Soon Wei Daniel Lim

Publications

• Non-close-packed pore arrays through one-step breath figure self-assembly and reversal
• Revolution in Large-Area Curved Surface Lithography: Nanofilm Sculpting by Thermocapillary Modulation
• HLA Correlations with Clinical Phenotypes and Risk of Metabolic Comorbidities in Singapore Chinese Psoriasis Patients
• On-chip optical tweezers based on freeform optics
• Engineering phase and polarization singularity sheets
• A High Aspect Ratio Inverse-Designed Holey Metalens
• All-Optical Tunability of Metalenses Permeated with Liquid Crystals
• Extreme ultraviolet metalens by vacuum guiding
• Point singularity array with metasurfaces
• Metasurface blue-detuned atom trap arrays using singularity engineering
• Minimal memory differentiable FDTD for inverse design
• All-Glass, Mass-Producible, Large-Diameter Metalens at Visible Wavelength for 100 mm Aperture Optics and Beyond
• A high aspect-ratio holey metalens
• On-Chip Optical Tweezers Based on Micro-Reflectors
• Structuring phase and polarization singularity sheets in 2D
• D-Flat: A Differentiable Flat-Optics Framework for End-to-End Metasurface Visual Sensor Design
• Topologically protected optical polarization singularities in four-dimensional space
• All-glass 100 mm Diameter Visible Metalens for Imaging the Cosmos
• Polarization Multi-Image Synthesis with Birefringent Metasurfaces
• All-Optical tunability of metalenses infiltrated with liquid crystals
• Topologically protected four-dimensional optical singularities
• Helicity and Polarization Gradient Optical Trapping in Evanescent Fields
• Time Reversal Differentiation of FDTD for Photonic Inverse Design
• All-Glass 100 mm Diameter Visible Metalens for Imaging the Cosmos
• Raw and processed files of celestial objects imaged with metalens
• Raw and processed files of celestial objects imaged with metalens
• Addition to “All-Glass 100 mm Diameter Visible Metalens for Imaging the Cosmos”
• Multidimensional optical singularities and their applications
• Addition to "All-Glass 100 mm Diameter Visible Metalens for Imaging the Cosmos".
• Dense Suspension Inertial Microfluidic Particle Theory (DENSE-IMPACT) Model for Elucidating Outer Wall Focusing at High Cell Densities