Speaker
Muhammad Asaduzzaman
(University of Iowa)
Description
We consider the two-flavor Gross-Neveu model and compute the real time evolution of probabilities relevant to the calculation of the scattering phase shift with a digital quantum computer. We demonstrate the different intermediate steps of preparing the ground state, preparing a Gaussian wave packet and performing a Quantum Fourier transform on the quantum device. The phase shift is computed from the time-delays measured from normalized probabilities with and without inter-flavor interaction. Calculating the time evolution during the collision process is desirable since it is difficult to get access to asymptotic states after the interaction.
Primary author
Muhammad Asaduzzaman
(University of Iowa)
Co-authors
Dr
Goksu Can Toga
(North Carolina State U)
Simon Catterall
(Syracuse University)
Yannick Meurice
(University of Iowa)
Zheyue Hang
(University of Iowa)
