A simulation of false vacuum decay using a quantum annealer False vacuum decay is a process of fundamental importance in quantum field theory. Here, a 5,564-qubit quantum annealer is used to simulate the dynam
Strongly interacting Meissner phases in large bosonic flux ladders The quantum simulation of driven, strongly correlated phases at large scales is challenging, primarily due to detrimental heating effects. Now, a large-scale interacting Mott–Meissner phase has been realized in a neutral atom quantum ...
Such probabilitydistributions (such as the so鈥恈alled "canonical" distribution characterizing the equilibrium state of matter at agiven temperatureand volume) are the basic objects of statistical thermodynamics. While the latter field of physics provides aconvenient formal framework, it doesin most ...
MATLAB and Simulink provide an integrated approach for hardware code generation, data acquisition, real-time simulation and testing, and data analysis. Physicists choose these products to: Develop simulation algorithms and share transparent codes Control and acquire data from instruments in real-time ...
Another alternative is entropy-maximizing models, which analyze the most likely state of a system by drawing upon concepts of entropy in thermodynamics and information theory. They were developed in the late 1960s by Alan Wilson who treated movements of people and objects in the manner in which ...
Applied Mathematics (in general),Thermodynamics, Fluid Dynamics and Statistical Physics Event website: https://www.icms.org.uk/ThroughMixing 2 COMPUMAG 2025 — The 24th International Conference on the Computation of Electromagnetic Fields 22 Jun 2025 - 26 Jun 2025 • Naples, Italy ...
In this work, a fast method for CCP fluid simulation based on the framework of Multi-physics Analysis of Plasma Sources (MAPS) is developed, which includes a multi-time-step explicit upwind scheme to solve electron fluid equations, a semi-implicit scheme and an iterative method with in-phase...
Each simulation contains everything a student needsto conduct virtual physics experiments in: Kinematics and Dynamics Thermodynamics Electricity Light and Sound With more than 60 simulations, Polyhedron Physics can easily cover an entire year of physics labs. ...
The summer school aims to expose participants to formal methods that can facilitate principled scientific discovery. The school will cover some of the basic automated statistical inference (in the form of machine learning techniques) and reasoning methods that are commonly used in scientific discovery,...
All of these aspects are critical in fracture mechanics problems, where, on the one hand, only little experimental data are available or are expensive to generate, and, on the other hand, high demands on the accuracy and reliability of models and simulation results are required due to safety ...