Charudatta M. Phatak

Research Interests

• Understanding domain behavior and interactions in ferromagnetic heterostructures at the mesoscale using in-situ Lorentz transmission electron microscopy.
• Phase retrieval and 3D tomographic reconstructions of scalar and vector fields for TEM.
• Image simulation for TEM as well as development of integrated imaging approach for TEM and X-ray microscopy.

Education

• Ph.D - 2009, Materials Science Engineering,
  Carnegie Mellon University, Pittsburgh, PA, USA
• M. Tech – 2005 (Ceramics and Composites),
  Metallurgical and Materials Science Engineering,
  Indian Institute of Technology, Bombay, India
• B. Tech – 2004,
  Metallurgical and Materials Science Engineering,
  Indian Institute of Technology, Bombay, India

Awards

• Awarded the Early Career Award from joint Institute of Sustainability and Energy at Northwestern-Argonne to perform research on electrostatic potential mapping using electron microscopy, June 2015.
• Awarded equipment grant from Materials Science Division (ANL) to upgrade Lorentz TEM for achieving excellent scientific goals, June 2014.
• Awarded fellowship on international cooperation by Univ. of Paul Sabatier, Toulouse on ​“Combining Vector Field Tomography using off-axis and in-line holography”, September 2012.
• Awarded the Presidential Student award for outstanding research work by the Microscopy Society of America, August 2008.

Selected Publications

• X. Yang, F. De Carlo, C. Phatak, and D. Gürsoy, ​“A convolutional neural network approach to calibrating the rotation axis for X-ray computed tomography,” J. Synchrotron Radiat., 24 (2), 469–475 (2017).
• S. Zhang, A. K. Petford-Long, and C. Phatak, ​“Creation of artificial skyrmions and antiskyrmions by anisotropy engineering,” Sci. Rep., 6, 31248 (2016).
• V. Brajuskovic, F. Barrows, C. Phatak, and A. K. Petford-Long, ​“Real-space observation of magnetic excitations and avalanche behavior in artificial quasicrystal lattices,” Sci. Rep., 6, 34384 (2016).
• C. Phatak, O. Heinonen, M. De Graef, and A. Petford-Long, ​“Nanoscale skyrmions in a non-chiral metallic multiferroic: Ni2MnGa,” Nano Lett., 16(7), 4141–4148 (2016).
• C. Phatak, A. K. Petford-Long, and M. De Graef, ​“Recent advances in Lorentz microscopy,” Curr. Opin. Solid State Mater. Sci., 20 (2), 107–114 (2016).
• C. Phatak, L. de Knoop, F. Houdellier, C. Gatel, M. J. Hÿtch, A. Masseboeuf, ​“Quantitative 3D electromagnetic field determination of 1D nanostructures from single projection.” Ultramicroscopy, 164, 24–30 (2016).
• C. Phatak and D. Gürsoy, ​“Iterative reconstruction of magnetic induction using Lorentz transmission electron tomography.,” Ultramicroscopy,150, 54–64 (2015).
• Y. Choi et al., ​“Enhancement of Local Piezoresponse in Polymer Ferroelectrics via Nanoscale Control of Microstructure,” ACS Nano, 9 (2), 1809–1819 (2015).
• C. Phatak, A. K. Petford-Long, H. Zheng, J. F. Mitchell, S. Rosenkranz, and M. R. Norman, ​“Ferromagnetic domain behavior and phase transition in bilayer manganites investigated at the nanoscale,” Phys. Rev. B, 92, 224418 (2015).
• S. Hong, S. H. Chang, C. Phatak, B. Magyari-Kope, Y. Nishi, S. Chattopadhyay, J. H. Kim, ​“Mechanism Study of Reversible Resistivity Change in Oxide Thin Film,” ECS Trans., 69 (3), 51–55 (2015).

Professional Activities

• Programming committee member for 21^st International Conference on Magnetism, San Francisco, 2018
• Programming committee member for Annual Magnetism and Magnetic Materials Conference, New Orleans, LA, October 2016.
• Co-organizer of a symposium on ​“Driving Discovery: Integration of multi-modal imaging and data analysis” at the Annual TMS conference, Feb 2016.
• IEEE Chicago Section, Students Activities Chair, 2015 - present.