This article explores the advancement of high-speed mid-infrared (MIR) detection using Quantum Cascade Detectors.
Research on trace anomaly in nucleons and pions uncovers mass distribution patterns, crucial for understanding quark binding ...
QLSTM, a hybrid quantum-classical model, excels in stock price prediction, achieving a 50% RMSE reduction and 10% accuracy ...
Scientists have detected the signal from two giant black holes interacting with a cloud of gas in the center of a galaxy for ...
According to a study published in Nature, an international team headed by the University of Geneva (UNIGE) discovered three ...
According to new research from Case Western Reserve University, the oldest galaxies are big and bright, which aligns with an ...
Research on Ryugu samples indicates a faint magnetic field within 3 million years of solar system formation, impacting ...
The field of quantum machine learning, which aims to achieve quantum advantage to outperform classical machine learning, has ...
A new study presents a breakthrough in quantum error correction, enabling scalable quantum systems with fewer qubits and ...
Astronomers have used NASA’s Hubble and James Webb space telescopes to capture unprecedented details of the extensive debris ...
In the constellation Dorado, 49 million light-years from Earth, the barred spiral galaxy NGC 1672 has been imaged by the NASA ...
Neutron stars possess a superfluid core where neutrons flow without resistance. Scientists traditionally relied on complex ...