Visualization of a quantum field theory calculation showing virtual particles in the quantum vacuum. ... that curved space is continuous, just like any other field.

Perhaps a quantum theory of gravity will remove the need for a minimum length scale in all quantum calculations. DE CARVALHO, VANUILDO S. ET AL. NUCL.PHYS. B875 (2013) 738-756 ...

Now, scientists in Finland report they’ve accomplished something that has flummoxed generations: a quantum field theory of gravity, mathematically consistent and structurally continuous with the ...

More information: L. Wang et al, Diffusion models as stochastic quantization in lattice field theory, Journal of High Energy ...

Without such a theory, physicists cannot reconcile our two most powerful theories, quantum field theory and general relativity. Quantum theory describes the world of the very small—tiny ...

Quantum Entanglement is the biggest mystery of science that could upend life as we know it, and explaining it is an unlikely but fascinating theory writes Satyen K. Bordoloi. It is the stuff of ...

The quantum field theory framework needed some adjustment for Borinsky and Vogtmann to get the right count. For instance, in quantum field theory, two graphs that are mirror images of each other are ...

A new physics paper takes a step toward creating a long-sought "theory of everything" by uniting gravity with the quantum world. However, the new theory remains far from being proven observationally.

This theory merges classical field theory, quantum mechanics, and special relativity. It explains how particles interact through gauge fields—mathematical constructs that ensure the symmetries ...

A key feature of Bianconi’s entropy-based theory is that the cosmological constant is actually not constant, but dependent on the G-field. Hence, a key feature of the G-field is that it might provide ...

Without such a theory, physicists cannot reconcile our two most powerful theories, quantum field theory and general relativity. Quantum theory describes the world of the very small -- tiny ...