Siddhartha Harmalkar scite author profile

Simulations of gauge theories on quantum computers require the digitization of continuous field variables. Digitization schemes that uses the minimum amount of qubits are desirable. We present a practical scheme for digitizing SU (3) gauge theories via its discrete subgroup S(1080). The S(1080) standard Wilson action cannot be used since a phase transition occurs as the coupling is decreased, well before the scaling regime. We proposed a modified action that allows simulations in the scaling window and carry out classical Monte Carlo calculations down to lattice spacings of order a ≈ 0.08 fm. We compute a set of observables with sub-percent precision at multiple lattice spacings and show that the continuum extrapolated value agrees with the full SU (3) results. This suggests that this digitization scheme provides sufficient precision for NISQ-era QCD simulations.

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Adinkras from ordered quartets of BC4 Coxeter group elements and regarding 1,358,954,496 matrix elements of the Gadget

Gates

Guyton

Harmalkar

et al. 2017

J. High Energ. Phys.

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On the four-dimensional holoraumy of the 4D, 𝒩 = 1 complex linear supermultiplet

Caldwell

Diaz

Friend

et al. 2018

Int. J. Mod. Phys. A

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