Special Seminar: Valley exciton in 2D semiconductor: from experimental observation to coherent manipulation

Speaker: 
Ziliang Ye
Institution: 
UC Berkeley
Date: 
Monday, February 6, 2017
Time: 
4:00 pm
Location: 
NS2 1201
* Special Day

ABSTRACT:
 
Following the success of graphene, the transition metal dichalcogenide (TMDC) family of the form MX2 (M = Mo, W; X = S, Se, Te) has attracted significant attention as a two-dimensional semiconductor. While maintaining the advantageous flexibility and tunability found in graphene, TMDCs possess a band gap that transitions from the indirect to direct type at the monolayer limit, giving rise to an extraordinarily strong light-matter interaction. In this talk, I will discuss our effort to understand and control the electronic structure of TMDCs using ultrafast light. We will present our discovery of a strong and anomalous excitonic effect in the TMDC monolayer, where the room-temperature stable exciton emerges from an unscreened Coulomb interaction in the two-dimensional space [1]. In addition, we will report our recent successful coherent manipulation of the valley polarization, a degree of freedom analogous to spin but exists only in the momentum space of the electron [2]. The ability to control the valley degree of freedom can potentially enable a new platform for quantum information applications.

[1] Z. Ye et al. Nature 513, 214 (2014)
[2] Z. Ye et al. Nature Physics 13, 26 (2017)

 

Host: 
Sid Parameswaran