A look into how droplets evaporate and its significance in everyday life.
Faraz Salimnezhad, Hasret Turkeri, Iskender Gokalp
― 5 min read
TorchOptics simplifies simulating light behavior in optical systems for researchers.
Matthew J. Filipovich, A. I. Lvovsky
― 6 min read
Learn how adaptive genetic algorithms help in arranging atomic particles effectively.
Brandon Willnecker, Mervlyn Moodley
― 5 min read
Researchers improve thermal conductivity predictions using innovative machine learning techniques.
L. Klochko, M. d'Aquin, A. Togo
― 6 min read
Discover the blend of quantum computing and fluid dynamics in QLBMs.
Călin Andrei Georgescu, Merel Annelise Schalkers, Matthias Möller
― 5 min read
Scientists improve designs for magnonic devices using advanced algorithms and innovative methods.
Andrey A. Voronov, Marcos Cuervo Santos, Florian Bruckner
― 7 min read
This article explores methods to measure relationships in quantum computing.
Lila Cadi Tazi, David Muñoz Ramo, Alex J. W. Thom
― 5 min read
Discover how different shapes interact through unseen forces.
Aleksandar Borković, Michael H. Gferer, Roger A. Sauer
― 5 min read
Transforming the way scientists learn software through innovative online resources.
Gareth A. Tribello, Massimiliano Bonomi, Giovanni Bussi
― 6 min read
Reforming the Ising model reveals insights into magnetic interactions.
Amirhossein Rezaei, Mahmood Hasani, Alireza Rezaei
― 7 min read
Combining meta-learning and GAMs to enhance PINN solutions for complex equations.
Michail Koumpanakis, Ricardo Vilalta
― 6 min read
Could the Universe be spinning? Scientists explore this intriguing concept.
Balázs Pál, Tze Goh, Gábor Rácz
― 7 min read
A new method simplifies molecule interaction studies, improving efficiency and accuracy.
Qi Yu, Ruitao Ma, Chen Qu
― 5 min read
Discover how multi-agent systems enhance data analysis in cosmology.
Andrew Laverick, Kristen Surrao, Inigo Zubeldia
― 7 min read
Learn about basis set incompleteness errors and how scientists address these in quantum chemistry.
Kousuke Nakano, Benjamin X. Shi, Dario Alfè
― 5 min read
Discover how PAL transforms computer learning through active methods and automation.
Chen Zhou, Marlen Neubert, Yuri Koide
― 6 min read
Researchers improve battery reliability using neural networks and advanced modeling techniques.
Myeong-Su Lee, Jaemin Oh, Dong-Chan Lee
― 7 min read
2-D transistors may change the landscape of modern electronics and computing.
Keshari Nandan, Ateeb Naseer, Amit Agarwal
― 5 min read
New model sheds light on microcrack formation in materials to enhance durability.
Ved Prakash, Upadhyayula M. M. A. Sai Gopal, Sanhita Das
― 6 min read
Discover the role of platelets and the technology predicting their behavior.
Marco Laudato, Luca Manzari, Khemraj Shukla
― 6 min read
Unraveling the complex interactions of spins and light in quantum technology.
Lane G. Gunderman, Troy Borneman, David G. Cory
― 6 min read
Discover the power of bandgap filters and their real-world applications.
Prasanna Salasiya, Bojan B. Guzina
― 5 min read
Revolutionary materials may change the landscape of electronics and quantum computing.
R. Reho, A. R. Botello-Méndez, Zeila Zanolli
― 7 min read
A look into how pedestrians move and interact in crowded spaces.
Pratik Mullick
― 7 min read
Discover how electrostatic interactions shape materials like barium titanate.
Lorenzo Monacelli, Nicola Marzari
― 5 min read
How algorithmic design influences Casimir-Polder forces for advanced technology.
Romuald Kilianski, Claire M. Cisowski, Robert Bennett
― 7 min read
Explore how doped semiconductors transform electrical properties and optical responses.
Antoine Moreau, Émilie Sakat, Jean-Paul Hugonin
― 8 min read
Scientists develop a technique to improve quantum system analysis.
Zhiyan Wang, Zenan Liu, Zhe Wang
― 6 min read
Learn how SPS creates strong materials through innovative techniques.
A. Kumar, Z. Zhang, M. Bambach
― 7 min read
Explore how symbolic regression finds mathematical expressions from data.
L. G. A dos Reis, V. L. P. S. Caminha, T. J. P. Penna
― 5 min read
Researchers unveil innovative methods to understand complex material behavior more effectively.
Andrew Akerson, Aakila Rajan, Kaushik Bhattacharya
― 7 min read
CoMn films present new opportunities in data storage technology.
S. F. Peterson, Y. U. Idzerda
― 6 min read
Explore how modified algorithms help decode chaotic systems like the Lorenz equations.
Andre N. Souza, Simone Silvestri
― 6 min read
Discover how fragmentation and machine learning transform molecular predictions and applications.
Xiao Zhu, Srinivasan S. Iyengar
― 14 min read
Discover how protons move and interact in water at the quantum level.
Debadrita Saha, Philip Richerme, Srinivasan S. Iyengar
― 7 min read
Explore how surfactants influence products from soaps to pharmaceuticals.
Chao Duan, Mu Wang, Ahmad Ghobadi
― 6 min read
Joint Approximate Diagonalization offers better predictions in quantum material behaviors.
Ivan Duchemin, Xavier Blase
― 6 min read
Discover how energy flows in layered fluids and impacts our environment.
Raffaello Foldes, Raffaele Marino, Silvio Sergio Cerri
― 6 min read
A new method that efficiently simplifies complex data for better results.
Kyriakos Flouris, Anna Volokitin, Gustav Bredell
― 7 min read
A new approach combines quantum computing and deep learning to enhance particle simulations.
Ian Lu, Hao Jia, Sebastian Gonzalez
― 5 min read