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Overview
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This course aims to discuss recent research published in the Physical Review X journal on efficient multiphoton sampling of molecular vibronic spectra using a superconducting bosonic processor. The learning outcomes include understanding quantum technology applications in quantum chemistry, efficient representations for quantum simulation, and computation of molecular vibronic spectra. The course teaches skills such as implementing simulations using microwave photons and utilizing a non-demolition number resolved photon detector. The teaching method involves a journal club discussion format with the authors and a moderator. The intended audience includes researchers, academics, and professionals interested in quantum computing, quantum chemistry, and molecular spectroscopy.
Syllabus
Intro
Quick intro to Zoom
Applications of quantum technology
Quantum chemistry
Efficient representations for quantum simulation
Molecular spectroscopy
Computation of molecular vibronic spectra
Implementation using microwave photons
A non-demolition number resolved photon detector
Research goal: efficient quantum simulation
Simulator output for different molecular transitions
Bosonic algorithm for obtaining Franck Condon factors
Taught by
APS Physics