimal-two/
loading . . .
Zero Curvature Achieves Optimal Two-Qubit Entanglement Via Hamiltonian Evolution
Research demonstrates that the most efficient quantum state transitions, moving from separable to maximally entangled states, exhibit straight-line pathways with no energy loss and a demonstrably greater initial degree of quantum nonlocality compared to less efficient transitions, particularly when starting from non-orthogonal states.
https://quantumzeitgeist.com/entanglement-zero-curvature-achieves-optimal-two/
about 6 hours ago
0
0
0
Plgc Achieves Label-Free Graph Condensation, Matching Data Statistics Without Ground-Truth Labels Read more: https://quantumzeitgeist.com/plgc-achieves-label-free-graph/
loading . . .
Plgc Achieves Label-Free Graph Condensation, Matching Data Statistics Without Ground-Truth Labels
A new self-learning technique, Pseudo-Labeled Condensation, creates simplified data versions for efficient machine learning without relying on accurate labels, demonstrably improving performance and reliability when data labelling is poor or incomplete.
https://quantumzeitgeist.com/plgc-achieves-label-free-graph/
about 6 hours ago
0
0
0
Sar-atr Achieves Robustness Against Adversarial Examples with Novel Spatial Deformation Technique Read more: https://quantumzeitgeist.com/sar-atr-achieves-robustness-against/
loading . . .
Sar-atr Achieves Robustness Against Adversarial Examples With Novel Spatial Deformation Technique
A new technique successfully creates subtle, yet effective, distortions in synthetic aperture radar images to mislead target recognition systems, improving both the stealth and success rate of adversarial attacks.
https://quantumzeitgeist.com/sar-atr-achieves-robustness-against/
about 7 hours ago
0
0
0
Llm Discovery Advances Vision Models with Non-Standard Channel Priors and Vast Data Generation Read more: https://quantumzeitgeist.com/models-llm-discovery-advances-vision-non/
loading . . .
Llm Discovery Advances Vision Models With Non-Standard Channel Priors And Vast Data Generation
Researchers have demonstrated that a large language model, trained on synthetically generated neural network designs, can effectively optimise network channel configurations to achieve statistically significant improvements in image classification accuracy.
https://quantumzeitgeist.com/models-llm-discovery-advances-vision-non/
about 7 hours ago
0
0
0
The Fermi Paradox, Where Is Everybody? Read more: https://quantumzeitgeist.com/the-fermi-paradox-where-is-everybody/
loading . . .
The Fermi Paradox, Where Is Everybody?
Given the vastness of the universe and the probability of other habitable planets, why havenāt we detected any signs of extraterrestrial life?
https://quantumzeitgeist.com/the-fermi-paradox-where-is-everybody/
about 14 hours ago
0
0
0
Podcast with Jonathan Reiner, Director of Product Solutions, Quantum Machines Read more: https://quantumcomputingreport.com/podcast-with-jonathan-reiner-director-of-product-solutions-quantum-machines/
loading . . .
Podcast with Jonathan Reiner, Director of Product Solutions, Quantum Machines - Quantum Computing Report
Jonathan Reiner is interviewed by Yuval Boger and describes his path from condensed-matter physics to leading the Product Solutions team at Quantum Machines. They discuss the rising complexity of quantum control, customer trends toward fidelity, low-latency compute, and automated calibration,
https://quantumcomputingreport.com/podcast-with-jonathan-reiner-director-of-product-solutions-quantum-machines/
about 22 hours ago
0
0
0
Amera IoT Unveils Quantum-Proof Encryption Backed by 14 US Patents Read more: https://quantumzeitgeist.com/amera-iot-quantum-encryption-quantum-encryption/
loading . . .
Amera IoT Unveils Quantum-Proof Encryption Backed By 14 US Patents
Amera IoT announced AmeraKeyĀ® Encryption, a patented technology offering quantum-proof security for digital communications against current and future threats. Protected by 14 U.S. patents, this innovation uniquely secures data by eliminating the transmission of encryption keys or ciphertext.
https://quantumzeitgeist.com/amera-iot-quantum-encryption-quantum-encryption/
2 days ago
0
0
0
Quobly and TNO Partner to Optimize Silicon Spin Qubit Manufacturing Read more: https://quantumcomputingreport.com/quobly-and-tno-partner-to-optimize-silicon-spin-qubit-manufacturing/
loading . . .
Quobly and TNO Partner to Optimize Silicon Spin Qubit Manufacturing - Quantum Computing Report
Quobly (Grenoble, France) and TNO (Delft, Netherlands) have announced a research collaboration focused on accelerating the industrialization of silicon-based quantum computing. The partnership aims to bridge the gap between device engineering and materials
https://quantumcomputingreport.com/quobly-and-tno-partner-to-optimize-silicon-spin-qubit-manufacturing/
2 days ago
0
0
0
Literacy Research Associationās 76th Conference Adopts Quantum Lens for Innovation Read more: https://quantumzeitgeist.com/literacy-research-association-quantum-lens/
loading . . .
Literacy Research Associationās 76th Conference Adopts Quantum Lens For Innovation
The Literacy Research Associationās 76th Annual Conference will explore āManifesting Quantum Imaginaries,ā inviting scholars to consider innovative, non-linear perspectives on literacy research. This groundbreaking event aims to expand understandings of literacies and reinforce the associationās commitment to disseminating cutting-edge research globally.
https://quantumzeitgeist.com/literacy-research-association-quantum-lens/
2 days ago
0
0
0
DEEPX Named āWhat Not To Missā Exhibitor at CES 2026 for Second Year Read more: https://quantumzeitgeist.com/deepx-ces-2026-ai-ces-exhibitor/
loading . . .
DEEPX Named āWhat Not To Missā Exhibitor At CES 2026 For Second Year
DEEPX has been named a āWhat Not to Missā exhibitor by the Consumer Technology Association (CTA) for CES 2026, recognizing the company as a key player in AI alongside industry leaders like AMD, NVIDIA, and Samsung. This marks the second consecutive year DEEPX has received this distinction, highlighting its role in shaping practical, real-world AI technologies.
https://quantumzeitgeist.com/deepx-ces-2026-ai-ces-exhibitor/
2 days ago
0
0
0
Black Moon Energy Engages JPL for Lunar Helium-3 Mission Read more: https://quantumzeitgeist.com/black-moon-energy-helium-3-lunar-mission/
loading . . .
Black Moon Energy Engages JPL For Lunar Helium-3 Mission
Black Moon Energy Corporation is planning a robotic mission to the Moon to gather data for Helium-3 production, a rare element on Earth but abundant on the lunar surface and considered an ideal fuel for clean fusion energy. The company has engaged the Jet Propulsion Laboratory to oversee the missionās robotic systems and operations.
https://quantumzeitgeist.com/black-moon-energy-helium-3-lunar-mission/
2 days ago
0
0
0
Load more
feeds!
log in
