Publications by authors named "Liam Bernheimer"
Article Synopsis
- * The stochastic representation of wavefunctions (SRW) is a new method that addresses the stability issues of optimization in these systems but still has limitations in utilizing certain machine learning models.
- * Combining SRW with path integral techniques presents a novel approach that addresses these limitations and is demonstrated on interacting particles, providing insights into the balance between symmetry breaking and delocalization in closed-shell systems.
The quantum many-body problem is ultimately a curse of dimensionality: the state of a system with many particles is determined by a function with many dimensions, which rapidly becomes difficult to efficiently store, evaluate and manipulate numerically. On the other hand, modern machine learning models like deep neural networks can express highly correlated functions in extremely large-dimensional spaces, including those describing quantum mechanical problems. We show that if one represents wavefunctions as a stochastically generated set of sample points, the problem of finding ground states can be reduced to one where the most technically challenging step is that of performing regression-a standard supervised learning task.
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