Research

My work is deeply focused on the exciting realm of ultracold RbCs molecules at microkelvin temperatures. I am passionate about creating, controlling, and characterising ultracold molecular samples with remarkable precision, which opens up fascinating opportunities to explore the exciting direction of dipolar quantum physics. My research combines experimental atomic, molecular, and optical (AMO) techniques—such as laser cooling, coherent transfer, optical trapping, and precision spectroscopy—to push the boundaries of what's possible in this field.

In addition, I am dedicated to developing innovative apparatus and control schemes that significantly enhance the lifetimes, phase-space densities, and state control of these molecular systems. I envision that my research will not only unveil the intricacies of strongly dipolar many-body phenomena but also contribute to building cutting-edge molecular platforms that are crucial for the advancement of quantum technologies. I am truly excited about the potential implications of this work and the pathways it can create for future discoveries.