Researchers from the University of Denmark and Ruhr University Bochum have made a significant advancement by demonstrating coherent emission by two-photon emitters fabricated in a photonic system. This new development promises to create new opportunities to expedite the use of quantum technology for commercial purposes.| AZoQuantum
John Durcan of IDA Ireland highlights the nation's surge in quantum computing, emphasizing R&D growth, key tech partnerships, and the need for skilled talent.| AZoQuantum
Ben Sheridan of BSI leads the first international quantum technology committee, setting standards for quantum innovation and global collaboration.| AZoQuantum
Markus Müller discusses a new qubit design using rare-earth ions for dense, coherent quantum systems, advancing quantum computing scalability.| AZoQuantum
In a new feature on AZoQuantum, we speak with Associate Professor Kate Brown and Theoretical Physicist Harsh Mathur about their research investigating Modified Newtonian Dynamics and its implications for the Ninth Planet theory.| AZoQuantum
In a new interview feature, AZoQuantum speaks with Dr. Samuli Autti about his new research investigating the tactile sensation of superfluid 3He.| AZoQuantum
Quantum vacuum fluctuations can influence the motion of macroscopic, human-scale objects.| AZoQuantum
The galaxy GLASS-z13 existed when the Universe was just 300 million years old.| AZoQuantum
The magic isotope tin-100 has proved challenging for physicists to investigate. New research may have put scientists on the right track.| AZoQuantum
A novel fraud detection method using quantum computing outperforms classical algorithms, effectively identifying high-risk communities in transaction data.| AZoQuantum
Combining libration and gravity data, researchers propose that Uranian moons may harbor subsurface oceans.| AZoQuantum
Researchers developed and tested a questionnaire on quantum measurement, revealing that two-state teaching methods enhance student comprehension in physics.| AZoQuantum
A study on XYZ particles reveals that multiple states could represent a single resonance, simplifying interpretations of experimental data using lattice QCD.| AZoQuantum
Engineers transformed smartphones into scientific instruments, mapping the ionosphere and enhancing GPS accuracy using real-time data from millions of devices.| AZoQuantum
AlphaQubit, a recurrent-transformer neural network, outperforms state-of-the-art decoders in quantum error correction, enhancing surface code decoding accuracy.| AZoQuantum
The integration of 142 qubits and real-time classical links enhances quantum gate control, marking a significant step in scalable quantum computing.| AZoQuantum
The quantum privacy-preserving range query protocol ensures secure IoT data processing, protecting sensitive information against internal and external threats.| AZoQuantum
Nitrogen-vacancy quantum sensors enable non-invasive, nanoscale measurements in condensed matter studies, revealing insights into material properties.| AZoQuantum
Integrating quantum circuits in 3D CNNs, this research improves blood flow velocity prediction with LSCI, addressing information loss and enhancing performance.| AZoQuantum
Recent studies indicate that the universe may be decaying or expanding more rapidly than expected, raising questions about the Lambda-CDM model and current measurements of the Hubble constant| AZoQuantum
Quantum superposition challenges classical notions of state, playing a crucial role in the development of advanced quantum technologies and their applications.| AZoQuantum
The dissonance observed in black hole ringdown signals has now been resolved, offering new insights into black hole behavior and further supporting the predictions of General Relativity.| AZoQuantum
Microsoft's Majorana 1 chip utilizes a fourth state of matter, enhancing qubit stability and paving the way for scalable, fault-tolerant quantum computing.| AZoQuantum
Dark oxygen, a newly identified form of oxygen, raises questions about life in extreme environments and its implications for astrobiology and space exploration.| AZoQuantum
Fractional excitons in bilayer graphene systems provide new perspectives on quantum interactions, crucial for developing next-generation quantum materials.| AZoQuantum
Quantum Field Theory provides a sophisticated framework for understanding particle interactions, influencing both theoretical and applied physics domains.| AZoQuantum
Understanding quantum tunneling is key to modern physics, explaining how particles traverse energy barriers and driving various scientific advancements.| AZoQuantum
Researchers found that unmelted primitive asteroids contributed significantly to Earth's volatile elements, including zinc.| AZoQuantum
The Electrojet Zeeman Imaging Explorer (EZIE) mission aims to map auroral electrojets, improving scientific models of space weather and magnetospheric physics.| AZoQuantum
Recent advancements in plasma research reveal critical insights into instabilities, enhancing nuclear fusion efficiency and applications in various industries.| AZoQuantum
Quantum computing is paving the way to a new era of financial systems which will make portfolio management, payment systems, and risk management a lot easier - but could come at a safety cost.| AZoQuantum
NASA's Parker Solar Probe conducts groundbreaking studies of the Sun, revealing insights into solar winds and space weather with unprecedented close-up data.| AZoQuantum
Quantum space communication advances with QKD, offering advanced security against hacking, promising a future of highly secure global networks.| AZoQuantum
Qubit instability poses a challenge for quantum computing, but quantum error correction offers promising solutions.| AZoQuantum
New research advances high-temperature superconductors, creating a switchable superconducting diode, key for quantum computing.| AZoQuantum
Japan accelerates in quantum technology, focusing on qubit control and applications in computing, sensing, and communications to compete globally.| AZoQuantum
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This article talks about what you would see inside of a black hole.| AZoQuantum
New infrared observations of Sagittarius A* uncover flaring activity in its accretion disk, advancing knowledge of black holes and their role in the universe.| AZoQuantum
This study suggests that Mars' missing atmosphere might be stored in its clay-rich crust. This discovery offers new insights into Mars' atmospheric history and future resource utilization for space missions.| AZoQuantum
What is NASA bringing home from Mars with its Sample Return Mission?| AZoQuantum
Quantum geometry is a crucial area of research in the theory of quantum information, and it deals with geometrical forms in the space of quantum states.| AZoQuantum
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X-ray emission (XES), otherwise known as X-ray fluorescence (XRF), is a powerful tool used for the identification of elements in compounds.| AZoQuantum
Using a revolutionary NASA telescope, astronomers have discovered a remarkably Earth-like world orbiting in the habitable zone of a distant red dwarf star.| AZoQuantum
The race is on for nations to establish themselves at the forefront of the quantum revolution, with academic, federal, and private investments of time, resources, and brainpower flooding into the field. One country that is well on the way to marking itself as a world leader in quantum technology is the Netherlands.| AZoQuantum
The most powerful telescope ever devised zoomed in on the dynamic star-forming region NGC 346 for a clue as to how stars were born in the early universe.| AZoQuantum
New data from the JWST has provided insights into the atmospheric composition of the exoplanet WASP-39B. What does this breakthrough mean for our understanding of other worlds and our search for life elsewhere in the universe?| AZoQuantum
The transference of quantum keys via satellites will provide the cybersecurity breakthrough of the future.| AZoQuantum
Quantum gravimetry revolutionizes precision measurement, enhancing gravitational field accuracy for advancements in physics and engineering applications.| AZoQuantum
This article explores the evolution, principles, applications, and future prospects of quantum computing processors.| AZoQuantum
Quantum teleportation, which enables the non-local communication of an unknown quantum state, remains one of the most significant protocols in quantum information and quantum technology nearly thirty years after it was first proposed.| AZoQuantum
Exploring Electronic Band Structure with ARPES and HREELS| AZoQuantum
Exploring the potential of 2D quantum materials like graphene and TMDCs for advanced applications in quantum computing and electronics.| AZoQuantum
In a new study published in the journal Nature Materials, scientists have demonstrated new quantum materials based on the emerging physical phenomenon called Berry curvature.| AZoQuantum
Stars serve as laboratories for the nuclear reactions that control their fundamental behavior within the vastness of the cosmos. A vital astronomical process called nucleosynthesis shapes the development of chemical elements within stars during their life cycle, dramatically affecting the universe's composition.| AZoQuantum
Modern imaging systems are no longer limited by the quality of the technology itself but rather by the fundamental laws of physics. However, the emerging field of quantum imaging offers a promising solution to overcome these limitations through subwavelength resolution, sub-shot-noise, and interaction-free imaging.| AZoQuantum
The universe is expanding, and it is doing so at an accelerating rate. However, lingering questions about universal expansion do remain. Assistant Professor of Theoretical Physics at the University of Geneva, Lucas Lombriser, has put forward an extraordinary suggestion.| AZoQuantum
The Quantum Economic Development Consortium (QED-C) fosters collaboration to advance the quantum economy, focusing on technology gaps and workforce development.| AZoQuantum
NetSfere integrates cutting-edge ML-KEM encryption, providing a quantum-resistant communication platform that meets strict compliance and performance standards.| AZoQuantum
In this interview, Scott Genin highlights the impact of quantum simulations on materials discovery and the advancements needed for scalability.| AZoQuantum
QEPNT Hub develops quantum-enabled navigation technologies, addressing GNSS vulnerabilities and enhancing resilience for national security and various sectors.| AZoQuantum
QuEra leads in neutral-atom quantum computing, offering scalable, reconfigurable qubits that enhance algorithm efficiency and error correction capabilities.| AZoQuantum
Catherine Yokan from NMIS discusses her work on advanced composites, addressing challenges in aerospace manufacturing and Scotland's growing space industry.| AZoQuantum
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Utilizing quantum mechanics, quantum networks enable secure communication and distributed computing, paving the way for innovative technological advancements.| AZoQuantum
Even relatively simple systems require enormous amounts of computing power to study, and our conventional tools can’t answer the questions we have about the quantum world. Researchers have now turned to quantum simulators, programmable quantum devices that can be used to model to quantum mechanics.| AZoQuantum
Quantum Information Science merges quantum mechanics with information theory, revolutionizing data processing, encryption, and computing across industries.| AZoQuantum
Quantum cryptography offers superior data protection through innovative encryption techniques, ensuring secure communication in an increasingly digital world.| AZoQuantum
Artificial intelligence (AI) is transforming numerous industries, and space exploration is no exception. As we venture deeper into the cosmos, AI becomes more critical in overcoming the challenges of long communication lags, handling massive datasets, and enabling autonomous robotic planetary exploration systems.| AZoQuantum
Gravitational waves, tiny ripples in spacetime that Einstein believed are too faint ever to be detected, are revolutionizing both our understanding and our view of the cosmos.| AZoQuantum
Over a century ago, Albert Einstein suggested a revolutionary theory of gravity that still astounds researchers with its accuracy.| AZoQuantum
Just weeks into its mission the $10 billion space telescope is delivering stunning science and spectacular images.| AZoQuantum
AZoQuantum talks to Dr. Sunny Vagnozzi, a researcher at the University of Cambridge, about his work relating to the direct detection of dark energy.| AZoQuantum
Quantum chemistry integrates quantum principles to analyze chemical interactions, paving the way for innovations in nanotechnology and computational chemistry.| AZoQuantum
New research challenges the meteorite hypothesis, suggesting Earth's water may be native, originating from the solar nebula rather than asteroidal impacts.| AZoQuantum
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One of the most important objections to the interpretation of quantum mechanics (Copenhagen interpretation) is the EPR paradox, which was proposed by Einstein, Podolsky and Rosen.| AZoQuantum
Quantum computing enhances AI by speeding up data processing, improving machine learning, and solving complex optimization problems.| AZoQuantum
Ahead of the International Day of Women and Girls in Science, AZoQuantum spoke with Jennifer Choy, an assistant professor at the University of Wisconsin-Madison, about the field of quantum physics and her impressive research career in this sector.| AZoQuantum
The discovery points to a vast subsurface fracture network that may be more habitable for microbial life than the harsh Martian surface.| AZoQuantum
AZoQuantum speaks with Dr. Ashley King about the Winchcombe meteorite that landed in Gloucestershire, England, in 2021. Now, new research has demonstrated how this carbonaceous chondrite meteorite is answering questions as to the origins of our oceans and life itself here on Earth.| AZoQuantum
Cosmic ray research spanning a century has led us to a new era where these rays hold the potential to shed light on unresolved topics such as dark matter and dark energy, thanks to their energies surpassing those achievable by accelerators on Earth.| AZoQuantum
Similar to an electron in structure, a neutrino is a subatomic particle with a very small mass and no electrical charge. The most abundant mass-containing particles in the universe are neutrinos.| AZoQuantum
The principles of quantum mechanics are revolutionizing technology, impacting electronics, medicine, and information security through innovative applications.| AZoQuantum
Quantum materials research leverages advanced nanoscale techniques to uncover properties essential for innovations in quantum computing and energy efficiency.| AZoQuantum
An estimated 85% of the universe's constituents are assumed to be made up of dark matter, a hypothetical type of matter. Dark matter is entirely invisible. Since it doesn't emit any light or energy, ordinary sensors and detectors are unable to pick it up.| AZoQuantum
The XENON1T experiment designed to detect dark matter may have detected dark energy instead.| AZoQuantum
AZoQuantum spoke to Matthew Walker, associate professor of astrophysics and cosmology at Carnegie Mellon University, about the James Webb Telescope and the dark matter research that hopes to draw on its findings.| AZoQuantum
Researchers from NASA and NOAA confirmed that the Sun has reached its maximum solar cycle, expected to last another year. This phase increases solar activity, affecting space weather, satellite operations, and communication systems, with the Parker Solar Probe mission providing valuable data on solar storms.| AZoQuantum
Exploring quantum physics' role in enhancing solar cell efficiency, focusing on Perovskite Quantum Dots and inter-subband transitions.| AZoQuantum
Quantum Error Correction is vital for reliable quantum computing, addressing qubit errors due to noise and decoherence.| AZoQuantum
The map of the observable universe doesn’t just allow users to travel through space, it lets them look back to the dawn of the cosmos.| AZoQuantum
Harnessing quantum mechanics, quantum computing uses qubits to perform calculations, offering solutions to problems beyond the reach of classical computing.| AZoQuantum
The weakly interacting “ghost particles” were created in the Large Hadron Collider, the world’s most powerful particle accelerator.| AZoQuantum
Catalina Curceanu emphasizes the need for gender parity in science, discussing the role of women in advancing quantum research and addressing systemic barriers.| AZoQuantum