Discover how fragmentation and machine learning transform molecular predictions and applications.
Xiao Zhu, Srinivasan S. Iyengar
― 14 min read
Cutting edge science explained simply
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
Explore how Koopman autoencoders predict complex system behavior over time.
Dustin Enyeart, Guang Lin
― 6 min read
Femtosecond lasers create plasma waves with exciting potential in technology.
Travis Garrett, Anna Janicek, J. Todd Fayard
― 6 min read
Discover how AI transforms networks for better connectivity and energy efficiency.
Azra Seyyedi, Mahdi Bohlouli, SeyedEhsan Nedaaee Oskoee
― 7 min read
Explore the hidden complexities of fluid dynamics and contact lines.
Andreas Nold, Benjamin D. Goddard, David N. Sibley
― 7 min read
A fresh approach to simulate fermions using qudits enhances quantum research.
Rodolfo Carobene, Stefano Barison, Andrea Giachero
― 5 min read
Learn how FDM simplifies complex equations through grids and variable meshes.
Mário B. Amaro
― 6 min read
Discover how simulations transform research and innovation across various fields.
Martin Thomas Horsch, Fadi Al Machot, Jadran Vrabec
― 6 min read
Discover how the Diffusion Monte Carlo method helps understand particle behavior.
Alfonso Annarelli, Dario Alfè, Andrea Zen
― 5 min read
Discover how researchers steer electron dynamics for advances in technology.
Harish S. Bhat, Hardeep Bassi, Christine M. Isborn
― 6 min read
Explore the unique behavior of compound droplets and their real-world applications.
S M Abdullah Al Mamun, Samaneh Farokhirad
― 6 min read
Learn how different methods improve accuracy in plasma simulations.
Opal Issan, Oleksandr Chapurin, Oleksandr Koshkarov
― 6 min read
Discover how flow influences knotted polymers and their behavior.
Andrey Milchev, Maurice P. Schmitt, Peter Virnau
― 7 min read
A new tool for smarter energy management in Spain.
Cristobal Gallego-Castillo, Marta Victoria
― 6 min read
New programming strategies enhance gas flow simulations efficiency and accuracy.
Yue Zhang, Yufeng Wei, Wenpei Long
― 8 min read
A closer look at operator learning and neural networks for solving complex equations.
Dustin Enyeart, Guang Lin
― 7 min read
Discover the intriguing world of star catenanes and their unique threading properties.
Zahra Ahmadian Dehaghani
― 6 min read
Discover how lipid membranes protect and regulate cell functions.
Amaresh Sahu
― 6 min read
Explore advanced methods for simulating particles in fluids.
Markus Uhlmann, Jos Derksen, Anthony Wachs
― 7 min read
Discover how guided waves transform energy in piezoelectric materials.
Daniel A. Kiefer, Georg Watzl, Katharina Burgholzer
― 6 min read
Discover the exciting properties and applications of M Oenes materials.
Luo Yan, Junchi Liu, Yu-Feng Ding
― 6 min read
Researchers use ray-tracing to study laser effects on plasma.
Abdullah Hyder, Will Fox, Kirill Lezhnin
― 6 min read
Discover how machine learning enhances fluid dynamics simulations for turbulent flows.
Mario Christopher Bedrunka, Tobias Horstmann, Ben Picard
― 8 min read
Explore how discretization affects magnetic behavior in simulations.
Samuel J. R. Holt, Andrea Petrocchi, Martin Lang
― 7 min read
New machine learning models enhance accuracy of binding energy estimations in atomic nuclei.
Ian Bentley, James Tedder, Marwan Gebran
― 7 min read
Discover the intriguing effects of electron beam collisions in particle physics.
W. Zhang, T. Grismayer, L. O. Silva
― 5 min read
Discover how SLLBM improves 3D fluid simulations and its real-world applications.
Philipp Spelten, Dominik Wilde, Mario Christopher Bedrunka
― 5 min read
Unlocking efficiency in decision-making through advanced optimization techniques.
Zi-Song Shen, Feng Pan, Yao Wang
― 6 min read
Discover how NG-RC transforms predictions for complex systems.
Lyudmila Grigoryeva, Hannah Lim Jing Ting, Juan-Pablo Ortega
― 7 min read
New method improves predictions in medical particle transport, speeding up treatments.
Pia Stammer, Tiberiu Burlacu, Niklas Wahl
― 7 min read
Discover how PINTO reshapes solving complex boundary value math problems.
Sumanth Kumar Boya, Deepak Subramani
― 6 min read
Discover the science behind ultra-high temperature ceramics and their applications.
Juan C. Herrera, Laura L. Sandoval, Piyush Kumar
― 8 min read
CHIPS-FF is changing how researchers evaluate material behaviors for semiconductors.
Daniel Wines, Kamal Choudhary
― 7 min read
Explore how MADWAVE3 simulates molecular behaviors and reactions in quantum physics.
Octavio Roncero, Pablo del Mazo-Sevillano
― 7 min read