Quantum computing for high energy physics simulations with Martin Savage

The New Quantum Era

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7M ago 36:22

MP3•Pagina principale dell'episodio

Dr. Martin Savage is a professor of nuclear theory and quantum informatics at the University of Washington. His research explores using quantum computing to investigate high energy physics and quantum chromodynamics.
Dr. Savage transitioned from experimental nuclear physics to theoretical particle physics in his early career. Around 2017-2018, limitations in classical computing for certain nuclear physics problems led him to explore quantum computing.
In December 2022, Dr. Savage's team used 112 qubits on IBM's Heron quantum processor to simulate hadron dynamics in the Schwinger Model. This groundbreaking calculation required 14,000 CNOT gates at a depth of 370.
Error mitigation techniques, translational invariance in the system, and running the simulation over the December holidays when the quantum hardware was available enabled this large-scale calculation.
While replacing particle accelerator experiments is not the goal, quantum computers could eventually complement experiments by simulating environments not possible in a lab, like the interior of a neutron star.
Quantum information science is increasingly important in the pedagogy of particle physics. Advances in quantum computing hardware and error mitigation are steadily enabling more complex simulations.
The incubator for quantum simulation at University of Washington brings together researchers across disciplines to collaborate on using quantum computers to advance nuclear and particle physics.

Links:
Dr. Savage's home page
The InQubator for Quantum Simulation
Quantum Simulations of Hadron Dynamics in the Schwinger Model using 112 Qubits
IBM's blog post which contains some details regarding the Heron process and the 100x100 challenge.

40 episodi

#Science #Tech #Physics #Sebastian Hassinger #Kevin Rowney #Quantum Computing #Quantum Technology #Quantum Networking #Quantum Simulation #Quantum Chemistry

Quantum computing for high energy physics simulations with Martin Savage

The New Quantum Era

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published 7M ago

MP3•Pagina principale dell'episodio

Dr. Martin Savage is a professor of nuclear theory and quantum informatics at the University of Washington. His research explores using quantum computing to investigate high energy physics and quantum chromodynamics.
Dr. Savage transitioned from experimental nuclear physics to theoretical particle physics in his early career. Around 2017-2018, limitations in classical computing for certain nuclear physics problems led him to explore quantum computing.
In December 2022, Dr. Savage's team used 112 qubits on IBM's Heron quantum processor to simulate hadron dynamics in the Schwinger Model. This groundbreaking calculation required 14,000 CNOT gates at a depth of 370.
Error mitigation techniques, translational invariance in the system, and running the simulation over the December holidays when the quantum hardware was available enabled this large-scale calculation.
While replacing particle accelerator experiments is not the goal, quantum computers could eventually complement experiments by simulating environments not possible in a lab, like the interior of a neutron star.
Quantum information science is increasingly important in the pedagogy of particle physics. Advances in quantum computing hardware and error mitigation are steadily enabling more complex simulations.
The incubator for quantum simulation at University of Washington brings together researchers across disciplines to collaborate on using quantum computers to advance nuclear and particle physics.

40 episodi

#Science #Tech #Physics #Sebastian Hassinger #Kevin Rowney #Quantum Computing #Quantum Technology #Quantum Networking #Quantum Simulation #Quantum Chemistry

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Quantum computing for high energy physics simulations with Martin Savage