Research Facilities

Cutting-edge research facilities serve as the engine for advancing the frontier of physics and materials science.

For exploring breakthroughs in photoexcited materials, I utilize a portfolio of world-class research facilities via my own instrumentations and wide collaborations. The combination of table-top home facilities with big-science user facilities provides an ideal armory for forging the future of photoexcited materials and physics.

Table-Top Home Facilities

Hands-on expertise in development and management of advanced time-resolved ARPES labs

Extreme-Ultraviolet time- and angle-resolved photoemission spectroscopy


High-repetition-rate time- and angle-resolved photoemission spectroscopy


Synchrotron-Based User Facilities

Merit-based proposals accepted for leveraging big-science facilities at national labs

Birds eye view of NSLS-II

Data acquired from beamline 21-ID

National Synchrotron Light Source II @ Brookhaven National Lab


Birds eye view of ALS

Data acquired from beamline 4

Advanced Light Source II @ Berkeley National Lab


Computational User Facilities

Strong collaborations with theory groups for exploiting power of supercomputing clusters

Moiré Physics

Collaboration via Center for Functional Nanomaterials (CFN) at Brookhaven National Lab

CDW Materials

Collaboration via Molecular Foundry (MF) at Berkeley National Lab


Excitonic Phenomena

Collaboration via supercomputing clusters at UT Austin