Explore quantum computing and simulation with atoms in this 54-minute lecture by Christopher Monroe from the University of Maryland. Delve into topics such as quantum computer technologies, two-qubit gate performance, atomic qubits, and quantum entanglement of trapped ions. Learn about Raman sideband spectrum of 171Yb ions, quantum computer optical controllers, and quantum scrambling tests. Discover QAOA generation of TFD states, LONQ benchmark algorithms, and quantum simulations of magnetism. Examine dynamical phase transitions with 50+ qubits and photonic linkage between atomic qubits. Gain insights into the cutting-edge field of quantum devices, including simulation, supremacy, and optimization.
Quantum Computing and Simulation with Atoms
Overview
Syllabus
Quantum Computing with A
A quantum computer differs more from ald
Quantum Computer Technologies Science. Dec
Two-qubit Gate Performance
Atomic Qubit (17lb)
Quantum Entanglement of Trapped lon
Raman Sideband Spectrum of 32 171Yb ions
Quantum Computer Optical Controller
Quantum Scrambling Tests
QAOA generation of TFD state (6 spins)
LONQ benchmark algorithms
Quantum Simulations of Magnetism
Dynamical Phase Transition with 50+ Qubits
Photonic Linkage between Atomic Qubits
Taught by
Simons Institute
