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Our Facilities
Our lab integrates advanced ultrafast laser sources, transient-state spectroscopy, and near-field optical microscopy to probe chiral and quantum materials across femtosecond to steady-state regimes. Equipped with circularly polarized spectrometry and low-temperature facilities, we explore how symmetry breaking, spin–orbit coupling, and thermal effects govern light–matter interactions for next-generation chiral photonic and thermoradiative devices.
1. Home-Built Ultrafast Manufacturing System
Home-built ultrafast fabrication system capable of delivering femtosecond laser pulses across the visible to terahertz range for atomic- and nanoscale material manufacturing
2. s-SNOM
The SNOM platform visualizes local electromagnetic fields, optical chirality, and plasmon–phonon interactions with spatial resolution down to tens of nanometers, enabling direct probing of symmetry breaking, spin–orbit coupling, and thermal transport in chiral and quantum materials
3. Spin, Orbital Identificaiton
Commercial circular dichroism (CD) and circularly polarized luminescence (CPL) spectroscopy, as well as integrated platforms allow spin and orbital angular momentum separation and identification across electrons, photons, and phonons.
4. Synthetic Chemistry Laboratory
Brand-new fume hoods, gloveboxes, and high-temperature furnaces enable precise chemical synthesis and atomic-level fabrication, allowing the controlled organization of molecules, interfaces, and devices into chiral architectures.
5. HPC
The National Supercomputing Centre (NSCC) and NUS High Performance Computing (HPC) facilities provide extensive CPU and GPU resources to support large-scale simulations and artificial intelligence model development
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