Wed at 1pm we will have a remote talk from Ken Brown about our STAQ
collaboration. This will be a broad overview of work on quantum algorithms
and architectures.
The Thursday physics colloquium (4pm, 10-250) should interest some of us.
It is "Quantum Simulation of Abelian and non-Abelian Gauge Theories" by
Uwe-Jens Wiese.
https://web.mit.edu/physics/events/colloquia.html
Fri at 11am we will have Yi-Xiang Liu from the Cappellaro group speaking at
the group meeting about q simulation. Below are her title & abstract.
Title: High-fidelity Trotter expansions for digital quantum simulation
Abstract:
Quantum simulation promises to address many challenges in fields ranging
from quantum chemistry to material science and high-energy physics, and
could be implemented in noisy intermediate scale quantum devices. A
challenge in building good digital quantum simulators is the fidelity of
the engineered dynamics given a finite set of elementary operations. The
goal of this work is to find a proper ordering of elementary operations
(Trotter expansion), so that they approximate as well as possible the
desired evolution. However, when the quantum system is large, even
calculating one elementary operation is computationally expensive. In this
talk I will introduce a geometric framework for optimizing the order of
operations without considering the details of the operations themselves,
thus achieving computational efficiency. Based on the geometric framework,
I will present two alternative orderings. One has optimal fidelity at a
short time scale, and the other one is robust at a long time scale. Thanks
to the improved fidelity at different time scales, the two different
orderings can form the basis for experimental-constrained digital quantum
simulation.
https://arxiv.org/abs/1903.01654
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