Our REsearch
Our research spans chiral photonics, valleytronics, topological transport, and device-oriented quantum materials.
Our Research
Innovative Solutions in Applied Physics and Optoelectronics
Symmetry-breaking light–matter interactions in low-dimensional quantum materials through circular polarization and chiroptical responses.
Keywords:Chirality · Symmetry Breaking · Circular Polarization
Chiral excitonic states and enhanced circularly polarized emission linking structure, chirality, and optoelectronic functionality.
Keywords:Chiral Excitons · CPL · 2D Perovskites
Polarization-selective excitation and valley-controlled optoelectronic responses in layered quantum materials and heterostructures.
Keywords:Valleytronics · Polarization Control · 2D Semiconductors
Topology-driven chiral charge transport and circular photogalvanic effects revealed by polarized light excitatio
Keywords:Topology · Weyl Semimetals · CPGE
k-space photoluminescence and polarization-resolved spectroscopy connecting quantum material physics to device performance.
Keywords:k-space PL · Momentum-Resolved Optics · Spectroscopy
Quantum and chiral materials engineered into functional optoelectronic devices and scalable photonic platforms.
Keywords:Optoelectronic Devices · Quantum Platforms · Photonics