Discover the role of stability in particle accelerators and its impact on x-ray science.
Suntao Wang, Vardan Khachatryan
― 5 min read
Physics
RSSLearn how plasma wakefield accelerators can transport particles faster in smaller spaces.
N. V. Okhotnikov, K. V. Lotov
― 6 min read
A new method predicts electron beam power profiles using machine learning.
Till Korten, Vladimir Rybnikov, Mathias Vogt
― 5 min read
Exploring the role of muons in understanding quantum entanglement and its implications.
Leyun Gao, Alim Ruzi, Qite Li
― 5 min read
A new model enhances predictions for blowout channels in plasma wakefield accelerators.
Yulong Liu, Ming Zeng, Lars Reichwein
― 4 min read
Research focuses on vacuum loss impacts in liquid helium-cooled particle accelerators.
Yinghe Qi, Wei Guo
― 7 min read
Quasi-polygonal shapes enhance superconducting magnet efficiency in particle accelerators.
Jie Li, Kedong Wang, Kun Zhu
― 6 min read
Discover how laser plasma accelerators speed up electrons for groundbreaking applications.
R. Li, A. Picksley, C. Benedetti
― 7 min read
Study reveals how Q phage adapts to different temperatures via genotype networks.
Luis F Seoane, Henry Secaira-Morocho, Ester Lázaro
― 5 min read
Explore how opinions change and polarize among individuals in social discussions.
Sven Banisch, Joris Wessels
― 6 min read
A look into how brain regions work together and their effects on performance.
Daniel M. Castro, Ernesto P. Raposo, Mauro Copelli
― 7 min read
Exploring how AI can adapt social dynamics to work better with humans.
Michael S. Harré, Jaime Ruiz-Serra, Catherine Drysdale
― 6 min read
A simplified overview of deep learning through deep linear networks.
Govind Menon
― 6 min read
A look into adaptive networks and their role in system stability.
Nina Kastendiek, Jakob Niehues, Robin Delabays
― 5 min read
Study of swarmalators reveals new states in collective movement and interaction.
Gourab Kumar Sar, Kevin O'Keeffe, Dibakar Ghosh
― 6 min read
This article discusses how scientists study heart rhythms and arrhythmias.
Luiz F. B. Caixeta, Matheus H. P. Gonçalves, M. H. R. Tragtenberg
― 7 min read
A study on improving disturbance detection in essential networks.
Jean-Guy Caputo, Adel Hamdi
― 6 min read
Graphene-based detectors improve light absorption and polarization management for advanced imaging.
Valentin Semkin, Aleksandr Shabanov, Kirill Kapralov
― 4 min read
Learn how Quantum Key Distribution keeps digital messages safe.
Arman Sykot, Mohammad Hasibur Rahman, Rifat Tasnim Anannya
― 7 min read
Research reveals promising properties of HfO2 and ZrO2 multilayer films for technology.
Barnik Mandal, Adrian-Marie Philippe, Nathalie Valle
― 5 min read
Discover how diamonds and lasers measure tiny magnetic fields with precision.
Reza Kashtiban, Gavin W. Morley, Mark E. Newton
― 6 min read
Discover how machine learning improves control of magnetic fields in scientific research.
Miguel A. Cascales Sandoval, J. Jurczyk, L. Skoric
― 6 min read
ITO is vital for improving ion traps in quantum technology.
Erik Jansson, Volker Scheuer, Elena Jordan
― 5 min read
How tiny forces shape the movement of nanoparticles in unique environments.
Minggang Luo, Youssef Jeyar, Brahim Guizal
― 6 min read
A look at self-gravitating gas and its role in the cosmos.
Zacharias Roupas
― 7 min read
An exciting look into the supernova SN 2023ixf and its significance.
Maokai Hu, Lifan Wang, Xiaofeng Wang
― 7 min read
Exploring how star explosions shape space and influence magnetic fields.
V. Pelgrims, M. Unger, I. C. Maris
― 5 min read
A look at how cosmic dust contributes to star and planet formation.
Duncan Bossion, Arkaprabha Sarangi, Susanne Aalto
― 6 min read
A look at the fascinating star SU Cygni and its companions.
A. Gallenne, N. R. Evans, P. Kervella
― 7 min read
Analyzing galaxy shapes and brightness using power spectrum from JWST images.
Bruce G. Elmegreen, Angela Adamo, Varun Bajaj
― 5 min read
New research reveals how gas supports star formation in distant galaxies.
Matus Rybak, J. T. Jansen, M. Frias Castillo
― 7 min read
Examining the diverse populations within globular clusters and their formation.
Mirek Giersz, Abbas Askar, Arkadiusz Hypki
― 6 min read
CREDIT empowers researchers to improve weather forecasting using new AI models.
John Schreck, Yingkai Sha, William Chapman
― 6 min read
WeatherGFM offers a flexible model for improved weather forecasting and analysis.
Xiangyu Zhao, Zhiwang Zhou, Wenlong Zhang
― 5 min read
This article simplifies the research on how weather forecast errors develop over time.
Eviatar Bach, Dan Crisan, Michael Ghil
― 5 min read
Deep learning improves climate models by better capturing small ocean processes.
Cem Gultekin, Adam Subel, Cheng Zhang
― 9 min read
Introducing a method to solve complex conservation equations efficiently.
Kenneth Duru, Dougal Stewart, Nathan Lee
― 6 min read
Discover how randomness improves weather predictions and climate understanding.
Martin T. Brolly
― 6 min read
A new method simplifies studying light in complex materials.
Loïc Tran, Benjamin Askenazi, Kevin Vynck
― 8 min read
Learn how moist air impacts weather forecasting with complex equations.
Kieran Ricardo, David Lee, Kenneth Duru
― 6 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
This study presents a new method for calculating energy levels using the Dirac equation.
Ossama Kullie
― 7 min read
A new method simplifies molecule interaction studies, improving efficiency and accuracy.
Qi Yu, Ruitao Ma, Chen Qu
― 5 min read
New research sheds light on how chemical bonds form with the help of superfluid helium.
Michael Stadlhofer, Bernhard Thaler, Pascal Heim
― 5 min read
A new study links chirality and energy transfer, revealing fresh insights in molecular science.
Stefan Yoshi Buhmann, Andreas Hans, Janine C. Franz
― 6 min read
Discover how fragmentation and machine learning transform molecular predictions and applications.
Xiao Zhu, Srinivasan S. Iyengar
― 14 min read
Dive into the intriguing world of Bose-Einstein condensates and their unique properties.
Julian Amette Estrada, Marc E. Brachet, Pablo D. Mininni
― 7 min read
Study reveals how Q phage adapts to different temperatures via genotype networks.
Luis F Seoane, Henry Secaira-Morocho, Ester Lázaro
― 5 min read
MDRefine enhances accuracy of molecular dynamics simulations for scientific research.
Ivan Gilardoni, Valerio Piomponi, Thorben Fröhlking
― 5 min read
Using neural networks to recreate neuron behavior from simple data.
Pavel V. Kuptsov, Nataliya V. Stankevich
― 5 min read
Exploring how microscopic interactions shape material behavior in living organisms.
Tim Dullweber, Roman Belousov, Anna Erzberger
― 7 min read
Uncover how cell behavior is shaped by nucleus stiffness and interactions.
Mattia Miotto, Giancarlo Ruocco, Matteo Paoluzzi
― 7 min read
Exploring the vital functions of chordae tendineae in heart valve mechanics.
Nicolas R. Mangine, Devin W. Laurence, Patricia M. Sabin
― 5 min read
Marine sponge fibers showcase surprising strength despite their size.
Sayaka Kochiyama, Haneesh Kesari
― 5 min read
Examining how cylindrical objects interact in polymer brushes reveals complex behaviors.
Ji Woong Yu, Daeseong Yong, Bae-Yeun Ha
― 6 min read
Researchers discover unique patterns in many-body systems through new cellular automata.
Yusuf Kasim, Tomaž Prosen
― 5 min read
Discover how one-sided interactions shape complex systems and behaviors.
Soumya K. Saha, P. K. Mohanty
― 6 min read
Examining how game rules influence player strategies and outcomes.
Wang Zhijian, Shan Lixia, Yao Qinmei
― 6 min read
A look into how cells produce essential proteins through gene expression.
Mikołaj Rosman, Michał Palczewski, Paweł Pilarczyk
― 7 min read
A look at nonnormal matrices, their properties, and real-world implications.
Saori Morimoto, Makoto Katori, Tomoyuki Shirai
― 5 min read
Learn how scientists measure and analyze extreme events in our world.
Dhiman Das, Arnob Ray, Chittaranjan Hens
― 6 min read
Explore how different shapes in billiards affect ball behavior and energy loss.
Katherine Holmes, Joseph Hall, Eva-Maria Graefe
― 5 min read
Exploring the unpredictable patterns in trapped Bose-Einstein condensates.
Mingshu Zhao
― 7 min read
Explore how ghost states influence dynamic systems and their behavior.
Zheng Zheng, Pierre Beck, Tian Yang
― 5 min read
A look at how timing influences autoresonance and system stability.
Somnath Roy, Mattia Coccolo, Miguel A. F. Sanjuán
― 5 min read
Water exhibits strange behaviors that puzzle scientists and challenge our expectations.
Yuvraj Singh, Mantu Santra, Rakesh S. Singh
― 5 min read
Scientists develop a method to study water behavior in confined areas.
Dil K. Limbu, Nathan London, Md Omar Faruque
― 4 min read
A look into the methods that transform our understanding of quantum interactions.
Bing Gu
― 9 min read
A new method improves calculations for molecular interactions, enhancing efficiency and accuracy.
Yu Hsuan Liang, Xing Zhang, Garnet Kin-Lic Chan
― 6 min read
Scientists merge DMRG and Coupled-Cluster methods to enhance understanding of molecular behavior.
Nicholas Bauman, Libor Veis, Karol Kowalski
― 6 min read
Study reveals intriguing dynamics of neon dimers when exposed to laser energy.
D. Blume, Q. Guan, J. Kruse
― 6 min read
MDRefine enhances accuracy of molecular dynamics simulations for scientific research.
Ivan Gilardoni, Valerio Piomponi, Thorben Fröhlking
― 5 min read
Discover how materials respond to magnetic fields and their technological impact.
Sophia Burger, Stella Stopkowicz, Jürgen Gauss
― 6 min read
A look at how a stretchy pendulum behaves on a spinning Earth.
Borut Jurčič Zlobec
― 6 min read
Exploring the energy costs behind erasing information and the role of Tsallis Entropy.
L. Herrera
― 6 min read
Explore how different shapes in billiards affect ball behavior and energy loss.
Katherine Holmes, Joseph Hall, Eva-Maria Graefe
― 5 min read
Adjusting damping can improve stability in various vibrating systems.
Karlo Lelas
― 6 min read
Scientists use machine learning to control light, opening new possibilities in research.
Shilong Liu, Stéphane Virally, Gabriel Demontigny
― 7 min read
Exploring how curvature impacts particle interactions via lateral van der Waals force.
Alexandre P. Costa, Lucas Queiroz, Danilo T. Alves
― 8 min read
Exploring the impact of adaptable structures on space engineering.
Dominik Dold, Amy Thomas, Nicole Rosi
― 6 min read
A tale of a block's journey through oscillation and damping forces.
Karlo Lelas
― 6 min read
Research on modeling combustion behavior in hybrid rockets for improved safety.
Georgios Georgalis, Alejandro Becerra, Kenneth Budzinski
― 6 min read
New tools help improve the handling of sudden changes in fluid simulations.
Xi Deng, Zhen-hua Jiang, Omar K. Matar
― 6 min read
Research reveals new insights on ceria's role with hydrogen in chemical reactions.
Jared C. Stimac, Nir Goldman
― 3 min read
Molecular MRI methods improve diagnosis and treatment evaluation in healthcare.
Alex Finkelstein, Nikita Vladimirov, Moritz Zaiss
― 5 min read
MDRefine enhances accuracy of molecular dynamics simulations for scientific research.
Ivan Gilardoni, Valerio Piomponi, Thorben Fröhlking
― 5 min read
Discover the role of plasma edge flow in nuclear fusion technology and its implications.
Yifan Wen, Yanbing Zhang, Lei Wu
― 5 min read
Scientists use physics-informed neural networks to improve solutions for phase change equations.
Mustafa Kütük, Hamdullah Yücel
― 6 min read
Exploring how uncertainty impacts machine learning in neutrino physics.
Daniel Douglas, Aashwin Mishra, Daniel Ratner
― 6 min read
A look at self-gravitating gas and its role in the cosmos.
Zacharias Roupas
― 7 min read
Learn how gravitational reheating shapes our early universe and dark matter.
Jaume de Haro, Supriya Pan
― 7 min read
Exploring a new perspective on gravity and its cosmic implications.
Saurya Das, Sourav Sur
― 7 min read
Discover how gravitational lenses reveal hidden cosmic wonders.
Katsuya T. Abe, Masamune Oguri, Simon Birrer
― 7 min read
SAT-MF1 undergoes rigorous tests before its mission in Chile.
Remington G. Gerras, Thomas Alford, Michael J. Randall
― 6 min read
Uncover the mysteries of the galaxy SDSS J0100+1818 and its significance in astronomy.
A. Bolamperti, C. Grillo, G. B. Caminha
― 5 min read
Scientists use gravitational waves to decode cosmic events and explore gravity's secrets.
Nicola Menadeo, Miguel Zumalacárregui
― 7 min read
Jellyfish galaxies reveal secrets of the universe's intracluster medium through their gas tails.
Alessandro Ignesti, Gianfranco Brunetti, Marco Gullieuszik
― 7 min read
A simple approach to accurately predict polymer behavior.
Sebastian Brierley-Croft, Peter D. Olmsted, Peter J. Hine
― 4 min read
A look into how brain regions work together and their effects on performance.
Daniel M. Castro, Ernesto P. Raposo, Mauro Copelli
― 7 min read
Exploring how uncertainty impacts machine learning in neutrino physics.
Daniel Douglas, Aashwin Mishra, Daniel Ratner
― 6 min read
A new method streamlines fitting experimental data for physicists.
Ho Fung Tsoi, Dylan Rankin, Cecile Caillol
― 6 min read
Learn how to uncover system behavior through data patterns and model identification.
Athanasios P. lliopoulos, Evelyn Lunasin, John G. Michopoulos
― 6 min read
Researchers apply machine learning to understand complex wave interactions with materials.
Ekaterina Smolina, Lev Smirnov, Daniel Leykam
― 7 min read
New methods enhance tree species classification using advanced imaging and machine learning techniques.
Colverd Grace, Schade Laura, Takami Jumpei
― 5 min read
LISA will listen to gravitational waves, unveiling cosmic secrets.
Eleonora Castelli, Quentin Baghi, John G. Baker
― 6 min read
A simple approach to accurately predict polymer behavior.
Sebastian Brierley-Croft, Peter D. Olmsted, Peter J. Hine
― 4 min read
Exploring how information behaves in quantum systems and the role of chaos.
Cheryne Jonay, Cathy Li, Tianci Zhou
― 6 min read
A look at how firing rate models explain memory formation and retrieval.
Simone Betteti, Giacomo Baggio, Francesco Bullo
― 7 min read
Investigating how friction affects earthquake behavior through stress and flow dynamics.
Tom W. J. de Geus, Matthieu Wyart
― 6 min read
Active noise enhances generative models for better data creation and accuracy.
Alexandra Lamtyugina, Agnish Kumar Behera, Aditya Nandy
― 6 min read
A study of how different energy levels affect particle behavior.
Danqi Lang, Lorenzo Costigliola, Jeppe C. Dyre
― 7 min read
A look into critical states and their significance in disordered materials.
Tong Liu
― 8 min read
A look into how brain regions work together and their effects on performance.
Daniel M. Castro, Ernesto P. Raposo, Mauro Copelli
― 7 min read
Scientists study distant stars to find their hidden companions, revealing cosmic friendships.
V. Squicciarini, J. Mazoyer, A. -M. Lagrange
― 4 min read
New approaches provide deeper insights into the nature of exoplanets.
Zhixing Liu, Bonan Pu
― 6 min read
M dwarfs are key in understanding planet formation and potential habitability.
Farbod Jahandar, René Doyon, Étienne Artigau
― 6 min read
A look into how HRCCS unveils secrets of distant exoplanet atmospheres.
Arjun B. Savel, Megan Bedell, Eliza M. -R. Kempton
― 6 min read
Discover the changes in Didymos after NASA's groundbreaking mission.
Bojan Novakovic, Marco Fenucci
― 6 min read
Discover how planetesimals impact Earth and contribute to its water sources.
S. I. Ipatov
― 6 min read
TOI-6303b and TOI-6330b expand our understanding of giant planets around M-dwarfs.
Andrew Hotnisky, Shubham Kanodia, Jessica Libby-Roberts
― 4 min read
Learn about the origins and travels of interplanetary dust grains in our solar system.
M. Lin, A. R. Poppe
― 6 min read
An overview of solitons and breathers in nonlinear wave equations.
Liming Ling, Dmitry E. Pelinovsky, Huajie Su
― 6 min read
A look at how charges move in complex systems using the sine-Gordon model.
Frederik Møller, Botond C. Nagy, Márton Kormos
― 6 min read
An overview of the 4-vertex model in statistical physics.
Pete Rigas
― 6 min read
A look into the behaviors of solitons when mixed with randomness.
Manuela Girotti, Tamara Grava, Ken D. T-R McLaughlin
― 7 min read
Exploring the effects of temperature on finite-temperature Fredholm determinants in quantum physics.
Oleksandr Gamayun, Yuri Zhuravlev
― 5 min read
Learn how water waves form and interact over time.
Bo Yang, Jianke Yang
― 5 min read
A look at how massive particles interact in physics.
Dongli Luan, Bo Xue, Huan Liu
― 6 min read
Understanding the Quantum Yang-Baxter Equation and its significance in physics and mathematics.
Marius de Leeuw, Vera Posch
― 6 min read
Scientists reveal how gases behave in rarefied conditions, altering fluid dynamics understanding.
Florian Kogelbauer, Ilya Karlin
― 6 min read
New methods improve blood flow predictions, aiding medical decisions and device designs.
Hunor Csala, Arvind Mohan, Daniel Livescu
― 6 min read
New methods use machine learning to enhance air flow for planes.
Ricard Montalà, Bernat Font, Pol Suárez
― 6 min read
Discover the complex behavior of wakes created by moving cylinders.
Youngjae Kim, Vedasri Godavarthi, Laura Victoria Rolandi
― 6 min read
A guide on simulating fluid flows and improving engineering designs.
Agustina Felipe, Ruben Sevilla, Oubay Hassan
― 6 min read
Learn how scientists model air movement and improve weather predictions.
Tamara A. Tambyah, David Lee, Santiago Badia
― 5 min read
I-GILD offers a simpler approach to studying fluid behavior and enhancing models.
R. Ayoub, M. Oulghelou, P. J Schmid
― 6 min read
Explore the fascinating Leidenfrost effect and how droplets behave on hot surfaces.
René Ledesma-Alonso, Benjamin Lalanne, Jesús Israel Morán-Cortés
― 6 min read
A look into how heat spreads over time in different shapes.
Mark Andrews
― 6 min read
Exploring how finite mathematics reshapes our view of quantum physics.
Felix M. Lev
― 8 min read
Discover recent ideas and research surrounding black holes and their strange behaviors.
Mohammad Ali S. Afshar, Jafar Sadeghi
― 7 min read
A look at self-gravitating gas and its role in the cosmos.
Zacharias Roupas
― 7 min read
SCG offers fresh insights into gravity and cosmic mysteries.
Roberto A Sussman, Sebastian Najera
― 8 min read
Explore the intriguing nature of AdS black holes and their unique properties.
Syed Masood, Said Mikki
― 7 min read
Uncovering the secrets of quark stars and their role in the universe.
Takol Tangphati, İzzet Sakallı, Ayan Banerjee
― 5 min read
Exploring the early universe through light elements and new cosmological models.
Ahmad Sheykhi, Ava Shahbazi
― 5 min read
Learn how gravitational reheating shapes our early universe and dark matter.
Jaume de Haro, Supriya Pan
― 7 min read
Explore how gravitational waves reveal secrets of the universe.
Roger Anderson Hurtado
― 6 min read
Investigating graviton shot noise reveals deeper insights about gravity and its nature.
Viktor T. Toth
― 5 min read
Learn how scientists model air movement and improve weather predictions.
Tamara A. Tambyah, David Lee, Santiago Badia
― 5 min read
A standardized height system aims to unify measurements worldwide.
Asha Vincent, Jürgen Müller, Christian Lisdat
― 8 min read
Learn how satellite technology helps monitor plant health through glow.
Jim Buffat, Miguel Pato, Kevin Alonso
― 5 min read
Key insights into freshwater and saltwater transitions in coastal regions.
Wouter Deleersnyder, David Dudal, Thomas Hermans
― 5 min read
A new model predicts material failure accurately using vast data and advanced techniques.
Agnese Marcato, Javier E. Santos, Aleksandra Pachalieva
― 8 min read
Learn how ocean currents create magnetic signals affecting our climate.
C. C. Finlay, J. Velímský, C. Kloss
― 6 min read
Research on fluid behavior in extreme conditions reveals important insights into turbulence.
Jewel A. Abbate, Yufan Xu, Tobias Vogt
― 5 min read
Scientists enhance volcano monitoring to predict eruptions and protect communities.
Dominik Strutz, Andrew Curtis
― 8 min read
An exciting look into the supernova SN 2023ixf and its significance.
Maokai Hu, Lifan Wang, Xiaofeng Wang
― 7 min read
Exploring how star explosions shape space and influence magnetic fields.
V. Pelgrims, M. Unger, I. C. Maris
― 5 min read
Uncovering the secrets of quark stars and their role in the universe.
Takol Tangphati, İzzet Sakallı, Ayan Banerjee
― 5 min read
Explore how gravitational waves reveal secrets of the universe.
Roger Anderson Hurtado
― 6 min read
Neutron stars reveal secrets through their unique light patterns.
Matthew G. Baring, Hoa Dinh Thi, George A. Younes
― 6 min read
Investigating neutron stars sheds light on modified gravity theories and cosmic mysteries.
J. T. Quartuccio, P. H. R. S. Moraes, G. N. Zeminiani
― 7 min read
Scientists gain insights from SN 2023ixf's radio emissions and mass-loss history.
Yuhei Iwata, Masanori Akimoto, Tomoki Matsuoka
― 7 min read
Accretion disks play a crucial role in the cosmic dance of black holes.
Zifan Tang, Yang Luo, Jian-Min Wang
― 8 min read
Scientists study proton collisions to measure elusive tau neutrinos.
DsTau/NA65 Collaboration
― 6 min read
An overview of methods to improve predictions for Higgs boson behavior.
Thomas Cridge, Lucian A. Harland-Lang, Jamie McGowan
― 6 min read
A look into spin transfer during semi-inclusive deep inelastic scattering.
Xiaoyan Zhao, Zuo-tang Liang, Tianbo Liu
― 8 min read
Discover the fascinating characteristics of mesons and their magnetic moments.
U. Özdem
― 7 min read
Scientists investigate B meson decays to uncover hidden particles and mysteries.
Wolfgang Altmannshofer, Shibasis Roy
― 5 min read
Exploring the significance of heavy flavor production and charmonia in particle collisions.
Raghunath Sahoo
― 6 min read
Scientists study particle interactions to understand CP violation and matter-antimatter imbalance.
Innes Bigaran, Joshua Isaacson, Taegyun Kim
― 6 min read
An overview of the Higgs boson and its relationship with bottom quarks.
Jian Wang, Xing Wang, Yefan Wang
― 6 min read
Investigating muons' behavior in finite volume reveals surprising effects on magnetic moments.
Sakura Itatani, Hidenori Fukaya, Shoji Hashimoto
― 6 min read
Discover the fascinating characteristics of mesons and their magnetic moments.
U. Özdem
― 7 min read
Scientists investigate muons to challenge existing physics concepts and discover new insights.
Genessa Benton, Diogo Boito, Maarten Golterman
― 5 min read
Researchers find ways to better measure entangled quantum particles through filtering techniques.
Avi Kaufman, James Corona, Zane Ozzello
― 5 min read
Researchers propose a new method for defining instantons in lattice Yang-Mills theory.
Peng Zhang, Jing-Yuan Chen
― 5 min read
A look into isospin breaking and its impact on particle physics.
Gabriel López Castro, Alejandro Miranda, Pablo Roig
― 6 min read
Scientists investigate the unique properties of tetraquarks and their interactions.
Ivan Vujmilovic, Sara Collins, Luka Leskovec
― 6 min read
PyQUDA simplifies lattice QCD calculations using Python, enhancing productivity for researchers.
Xiangyu Jiang, Chunjiang Shi, Ying Chen
― 6 min read
Investigating muons' behavior in finite volume reveals surprising effects on magnetic moments.
Sakura Itatani, Hidenori Fukaya, Shoji Hashimoto
― 6 min read
An overview of methods to improve predictions for Higgs boson behavior.
Thomas Cridge, Lucian A. Harland-Lang, Jamie McGowan
― 6 min read
A simple look at how pseudo-gauge transformations help in heavy-ion collisions.
Zbigniew Drogosz, Wojciech Florkowski, Mykhailo Hontarenko
― 8 min read
A look into spin transfer during semi-inclusive deep inelastic scattering.
Xiaoyan Zhao, Zuo-tang Liang, Tianbo Liu
― 8 min read
Exploring how strong electromagnetic fields enable particle creation and their complex interactions.
Patrick Copinger, James P. Edwards, Anton Ilderton
― 7 min read
Discover the fascinating characteristics of mesons and their magnetic moments.
U. Özdem
― 7 min read
Scientists investigate muons to challenge existing physics concepts and discover new insights.
Genessa Benton, Diogo Boito, Maarten Golterman
― 5 min read
Scientists investigate B meson decays to uncover hidden particles and mysteries.
Wolfgang Altmannshofer, Shibasis Roy
― 5 min read
An insightful look into the complexities of two-neutrino double-beta decay in particle physics.
Ovidiu Niţescu, Fedor Šimkovic
― 7 min read
A look into how gauge theories explain forces in nature.
Federico Manzoni
― 6 min read
A look into black holes, entropy, and their complex behaviors.
Yahya Ladghami, Aatifa Bargach, Amine Bouali
― 6 min read
Investigating how small changes affect properties of deformed conformal field theories.
Ruben Monten, Richard M. Myers, Konstantinos Roumpedakis
― 10 min read
Exploring how strong electromagnetic fields enable particle creation and their complex interactions.
Patrick Copinger, James P. Edwards, Anton Ilderton
― 7 min read
Uncovering the secrets of quark stars and their role in the universe.
Takol Tangphati, İzzet Sakallı, Ayan Banerjee
― 5 min read
A look into the basics and implications of string theory.
Dripto Biswas, Igor Pesando
― 7 min read
Exploring the early universe through light elements and new cosmological models.
Ahmad Sheykhi, Ava Shahbazi
― 5 min read
Explore the intriguing world of common causes in quantum physics.
Gábor Hofer-Szabó, Szilárd Szalay
― 6 min read
Remembering Tsung-Dao Lee's impact on particle physics and scientific thought.
Wolfgang Bietenholz
― 7 min read
Exploring the debates around the validity of Newton's third law of motion.
Taha Sochi
― 6 min read
Exploring space and time through the fun lens of pears.
Marcello Poletti
― 6 min read
A look into the contrasting ideas of two physicists on understanding the universe.
Joseph Natal
― 6 min read
Learn how to simplify high-dimensional data through effective model building techniques.
David Peter Wallis Freeborn
― 7 min read
A look at how quantum mechanics influences human decision-making and cognition.
Diederik Aerts, Massimiliano Sassoli de Bianchi, Sandro Sozzo
― 6 min read
A new perspective on complex entanglement using multi-screen approaches.
Christian de Ronde, Raimundo Fernández Mouján, César Massri
― 6 min read
A new method predicts solenoid position and temperature using electrical changes.
Junichi Akita
― 7 min read
CERN's ATLAS experiment enhances particle tracking with new pixel detectors.
Yahya Khwaira
― 6 min read
Enhancing particle detection accuracy through advanced timing materials.
R. Cala', L. Martinazzoli, N. Kratochwil
― 7 min read
A new camera system enhances detection of radioactive waste in nuclear facilities.
Victor Babiano-Suarez, Javier Balibrea-Correa, Ion Ladarescu
― 5 min read
Proton therapy relies on precise monitoring to effectively target cancer cells.
Adélie André, Christophe Hoarau, Yannick Boursier
― 5 min read
FELIX-MROD enhances data handling for ATLAS at CERN, ensuring smooth operations.
Evelin Bakos, Henk Boterenbrood, Mark Dönszelmann
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X-ray radioscopy reveals new insights into gas bubbles in alkaline water electrolyzers.
On-Yu Dung, Stephan Boden, Albertus W. Vreman
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Scientists set strict boundaries on nonlinear effects in quantum mechanics experiments.
Oleksandr Melnychuk, Bianca Giaccone, Nicholas Bornman
― 7 min read
GHOST helps astronomers capture clearer images of the universe by correcting atmospheric distortions.
Byron Engler, Markus Kasper, Serban Leveratto
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Scientists study distant stars to find their hidden companions, revealing cosmic friendships.
V. Squicciarini, J. Mazoyer, A. -M. Lagrange
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Using GPS satellites to improve radio telescope calibration and data collection.
Sabrina Berger, Arianna Lasinski, Eamon Egan
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New approaches provide deeper insights into the nature of exoplanets.
Zhixing Liu, Bonan Pu
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Discover how radio antennas detect cosmic rays and neutrinos in scientific studies.
Mohammad Ful Hossain Seikh
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SAT-MF1 undergoes rigorous tests before its mission in Chile.
Remington G. Gerras, Thomas Alford, Michael J. Randall
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A look into how HRCCS unveils secrets of distant exoplanet atmospheres.
Arjun B. Savel, Megan Bedell, Eliza M. -R. Kempton
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Robust Bayesian methods improve data analysis in astronomy, addressing outliers effectively.
William Martin, Daniel J. Mortlock
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CBCVO showcases unique magnetic behaviors and potential real-world applications.
S. Guchhait, D. V. Ambika, S. Mohanty
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Scientists develop a method to study water behavior in confined areas.
Dil K. Limbu, Nathan London, Md Omar Faruque
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Discover how MnBr could shape the future of electronics.
Yiding Wang, Hanbo Sun, Chao Wu
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Research reveals new insights on ceria's role with hydrogen in chemical reactions.
Jared C. Stimac, Nir Goldman
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A simple approach to accurately predict polymer behavior.
Sebastian Brierley-Croft, Peter D. Olmsted, Peter J. Hine
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Researchers find new ways to improve CsSnI for solar energy applications.
Chadawan Khamdang, Mengen Wang
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Explore the unique properties and potential of CsV Sb superconductors.
Jing-Yang You, Chih-En Hsu, Mauro Del Ben
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Exploring the complex interactions of particles in bilayer honeycomb lattice systems.
Chiranjit Mondal, Rasoul Ghadimi, Bohm-Jung Yang
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A look at Schmidt decomposition and its role in quantum information.
Mithilesh Kumar
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A look into how gauge theories explain forces in nature.
Federico Manzoni
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Discover how loop-decorated maps connect math and physics in understanding complex behaviors.
Emmanuel Kammerer
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Explore the intriguing world of common causes in quantum physics.
Gábor Hofer-Szabó, Szilárd Szalay
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A study on improving disturbance detection in essential networks.
Jean-Guy Caputo, Adel Hamdi
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Scientists reveal how gases behave in rarefied conditions, altering fluid dynamics understanding.
Florian Kogelbauer, Ilya Karlin
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A straightforward take on complex theories connecting quantum mechanics and gravity.
Mingshuai Xu, Haocheng Zhong
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Learn how gravitational reheating shapes our early universe and dark matter.
Jaume de Haro, Supriya Pan
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Molecular MRI methods improve diagnosis and treatment evaluation in healthcare.
Alex Finkelstein, Nikita Vladimirov, Moritz Zaiss
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A new method reveals real-time tissue movement using MRI technology.
D. G. J. Heesterbeek, M. H. C. van Riel, T. van Leeuwen
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Researchers use advanced PET imaging to study multiple tracers simultaneously.
Sarah J Zou, Irene Lim, Jackson W Foster
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Proton therapy relies on precise monitoring to effectively target cancer cells.
Adélie André, Christophe Hoarau, Yannick Boursier
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Using physics-based methods to improve polarimetric imaging accuracy.
Christopher Hahne, Omar Rodriguez-Nunez, Éléa Gros
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A fresh approach to diagnosing Left Ventricular Hypertrophy using innovative techniques.
Wei Tang, Kangning Cui, Raymond H. Chan
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Exploring the vital functions of chordae tendineae in heart valve mechanics.
Nicolas R. Mangine, Devin W. Laurence, Patricia M. Sabin
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A study highlights a new method to analyze brain changes in Alzheimer's patients.
Aurélie Lebrun, Michel Bottlaender, Julien Lagarde
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A look at tiny structures that manipulate light in innovative ways.
Andrea Tognazzi, Paolo Franceschini, Jonas Biechteler
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Discover how MnBr could shape the future of electronics.
Yiding Wang, Hanbo Sun, Chao Wu
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Discover how materials behave uniquely under various forces.
Fang Qin, Ruizhe Shen, Ching Hua Lee
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Discover how tiny particles switch between states in advanced technologies.
Samuel Feldman, Andrey Rogachev
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Graphene-based detectors improve light absorption and polarization management for advanced imaging.
Valentin Semkin, Aleksandr Shabanov, Kirill Kapralov
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Exploring how entropy can influence magnetic interactions for better technology.
William Huddie, Laura Filion, Marjolein Dijkstra
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Exploring how ripples in graphene influence electron behavior and material properties.
M. C. Araújo, A. C. A. Ramos, J. Furtado
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Insulators display unexpected behavior with nonlinear Hall effect under specific conditions.
Wen-Yu He, K. T. Law
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A look into spin transfer during semi-inclusive deep inelastic scattering.
Xiaoyan Zhao, Zuo-tang Liang, Tianbo Liu
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Exploring the significance of heavy flavor production and charmonia in particle collisions.
Raghunath Sahoo
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An overview of how partons transform into hadrons in heavy nuclei environments.
Matias Doradau, Ramiro Tomas Martinez, Rodolfo Sassot
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Scientists embark on a journey to find the elusive X17 particle.
The MEG II collaboration, K. Afanaciev, A. M. Baldini
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Scientists seek insights into particle interactions through the elusive QCD critical end point.
Roy A. Lacey
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Scientists use various techniques to determine the mass of elusive neutrinos.
Larisa A. Thorne
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Learn how protons and nuclear reactions fuel explosive events in space.
A. Lauer-Coles, C. M. Deibel, J. C. Blackmon
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An overview of recent nuclear physics experiments with bromine and selenium isotopes.
M. Spieker, D. Bazin, S. Biswas
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An insightful look into the complexities of two-neutrino double-beta decay in particle physics.
Ovidiu Niţescu, Fedor Šimkovic
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A simple look at how pseudo-gauge transformations help in heavy-ion collisions.
Zbigniew Drogosz, Wojciech Florkowski, Mykhailo Hontarenko
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Study of proton flow reveals insights into nuclear matter under extreme conditions.
Shaowei Lan, Zuowen Liu, Like Liu
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Uncovering the secrets of quark stars and their role in the universe.
Takol Tangphati, İzzet Sakallı, Ayan Banerjee
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Exploring the significance of heavy flavor production and charmonia in particle collisions.
Raghunath Sahoo
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Discover the significance of alpha clusters in atomic structure and reactions.
G. H. Sargsyan, Kazuki Yoshida, Kazuyuki Ogata
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Examining charm quarks helps reveal the nature of matter in heavy-ion collisions.
Taesoo Song, Jiaxing Zhao, Ilia Grishmanovskii
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Scientists study atomic nuclei collisions to uncover fundamental behaviors.
Leonid Shvedov, Stefano Burrello, Maria Colonna
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Scientists enhance the delivery of light in complex materials for medical advancements.
Rohin E. McIntosh, Arthur Goetschy, Nicholas Bender
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A new method reduces backscattering to improve micro-ring cavity performance.
Awanish Pandey, Alex Krasnok
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A look at tiny structures that manipulate light in innovative ways.
Andrea Tognazzi, Paolo Franceschini, Jonas Biechteler
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Discover how light's behavior impacts technology and biology.
Vira R. Besaga, Ivan V. Lopushenko, Oleksii Sieryi
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Exploring how light and matter interact with unique behaviors based on chirality.
D. G. Suárez-Forero, M. Jalali Mehrabad, C. Vega
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Graphene-based detectors improve light absorption and polarization management for advanced imaging.
Valentin Semkin, Aleksandr Shabanov, Kirill Kapralov
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Researchers are using thin-film lithium niobate to improve lasers and communication systems.
Kaixuan Ye, Hanke Feng, Randy te Morsche
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Research into quantum emitters reveals potential for clearer light in technology.
Domitille Gérard, Stéphanie Buil, Jean-Pierre Hermier
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Exploring how light and matter interact with unique behaviors based on chirality.
D. G. Suárez-Forero, M. Jalali Mehrabad, C. Vega
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Research reveals unique electrical behavior in KTaO under varying conditions.
Patrick W. Krantz, Alexander Tyner, Pallab Goswami
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Exploring the fascinating behavior of vortices in superfluid helium and their interactions.
Piotr Z. Stasiak, Yiming Xing, Yousef Alihosseini
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Exploring how light interacts with materials and its implications for technology.
Jungho Mun, Sathwik Bharadwaj, Zubin Jacob
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Kagome metals show promise for future technologies and unique properties.
Brenden R. Ortiz, William R. Meier, Ganesh Pokharel
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AI is reshaping the search for innovative energy materials.
Paolo De Angelis, Giovanni Trezza, Giulio Barletta
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A simple look at the curious world of quantum mechanics and its intriguing behaviors.
Shi Hu, Shihao Li, Meiqing Hu
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Discover the intriguing properties of NiTiO and its potential technological impacts.
Hodaka Kikuchi, Makoto Ozeki, Nobuyuki Kurita
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Understanding waves, modulational instability, and their complex interactions.
D. S. Agafontsev, T. Congy, G. A. El
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Using neural networks to recreate neuron behavior from simple data.
Pavel V. Kuptsov, Nataliya V. Stankevich
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Explore the fascinating world of dusty plasmas and their cosmic significance.
Shatadru Chaudhuri, Shahin Nasrin, Asesh Roy Chowdhury
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An overview of solitons and breathers in nonlinear wave equations.
Liming Ling, Dmitry E. Pelinovsky, Huajie Su
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An exploration of how solitons behave on different surfaces in water.
Guillaume Ricard, Eric Falcon
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A look into unique states of matter and their potential applications.
R. Kusdiantara, H. Susanto, T. F. Adriano
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Explore how ghost states influence dynamic systems and their behavior.
Zheng Zheng, Pierre Beck, Tian Yang
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Uncover the fascinating behaviors in nonlinear non-Hermitian systems and their implications.
C. Yuce
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Learn about quantum entanglement, spins, and their potential applications in technology.
Salomo Cedric Karst, Jürgen Henk
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A guide on improving problem-solving skills in engineering design and physics.
Ravishankar Chatta Subramaniam, Jason W. Morphew, Carina M. Rebello
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An international conference unites African and European researchers in astronomy.
Chris M. Harrison, Leah Morabito
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This article explores AI's potential in grading physics problems in universities.
Ryan Mok, Faraaz Akhtar, Louis Clare
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Transforming the way scientists learn software through innovative online resources.
Gareth A. Tribello, Massimiliano Bonomi, Giovanni Bussi
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The Bloch Cube transforms quantum mechanics into an engaging learning experience.
Jeremy Levy, Chandralekha Singh
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Raspberry Pi-based camera systems make scientific exploration fun and affordable for students worldwide.
John C. Howell, Brian Flores, Juan Javier Naranjo
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Explore the strange world of Schrödinger's cat and quantum mechanics.
Andrea López-Incera, Wolfgang Dür, Stefan Heusler
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An analysis of how social factors shape healthcare interactions.
Al Saqib Majumder
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A look at the shift toward open access publishing in Europe.
Leon Kopitar, Nejc Plohl, Mojca Tancer Verboten
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This study examines the gap between marketing skills taught and those sought by employers.
Maria del Pilar Garcia-Chitiva, Silvana Dakduk, Juan C. Correa
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Exploring how false information affects vaccine trust and community health.
Komal Tanwar, Viney Kumar, Jai Prakash Tripathi
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Explore how opinions change and polarize among individuals in social discussions.
Sven Banisch, Joris Wessels
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Explore what drives behaviors to catch on in social networks.
Allison Wan, Christoph Riedl, David Lazer
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Remembering Tsung-Dao Lee's impact on particle physics and scientific thought.
Wolfgang Bietenholz
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Using data to improve traffic flow and urban mobility in Dakar.
Henock M. Mboko, Mouhamadou A. M. T. Balde, Babacar M. Ndiaye
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Scientists are using lasers to create efficient sources of ion beams for various applications.
Roopendra Singh Rajawat, Tianhong Wang, V. Khudik
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Scientists measure particle movement in the scrape-off layer for fusion energy advancements.
J. M. Losada, O. E. Garcia
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Learn how Landau damping affects energy exchange in plasma systems.
Riccardo Stucchi, Philipp Lauber
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Research on ion temperatures aids fusion energy development.
Y. Damizia, S. Elmore, K. Verhaegh
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Discover the role of plasma edge flow in nuclear fusion technology and its implications.
Yifan Wen, Yanbing Zhang, Lei Wu
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Discover the science behind high-energy photons and their role in particle production.
Daniel Seipt, Mathias Samuelsson, Tom Blackburn
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Explore the fascinating world of dusty plasmas and their cosmic significance.
Shatadru Chaudhuri, Shahin Nasrin, Asesh Roy Chowdhury
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Learn how plasma wakefield accelerators can transport particles faster in smaller spaces.
N. V. Okhotnikov, K. V. Lotov
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Remembering Tsung-Dao Lee's impact on particle physics and scientific thought.
Wolfgang Bietenholz
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Exploring the debates around the validity of Newton's third law of motion.
Taha Sochi
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Exploring the role of muons in understanding quantum entanglement and its implications.
Leyun Gao, Alim Ruzi, Qite Li
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Experts share advancements in solar sails and their future potential.
Elena Ancona, Roman Ya. Kezerashvili
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Discover how quantum teleportation transfers information in a fun way.
Himadri Barman
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Exploring the potential existence of intelligent artificial life beyond Earth.
Shant Baghram
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Studying zombie outbreaks offers insights into human behavior during emergencies.
Sydney Balkovitz, Alyssa Croco, Jake Garda
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Discover how a simple toy reveals the wonders of physics.
Martin Luttmann, Michel Luttmann
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Exploring the interactions of polarons and bipolarons in Bose gases with impurities.
G. A. Domínguez-Castro, L. Santos, L. A. Peña Ardila
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Explore how bosons react to changes in rotation and their fascinating behaviors.
Rhombik Roy, Sunayana Dutta, Ofir E. Alon
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A look into the unique behavior of bosons in Josephson junctions.
Jiadu Lin, Qing-Dong Jiang
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New sensors utilize cold atoms to measure rotation with high accuracy.
Oluwatobi Adeniji, Charles Henry, Stephen Thomas
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Exploring how atoms react to sudden environmental changes in optical lattices.
Subhrajyoti Roy, Rhombik Roy, Andrea Trombettoni
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Exploring the fascinating behaviors of spin-1 BECs and skyrmions.
Arpana Saboo, Soumyadeep Halder, Mithun Thudiyangal
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Study reveals intriguing dynamics of neon dimers when exposed to laser energy.
D. Blume, Q. Guan, J. Kruse
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Explore the role of topological phases in modern physics and their applications.
Yan-Jue Lv, Yang Peng, Yong-Kai Liu
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Wigner tomography helps visualize quantum gates, enhancing understanding of quantum computing.
Amit Devra, Léo Van Damme, Frederik vom Ende
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Explore the role of domino twists in processing quantum information.
Manoj G. Gowda
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Scientists propose innovative techniques to improve quantum entanglement measurement.
Hao-Nan Qiang, Jing-Ling Chen
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Explore quantum entanglement and its effects in technology and science.
Langxuan Chen, Ning Sun, Pengfei Zhang
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A look at Schmidt decomposition and its role in quantum information.
Mithilesh Kumar
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Explore the intriguing world of common causes in quantum physics.
Gábor Hofer-Szabó, Szilárd Szalay
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A look at succinct arguments and their security against quantum threats.
Alessandro Chiesa, Marcel Dall Agnol, Zijing Di
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Explore how bosons react to changes in rotation and their fascinating behaviors.
Rhombik Roy, Sunayana Dutta, Ofir E. Alon
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Water exhibits strange behaviors that puzzle scientists and challenge our expectations.
Yuvraj Singh, Mantu Santra, Rakesh S. Singh
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Examining how tiny squares transition through phases during melting.
Robert Löffler, Lukas Siedentop, Peter Keim
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A simple approach to accurately predict polymer behavior.
Sebastian Brierley-Croft, Peter D. Olmsted, Peter J. Hine
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Explore how tiny particles move and interact in groups.
Ruizhe Yan, Jie Su, Jin Wang
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Investigating how friction affects earthquake behavior through stress and flow dynamics.
Tom W. J. de Geus, Matthieu Wyart
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Exploring how microscopic interactions shape material behavior in living organisms.
Tim Dullweber, Roman Belousov, Anna Erzberger
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Uncover how cell behavior is shaped by nucleus stiffness and interactions.
Mattia Miotto, Giancarlo Ruocco, Matteo Paoluzzi
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A study of how different energy levels affect particle behavior.
Danqi Lang, Lorenzo Costigliola, Jeppe C. Dyre
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Discover the fascinating relationships between star systems and their cosmic interactions.
Yajuan Lei, Guiping Zhou, Liang Wang
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An exciting look into the supernova SN 2023ixf and its significance.
Maokai Hu, Lifan Wang, Xiaofeng Wang
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Scientists study distant stars to find their hidden companions, revealing cosmic friendships.
V. Squicciarini, J. Mazoyer, A. -M. Lagrange
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A look at the fascinating star SU Cygni and its companions.
A. Gallenne, N. R. Evans, P. Kervella
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Investigating neutron stars sheds light on modified gravity theories and cosmic mysteries.
J. T. Quartuccio, P. H. R. S. Moraes, G. N. Zeminiani
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Scientists gain insights from SN 2023ixf's radio emissions and mass-loss history.
Yuhei Iwata, Masanori Akimoto, Tomoki Matsuoka
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Accretion disks play a crucial role in the cosmic dance of black holes.
Zifan Tang, Yang Luo, Jian-Min Wang
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A study on star behavior in low-metallicity galaxy DDO68 reveals new insights.
S. A. Pustilnik, Y. A. Perepelitsyna, A. S. Vinokurov
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Learn how TUMS affect Earth and its technology in unexpected ways.
Primož Kajdič, Xóchitl Blanco-Cano, Lucile Turc
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Ensuring astronaut safety by predicting radiation levels during space missions.
Rutuja Gurav, Elena Massara, Xiaomei Song
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A look into how solar energetic particles are detected and their significance.
S. Dalla, A. Hutchinson, R. A. Hyndman
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A look into the behavior of solar energetic particles during their decay phase.
R. A. Hyndman, S. Dalla, T. Laitinen
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A powerful superstorm caused by solar explosions disrupts technology and creates stunning auroras.
Smitha V. Thampi, Ankush Bhaskar, Prateek Mayank
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New insights reveal unusual particle behavior around Jupiter's moons.
Fan Yang, Xuzhi-Zhou, Ying Liu
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Understanding how particles interact with Earth's magnetic field enhances space weather predictions.
Savvas Raptis, Martin Lindberg, Terry Z. Liu
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A look into coronal mass ejections and their effects on space weather.
Erika Palmerio, Christina Kay, Nada Al-Haddad
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Explore quantum entanglement and its effects in technology and science.
Langxuan Chen, Ning Sun, Pengfei Zhang
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Discover the unique balance between order and randomness in hyperuniform networks.
Eli Newby, Wenlong Shi, Yang Jiao
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Scientists develop a method to study water behavior in confined areas.
Dil K. Limbu, Nathan London, Md Omar Faruque
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Explore the unique interplay of energy and information in quantum thermodynamics.
Toshihiro Yada, Pieter-Jan Stas, Aziza Suleymanzade
― 6 min read
Exploring changes in quantum states due to measurement-induced phase transitions.
Wantao Wang, Shuo Liu, Jiaqiang Li
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Exploring how entropy can influence magnetic interactions for better technology.
William Huddie, Laura Filion, Marjolein Dijkstra
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A look at nonnormal matrices, their properties, and real-world implications.
Saori Morimoto, Makoto Katori, Tomoyuki Shirai
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Discover the key differences between classical and quantum worlds.
Karin Wittmann Wilsmann, Erick R. Castro, Itzhak Roditi
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Discover the odd behaviors of metals at low temperatures.
Anna I. Toth, Andrew D. Huxley
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Explore quantum entanglement and its effects in technology and science.
Langxuan Chen, Ning Sun, Pengfei Zhang
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LuCu(OH)SO offers insights into magnetism and quantum behavior at low temperatures.
Boqiang Li, Xun Chen, Yuqian Zhao
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Cesium superoxide shows fascinating magnetic and electric behaviors in new materials research.
Ryota Ono, Ravi Kaushik, Sergey Artyukhin
― 6 min read
Exploring changes in quantum states due to measurement-induced phase transitions.
Wantao Wang, Shuo Liu, Jiaqiang Li
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Unraveling the secrets of spin fluctuations in high-temperature superconductors.
Griffin Heier, Sergey Y. Savrasov
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Discover how tiny particles switch between states in advanced technologies.
Samuel Feldman, Andrey Rogachev
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A look into thermal broadening and the projective truncation approximation in materials research.
Hu-Wei Jia, Wen-Jun Liu, Yue-Hong Wu
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Explore the unique behaviors of exceptional points in non-Hermitian systems.
Y. T. Wang, R. Wang, X. Z. Zhang
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Unraveling the secrets of spin fluctuations in high-temperature superconductors.
Griffin Heier, Sergey Y. Savrasov
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Discover how tiny particles switch between states in advanced technologies.
Samuel Feldman, Andrey Rogachev
― 6 min read
Explore the unique properties and potential of CsV Sb superconductors.
Jing-Yang You, Chih-En Hsu, Mauro Del Ben
― 6 min read
Researchers investigate Weyl semimetals and their unique superconducting properties.
Enrique Muñoz, Juan Pablo Esparza, José Braun
― 6 min read
Exploring the complex interactions of electrons and phonons in advanced materials.
Julián Faúndez, Rodrigo Alves Fontenele, Sebastião dos Anjos Sousa-Júnior
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A look into Majorana modes and their significance in quantum computing.
R. Seoane Souto, V. V. Baran, M. Nitsch
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A new method improves understanding of electron-phonon interactions in complex materials.
Yanyong Wang, Manuel Engel, Christopher Lane
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