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Quantum Computing Club Remote Workshop

Remote Workshop Opportunity: Message Sanskriti on Slack if you are interested Slack Join Link: https://join.slack.com/t/ncsuquantum/shared_invite/zt-2f62udb40-I8q2qWhjNCND9HPCeWofeA

Quantum Challenge Party

Virtual

We are so excited to announce that North Carolina State University’s Quantum Computing Club will be hosting a virtual Quantum Challenge Party this Saturday alongside Duke’s Quantum Information Society and UNC’s Quantum Computing Club with guest speaker Jay Gambetta, who is a leading voice in the quantum computing industry. You are invited to join us,…

Annual Quantum Symposium

Duke Energy Hall, Hunt Library 1070 Partners Way, Raleigh, NC, United States

Please join the NC State Quantum Initiative, representatives from IBM, invited guests and our Quantum Innovation Center members for 2-full days of Quantum discussions at our 4th Annual Symposium. The Symposium will be held in person on June 13 -14, 2024 in the Duke Energy Hall at the James B. Hunt Library on NC State’s…

Hardware Security and the Future: Why Should You Care?

EB2-1231 890 Oval Dr, Raleigh, NC, United States

Hardware Security and the Future: Why Should You Care? The response to a security flaw typically goes through three phases: first, it is ignored, then it is acknowledged but claimed to never happen in a real-world system, and finally, it is argued to be known all along with defenses underway. Physical side-channel analysis has come…

Quantum Diamond Sensors — Best of Both Worlds

EB2-1231 890 Oval Dr, Raleigh, NC, United States

Abstract The nitrogen–vacancy (NV) quantum defect in diamond is a leading modality for magnetic, electrical, temperature, and pressure sensing with high spatial resolution and wide field-of-view, operating under both ambient and extreme conditions. This quantum sensing technology has diverse applications across the physical and life sciences — from probing magnetic materials and electronic systems to…

Quantum Bayesian Framework for Efficient Storage of Quantum Information

Virtual

Abstract Superposition, entanglement and nonlocality are the hallmarks of the quantum framework. In this talk, we consider the problem of reliable storage of quantum information with qubit rate below its von Neumann entropy with controlled loss. This requires a transformation of the quantum source state into a more entangled reconstruction state with smaller entropy. Inspired…

Quantum Simulation of Spin-Boson Models with Structure Bath

Virtual

Abstract The spin-boson model, involving spins interacting with a bath of quantum harmonic oscillators, is a widely used representation of open quantum systems that describe many dissipative processes in physical, chemical and biological systems. Trapped ions present an ideal platform for simulating the quantum dynamics of such models, by accessing both the high-quality internal qubit…

Quantum trading – a disturbance in the force (of supply and demand)

Virtual

Abstract The influence of information technologies such as the telegraph, personal computers, the internet, and artificial intelligence has been profound, driving significant global economic growth and creating substantial value. We are now on the brink of another technological revolution: the advent of quantum computers. Quantum computers leverage the principles of quantum physics, offering two primary…

Progress and Challenges in Quantum Algorithms for Quantum Chemistry: Hard Lessons from the Field

Virtual

Abstract One of the standard arguments for building a quantum computer is that we might profitably use the entanglements between qubits to simulate the correlations between electrons and thus solve a myriad of important chemical and material design problems. While this is surely an elegant and effective one-line funding justification, the devil is very much in…