Simulating Quantum Chemistry Hamiltonians with Fault-Tolerant Quantum Computers
Centrum Fizyki Teoretycznej PAN via YouTube
Lead AI-Native Products with Microsoft's Agentic AI Program
NY State-Licensed Certificates in Design, Coding & AI — Online
Overview
Google, IBM & Meta Certificates – 40% Off
One plan covers every Professional Certificate on Coursera.
Unlock All Certificates
Explore a technical colloquium presentation that delves into cutting-edge quantum computing algorithms for chemical simulations, focusing on the optimization of electronic structure calculations through symmetry exploitation and tensor-network Hamiltonian factorizations. Learn about practical applications through the FeMo cofactor molecule case study, which aims to revolutionize industrial nitrogen fixation by developing more energy-efficient catalysts inspired by natural processes. Discover a novel algorithm for simulating the Pauli-Breit Hamiltonian on quantum computers, incorporating relativistic effects for more accurate molecular modeling. Gain insights into BEIT's research initiatives spanning quantum error-correction, analog photonic quantum computing, and quantum-inspired optimization solutions, all presented within this comprehensive Warsaw colloquium for theoretical physics at CTP PAS.
Syllabus
E. Żak (BEIT Inc.): Simulating quantum chemistry Hamiltonians with fault-tolerant quantum computers
Taught by
Centrum Fizyki Teoretycznej PAN