Research Interest
Partha’s research interests include
- super-resolution microscopy,
- nanofluidics,
- Imaging cytometry,
- nanolithography,
- light sheet techniques,
- fluorescence Imaging,
- optical traps,
- single molecule imaging, and
- nano-biophysics.
Biographical Sketch
- Currenlty Professor and Chair, Center for Cryogenic Technology, CCT,
- Joined the Department as an Assistant Professor in 2010.
- Post-Doctoral research fellow at Massachusetts Institute of Technology, Cambridge USA, International Centre for Theoretical Sciences, Trieste, Italy and University of Genova, Italy
- Ph.D. from Indian Institute of Science Bangalore.
Select Publications
- Integrated Light-sheet imaging and flow-based enquiry (iLIFE) system for 3D in-vivo imaging of multicellular organism.Applied Physics Letters 111, (2017).
- Total internal reflection fluorescence based multiplane localization microscopy enables super-resolved volume imaging.Applied Physics Letters 110, 211102 (2017).
- Spatial Filter Based Light-Sheet Laser Interference Technique for 3D Nanolithography
Applied Physics Letters 106, 083112 (2015). - Limited View Light Sheet Microscopy for Three Dimensional Volume Imaging
Applied Physics Letters 107, 263701 (2015). - Image reconstruction enables high resolution imaging at large penetration depths in fluorescence microscopy. Applied Physics Letters 103, 173703 (2013).
- Taylor Series Expansion based Multidimensional Image Reconstruction for Confocal and 4pi Super-resolution Microscopy. Applied Physics Letters 103 , 073702 (2013).
- Generation of Extended Light Sheet for Single and Multi- Photon Fluorescence Microscopy
Applied Physics Letters 103, 043701 (2013). - Photobleaching Reduced Fluorescence Correlation Spectroscopy. Applied Physics Letters 97, 103704 (2010).
- Multi-photon Induced Cubic-to-Quartet Intensity Dependent Transition of Anti-Stoke Raman Signal, Applied Physics Letters, 94, 103901 (2009).
- Plasmon Enhanced Fluorescence Microscopy Below Quantum Noise Limit With Reduced Photobleaching Effect, Applied Physics letters , 93, 093901 (2008).