Gesamtlänge aller Episoden: 18 hours 16 minutes
What are exactly solvable quantum systems, and why are they interesting? Take a listen to Season 2, Episode 1 of insideQuantum to find out!
This week we're featuring Dr Pieter Claeys, a research group leader in the Dynamics of Quantum Information Group at the Max Planck Institute for the Physics of Complex Systems in Dresden...
How can a completely random process be used to test the accuracy of quantum computers?
This week we're featuring Dr Ellen Derbyshire, a postdoctoral researcher at the Dahlem Centre for Complex Quantum Systems, Freie Universität Berlin. Dr Derbyshire obtained her PhD from the University of Edinburgh before taking up her current postdoctoral position.
Photo credit: Ezekial (Ezy) Galan (http://www.ezekialgalan.com/photography).
What does it take to make the materials that next-generation quantum technologies will be made of? Take a listen to Season 2, Episode 3 of insideQuantum to find out!
This week we're featuring Dr Jennifer Fowlie, a postdoctoral researcher in the Department of Applied Physics at Stanford University and the Stanford Institute for Materials and Energy Science part of the SLAC National Lab...
What can quantum computers really do for us? Take a listen to Season 2, Episode 4 of insideQuantum to find out!
This week, Dr Oliver Brown takes us on a journey through the hype surrounding quantum computing and find out just what they can and can’t do - and why they’ll never entirely replace classical computers.
Dr Brown obtained his PhD from Heriot-Watt University, and is now a Chancellor’s Fellow at the Edinburgh Parallel Computing Centre (EPCC) and the University of Edinburgh...
Do superconducting qubits hold the solution to making quantum computing practical? Take a listen to Season 2, Episode 5 of insideQuantum to find out!
This week, Dr Yvonne Gao explains one of the key technologies behind the latest developments in quantum computing, and tells us why superconducting qubits have become a widely-used platform that has allowed for the recent rapid progress...
How can we create the community of talented people who will build, program, and use the next generation of quantum computers? Take a listen to Season 2, Episode 6 of insideQuantum to find out!
This week, Junye Huang (黄俊晔) tells us about his journey from materials science to quantum computer – as well as his experience making quantum games – and how this all led up to his current role as a Quantum Developer Advocate for IBM Quantum...
What can quantum mechanics bring to machine learning? Take a listen to Season 2, Episode 7 of insideQuantum to find out!
This week, Dr Kosuke Mitarai (御手洗光祐) tells us about his experience at the cutting edge of quantum machine learning, the development of quantum circuit learning and being a co-founder of the startup QunaSys...
What can complexity theory tell us about the capabilities of near-future quantum devices? Take a listen to Season 2, Episode 8 of insideQuantum to find out!
This week, Dr Henry Yuen, an Assistant Professor of Computer Science at Columbia University tells us all about his work in complexity theory, how concepts from complexity theory can be modified to be applicable to quantum systems, and how these concepts can be used to tell us what near-term quantum computers can and can’t do...
What are the obstacles on the path towards finding practical uses for quantum computers? Take a listen to Season 2, Episode 9 of insideQuantum to find out!
This week, Dr Alex Moylett, a Senior Quantum Scientist at Riverlane, tells us all about their work in determining what current-generation quantum computers are good for, and which problems might see a computational advantage on quantum hardware...
How could quantum mechanics revolutionalise our communications? Take a listen to Season 2, Episode 10 of insideQuantum to find out!
This week, Dr Sumeet Khatri, a postdoctoral researcher at Freie Universität Berlin, tells us all about the fast-paced research area of quantum communications, and explains to us how science-fiction-sounding concepts like teleportation actually arise in real-life quantum communication systems...