Atomic, Molecular and Optics Seminar - Benjamin Fregoso (Kent State University) - Nonlinear Photocurrents in Two-dimensional Ferroelectrics and Beyond

Benjamin Fregoso (Kent State University) 4/27/18 Atomic, Molecular and Optics seminar speaker
April 27, 2018
2:00PM - 3:00PM
4138 Physics Research Building

Date Range
2018-04-27 14:00:00 2018-04-27 15:00:00 Atomic, Molecular and Optics Seminar - Benjamin Fregoso (Kent State University) - Nonlinear Photocurrents in Two-dimensional Ferroelectrics and Beyond In recent years, it has become clear the need for efficiently harvesting solar energy. Unfortunately, silicon-based solar cells with high efficiency are very costly. These devices rely on pn-junctions to separate positive and negative charge carries. I this talk, I explore a less known (but very interesting) nonlinear optical effect, so-called `shift current’, to generate large photocurrent beyond the pn-junction paradigm. I will describe the shift-current mechanism in insulators and ferroelectrics and its relation to spontaneous electric polarization. Generalizations of the shift current in higher order powers of the electric field will be described. Importantly, we discuss material candidates with large shift current which are promising for optoelectronic applications. 4138 Physics Research Building America/New_York public

In recent years, it has become clear the need for efficiently harvesting solar energy. Unfortunately, silicon-based solar cells with high efficiency are very costly. These devices rely on pn-junctions to separate positive and negative charge carries. I this talk, I explore a less known (but very interesting) nonlinear optical effect, so-called `shift current’, to generate large photocurrent beyond the pn-junction paradigm. I will describe the shift-current mechanism in insulators and ferroelectrics and its relation to spontaneous electric polarization. Generalizations of the shift current in higher order powers of the electric field will be described. Importantly, we discuss material candidates with large shift current which are promising for optoelectronic applications.