Quantum Gravity

Matrix quantum mechanics plays various important roles in theoretical physics, such as a holographic description of quantum black …

Quantum mechanics is at the core of our understanding of the subatomic world. Moreover, it is driving a new industry based on quantum …

Can we use quantum computing to answer important questions in quantum field theory? Once we can formulate the problem on a quantum …

Matrix quantum mechanics plays various important roles in theoretical physics, such as a holographic description of quantum black …

We study the two matrix models using deep learning methods and quantum simulations. We benchmark the results against lattice Monte Carlo simulations.

Neural networks enable an important calculation in a popular approach to unifying quantum mechanics with general relativity

Lattice field theories are a useful tool to define gauge theories in their non- perturbative regime. At the same time, the …

Develop Monte Carlo methods for Quantum Gravity via Holography

We study the thermodynamics of the ‘ungauged’ D0-brane matrix model by Monte Carlo simulation. Our results appear to be consistent with the conjecture by Maldacena and Milekhin.

A black hole described in SU(N) gauge theory consists of N D-branes. As a proof of the concept, we perform an explicit calculation in the matrix model dual to the black zero-brane in type IIA string theory. We study the geometry of the black hole in this dual representation using lattice Monte Carlo simulations.