Universal control using the quantum Zeno effect Abstract: The Zeno effect occurs in quantum systems when a very strong measurement is applied, which can alter the dynamics in non-trivial ways. Despite being dissipative, the measurement divides the Hilbert space into… Read More »Universal control using the quantum Zeno effect
An overview and implementation of the key ideas from the 2021 quantum machine learning paper Estimating the gradient and higher-order derivatives on quantum hardware with Rensselaer Polytechnic Institute student Owen Lockwood.
Andrea Mari talks about Digital Error Mitigation with Mitiq Notebook: https://github.com/unitaryfund/research/blob/main/nepec/mitiq-qiskit-pec-nepec/mitiq-qiskit-zne-pec-nepec.ipynb In this presentation, I will give an overview of the 3 main error mitigation techniques that are currently supported in Mitiq: digital zero-noise extrapolation, probabilistic error cancellation, and Clifford… Read More »Digital Error Mitigation with Mitiq
IBM has created the world’s largest superconducting quantum computer, surpassing the size of state of the art machines from Google and Chinese researchers. Previous devices have demonstrated up to 60 superconducting qubits working together to solve problems, but IBM’s new… Read More »IBM creates largest ever superconducting quantum computer
Check out this talk by Daniel Slichter Trapped atomic ions are a leading quantum platform, offering excellent coherence properties, high-fidelity qubit control and readout, and reconfigurable qubit connectivity. Qubit state control is typically performed using laser beams delivered to the… Read More »Integrating the Trapped Ion Quantum Processor
In this video, Juan G Mendoza, who did his graduation with degrees in Computer Science and Physics and a certificate in Quantum Information, explains what you need to know about quantum computing. Juan is currently pursuing a Ph.D. in physics… Read More »Everything You need to know about Quantum Computing
In this presentation, John Teufel explores how to interface quantum circuits with RF photonics. From the early days of superconducting qubits, one of their most attractive attributes was the inherent scalability of nanofabricated quantum circuits. If these engineered quantum devices… Read More »Interfacing Superconducting Quantum Circuits with an RF Photonic Link
From the early charge qubit to today’s 50+ transmon processors, Yale professor Steven Girvin walks through the advancements and breakthroughs in the field of superconducting quantum information.
This live AMA will cover quantum computing application for improving electric vehicle (EV) battery chemistry, and the infrastructure to optimize, and more-efficiently charge these batteries. IBM Quantum’s Dr. Gavin Jones, who has led much of IBM’s research into battery chemistry,… Read More »Quantum computing & AI: Building the battery of the future