Arun Anand

Summary

Publications

  1. ncbi request reprint Shape and deformation measurements of 3D objects using volume speckle field and phase retrieval
    Arun Anand
    Applied Physics Department, Faculty of Technology and Engineering, Maharaja Sayajirao University of Baroda, Vadodara 390001, India
    Opt Lett 34:1522-4. 2009
  2. doi request reprint Three-dimensional microscopy with single-beam wavefront sensing and reconstruction from speckle fields
    Arun Anand
    Optics Laboratory, Applied Physics Department, Faculty of Technology and Engineering, The MS University of Baroda, Vadodara 390001, India
    Opt Lett 35:766-8. 2010
  3. doi request reprint High-resolution quantitative phase microscopic imaging in deep UV with phase retrieval
    Arun Anand
    Applied Physics Department, Faculty of Technology and Engineering, MS University of Baroda, Vadodara, India
    Opt Lett 36:4362-4. 2011
  4. doi request reprint Quantitative phase-contrast imaging with compact digital holographic microscope employing Lloyd's mirror
    Vani Chhaniwal
    Applied Physics Department, Faculty of Technology and Engineering, MS University of Baroda, Vadodara 390001, India
    Opt Lett 37:5127-9. 2012
  5. ncbi request reprint Quantitative cell imaging using single beam phase retrieval method
    Arun Anand
    MS University of Baroda, Faculty of Technology and Engineering, Applied Physics Department, Vadodara 390001, IndiaUniversität Stuttgart, Institut für Technische Optik, Pfaffenwaldring 9, 70569 Stuttgart, GermanyUniversity of Connecticut, Department of Electrical and Computer Engineering, Storrs, Connecticut 06269
    J Biomed Opt 16:060503. 2011

Collaborators

Detail Information

Publications5

  1. ncbi request reprint Shape and deformation measurements of 3D objects using volume speckle field and phase retrieval
    Arun Anand
    Applied Physics Department, Faculty of Technology and Engineering, Maharaja Sayajirao University of Baroda, Vadodara 390001, India
    Opt Lett 34:1522-4. 2009
    ..Results from computer simulations confirm the experiments...
  2. doi request reprint Three-dimensional microscopy with single-beam wavefront sensing and reconstruction from speckle fields
    Arun Anand
    Optics Laboratory, Applied Physics Department, Faculty of Technology and Engineering, The MS University of Baroda, Vadodara 390001, India
    Opt Lett 35:766-8. 2010
    ..Transparent phase objects are investigated using this principle. To the best of our knowledge, this is the first report on the application of this principle applied to microscopy...
  3. doi request reprint High-resolution quantitative phase microscopic imaging in deep UV with phase retrieval
    Arun Anand
    Applied Physics Department, Faculty of Technology and Engineering, MS University of Baroda, Vadodara, India
    Opt Lett 36:4362-4. 2011
    ..This Letter describes the development of a quantitative microscopy technique at 193 nm using multiple intensity samplings and phase retrieval...
  4. doi request reprint Quantitative phase-contrast imaging with compact digital holographic microscope employing Lloyd's mirror
    Vani Chhaniwal
    Applied Physics Department, Faculty of Technology and Engineering, MS University of Baroda, Vadodara 390001, India
    Opt Lett 37:5127-9. 2012
    ..9 nm without any vibration compensation, which makes it ideal for studying cell profile changes. This aspect of the technique is demonstrated by studying membrane fluctuations of red blood cells...
  5. ncbi request reprint Quantitative cell imaging using single beam phase retrieval method
    Arun Anand
    MS University of Baroda, Faculty of Technology and Engineering, Applied Physics Department, Vadodara 390001, IndiaUniversität Stuttgart, Institut für Technische Optik, Pfaffenwaldring 9, 70569 Stuttgart, GermanyUniversity of Connecticut, Department of Electrical and Computer Engineering, Storrs, Connecticut 06269
    J Biomed Opt 16:060503. 2011
    ..Three-dimensional thickness profiles of different cells such as red blood cells and onion skin cells were reconstructed using this technique with an axial resolution of the order of several nanometers...