The gravitational engine described by Bob Lazar can be understood through the principles of thermoacoustic heat engines and acoustic refrigerators, which utilize time dilation and quantum fluctuations to generate propulsion and cooling effects without moving parts.
Foundation models in physics data can revolutionize performance and efficiency.
Foundation models in physics data aim to improve performance and reduce training time.
MDG-ICE method optimizes grid for accurate hypersonic flow simulation.
Robust Variational Physics-Informed Neural Networks provide reliable error estimations in energy norms.
Transforming multidimensional distributions using a normalizing flow for improved simulation accuracy.
Locally-active Mott memristors exhibit complex behaviors crucial for neuromorphic circuits.
Penalty formulation provides a stable and convergent approach for solving nonlinear magnetostatics problems.
Experimental realization of unique bosonic Kitaev chain dynamics.
Using machine learning for particle identification in the ALICE experiment improves accuracy and efficiency.