Conveners
Session 2
- Brian DeMarco (University of Illinois Urbana-Champaign)
I will present recent experiments that simulate several phenomena in nuclear and high-energy physics. This includes of meson scattering [1], string-breaking [2], bubble nucleation across a quantum phase transition [3], and the programming of HaPPY codes related to AdS/CFT holographic duality. These simulations exploit the platform of trapped atomic ions, featuring qubits (spins) with...
In this talk, we present a large-scale quantum simulation of the one-dimensional Fermi-Hubbard model, a paradigmatic fermionic model, on IBM's superconducting quantum computers with over 100 qubits. By developing first-order and second-order optimized Trotterization circuits, we maintain a constant circuit depth in quantum simulation regardless of system size on superconducting quantum...
In this talk, I will examine the conditions under which quantum operations preserve environment-assisted invariance (envariance), a symmetry of entanglement. While envariance has traditionally been studied in the context of local unitary operations, I extend the analysis to include non-unitary local operations. I will show that, to maintain envariance, such operations must admit Kraus...
