Discover the intriguing world of vortex states in quantum physics.
Lingran Kong, Tianyou Gao, Shi-Guo Peng
― 5 min read
Scientists use laser pulses to observe fast-moving electrons and uncover material properties.
Jun Wang, Zhaoheng Guo, Erik Isele
― 8 min read
Explore how parity violation affects molecular behavior and measurements.
Ayaki Sunaga
― 7 min read
Atoms interact with Chern insulators, leading to attraction or repulsion without touch.
Bing-Sui Lu
― 6 min read
Discover the science behind atomic clocks and their remarkable accuracy.
E. A. Tsygankov, D. S. Chuchelov, M. I. Vaskovskaya
― 6 min read
A look into the behaviors of molecular hydrogen and its significance in science.
I. Doran, M. Beyer, F. Merkt
― 5 min read
Scientists use sunlight to cool single atoms, opening doors to new technologies.
Amanda Younes, Randall Putnam, Paul Hamilton
― 4 min read
Explore the unique behaviors of Rydberg atoms and their fascinating interactions.
Yuechun Jiao, Yu Zhang, Jingxu Bai
― 7 min read
A look at dipole polarizabilities and their significance in heavy elements.
YingXing Cheng
― 5 min read
Scientists use molecular ions to shed light on quantum computing.
Lu Qi, Evan C. Reed, Boyan Yu
― 6 min read
Exploring the unique properties of Rydberg atoms and their role in light manipulation.
Lei Huang, Peng-fei Wang, Han-xiao Zhang
― 6 min read
Exploring the interactions of muonium with light and its significance in physics.
V. I. Korobov, F. A. Martynenko, A. P. Martynenko
― 5 min read
Discover how Yb atoms enhance quantum computer performance through high-fidelity gates.
J. A. Muniz, M. Stone, D. T. Stack
― 8 min read
Explore how transition metals interact with fast-moving particles and the role of d-electrons.
J. P. Peralta, A. M. P. Mendez, D. M. Mitnik
― 5 min read
A look into how quantum mechanics sharpens our sensing capabilities.
Bryce Kobrin, Thomas Schuster, Maxwell Block
― 7 min read
Researchers improve trapped-ion qubits to minimize errors in quantum computing.
A. Quinn, G. J. Gregory, I. D. Moore
― 6 min read
Scientists investigate how atoms form molecules at ultracold temperatures.
Robert C. Bird, Jeremy M. Hutson
― 7 min read
These models are key for studying materials and their magnetic properties.
Aditya Dubey, Zeki Zeybek, Fabian Köhler
― 6 min read
Discover the unpredictable energy loss of excited CO molecules.
M. Weller, G. Kastirke, J. Rist
― 7 min read
A groundbreaking tool captures magnetic fields with Ytterbium atoms and laser technology.
Tanaporn Na Narong, Hongquan Li, Joshua Tong
― 6 min read
Discover how atomic clocks measure time with unmatched precision.
Jungeng Zhou, Jiahao Huang, Jinye Wei
― 5 min read
Van der Waals molecules play a key role in various scientific fields.
Jing-Lun Li, Paul S. Julienne, Johannes Hecker Denschlag
― 8 min read
Scientists investigate nuclear isomers in solid materials for precise timekeeping and sensing devices.
H. W. T. Morgan, H. B. Tran Tan, R. Elwell
― 6 min read
Kilonovae create heavy elements, providing clues about the universe and its history.
Nanae Domoto, Shinya Wanajo, Masaomi Tanaka
― 6 min read
Study reveals long-lived breathing modes in ultra-cold fermionic gases.
Dali Sun, Jing Min, Xiangchuan Yan
― 7 min read
A look into how light behaves in certain materials and its practical applications.
Muzamil Shah, Shahid Qamar, Muhammad Waseem
― 7 min read
A look into the relationship between quantum behavior and classical orbits of hydrogen atoms.
Yixuan Yin, Tiantian Wang, Biao Wu
― 7 min read
Exploring how photons behave during two-photon electron capture events with uranium ions.
K. N. Lyashchenko, O. Yu. Andreev, D. Yu
― 7 min read
Exploring unique pear-shaped nuclei and their impact on fundamental physics.
V. V. Flambaum, A. J. Mansour
― 9 min read
Scientists use Ramsey-Doppler spectroscopy to study unique atoms and test fundamental theories.
Evans Javary, Edward Thorpe-Woods, Irene Cortinovis
― 8 min read
Discover how chaotic interactions shape fluid behavior in superfluids and classical fluids.
Yanda Geng, Junheng Tao, Mingshu Zhao
― 8 min read
Exploring the fascinating world of quantum interference and ultracold atomic collisions.
Ting Xie, Chuan-Cun Shu
― 5 min read
Explore how Fano resonance enhances extreme ultraviolet generation with helium atoms.
S. A. Bondarenko, V. V. Strelkov
― 8 min read
Explore the fascinating world of particle scattering and its complex behaviors.
V. A. Gradusov, S. L. Yakovlev
― 6 min read
Uncover the fascinating world of muonic three-particle systems and their interactions.
A. V. Eskin, V. I. Korobov, A. P. Martynenko
― 5 min read
How algorithmic design influences Casimir-Polder forces for advanced technology.
Romuald Kilianski, Claire M. Cisowski, Robert Bennett
― 7 min read
Discover the role of self-energy corrections in hydrogen-like ions.
M. G. Kozlov, M. Y. Kaygorodov, Yu. A. Demidov
― 8 min read
A new non-invasive method using quantum optics transforms electron beam analysis.
Nicolas DeStefano, Saeed Pegahan, Aneesh Ramaswamy
― 7 min read
Scientists study hydrogen ions to reveal cosmic chemical processes.
Miguel Jiménez-Redondo, Olli Sipilä, Pavol Jusko
― 7 min read
Learn how PDH techniques stabilize laser frequencies for greater precision.
Wance Wang, Sarthak Subhankar, Joseph W. Britton
― 7 min read