Physikalisches Kolloquium: : Quantum Frontiers in Molecular and Material Science
Quantum Frontiers in Molecular and Material Science
In this talk I will summarize recent efforts by my group exploring quantum frontiers in molecular and materials science.
Specifically, I will discuss the state of the art in the ultrafast quantum control of matter at the level of electrons and, in particular,
how in the context of nanojunctions it is possible to disentangle ultrafast laser-induced currents into contributions by real and virtual carriers
and use that to design petahertz electronic logical circuits elements that operate 10^6 times faster than present-day capabilities.
Then, I will introduce our theoretical proposal for an analog quantum simulator of the excited state dynamics of molecules in condensed
phase environments that is based on integrating semiconductor quantum dots with quantum electronic circuits, and discuss why analog quantum simulation
can have an advantage over conventional simulation. If there is time, I will summarize efforts by my group to understand quantum decoherence
in molecules and, in particular, I will introduce a novel theoretical scheme to quantify dissipation pathways of molecules in condensed phase environments.
Sprecher: Prof. Dr. Ignacio Franco, Chemistry faculty, University of Rochester
Kontakt: Prof. Dr. P. Hommelhoff
Thema: Physikalisches Kolloquium SS 2022
Meeting-ID: 683 2175 0234