Opportunities
Ph.D position: We are currently looking for highly motivated Ph.D students. You may send your CV to this email id: arabinda [at] phy.iith.ac.in. We will get back to you if we find your CV suitable for this opportunity.
Note: Students with own fellowship (CSIR/UGC/Inspire or other-sponsored) can apply throughout the year. Note that you can join in the Ph.D program any time of the year through this rolling advertisement.
Details here: physics.iith.ac.in/assets/docs/phd/Rolling_PhD.pdf
Post-doc position: Thanks for your interest in our group. If you have expertise in the emerging areas of spintronics or microwave magnetics, please write to us (Email: arabinda [at] phy.iith.ac.in). You are encouraged to apply for N-PDF (https://serbonline.in/SERB/npdf).
Project intern position: We are currently looking for intern students with strong expertise in programming (MATLAB, Python) or interfacing software (LABVIEW, Arduino) or software based designing (AUTOCAD, Blender). Also, if you have any interest to build any scientific equipment or if you have any prior experience on the same please contact us. You may send your CV to this email id: arabinda [at] phy.iith.ac.in. We will get back to you if we find your CV suitable for this opportunity.
Note: Students with own fellowship (CSIR/UGC/Inspire or other-sponsored) can apply throughout the year. Note that you can join in the Ph.D program any time of the year through this rolling advertisement.
Details here: physics.iith.ac.in/assets/docs/phd/Rolling_PhD.pdf
Post-doc position: Thanks for your interest in our group. If you have expertise in the emerging areas of spintronics or microwave magnetics, please write to us (Email: arabinda [at] phy.iith.ac.in). You are encouraged to apply for N-PDF (https://serbonline.in/SERB/npdf).
Project intern position: We are currently looking for intern students with strong expertise in programming (MATLAB, Python) or interfacing software (LABVIEW, Arduino) or software based designing (AUTOCAD, Blender). Also, if you have any interest to build any scientific equipment or if you have any prior experience on the same please contact us. You may send your CV to this email id: arabinda [at] phy.iith.ac.in. We will get back to you if we find your CV suitable for this opportunity.
Information for prospective PhD students
Research scope:
We focus on some of the emerging areas of spintronics where spin dynamics plays an important role. It requires expertise on device fabrication/optimization, material growth processes and physical understanding of the evolving phenomena. Thus, spintronics is truly an interdisciplinary subject. We actively collaborate with faculty from across the disciplines which offer an excellent opportunity for the candidates to have a comprehensive training and an impactful research work.
The research projects include sample preparation using thin film deposition (DC and RF magnetron sputtering) and nanofabrication (lithography and ion milling) techniques. Structural and topographical characterization are carried out using thin film X-ray diffraction (GIXRD), electron microscopy (SEM and TEM) imaging. Magnetization reversal process (hysteresis) are investigated using magneto-optical Kerr effect (MOKE) and magnetometers (VSM, SQUID). Magnetic domain imaging will be carried out using Magnetic force microscopy (MFM). Ultrafast magnetization dynamics measurements are executed using state-of-the-art ferromagnetic resonance (FMR), spin torque FMR (ST-FMR), inverse spin Hall effect (ISHE) and Brillouin light scattering (BLS) techniques. Experimental results are supported by performing micromagnetic simulations using OOMMF and Mumax3 software. All the facilities mentioned above are available with our group or as central facilities at IIT Hyderabad.
The research projects include sample preparation using thin film deposition (DC and RF magnetron sputtering) and nanofabrication (lithography and ion milling) techniques. Structural and topographical characterization are carried out using thin film X-ray diffraction (GIXRD), electron microscopy (SEM and TEM) imaging. Magnetization reversal process (hysteresis) are investigated using magneto-optical Kerr effect (MOKE) and magnetometers (VSM, SQUID). Magnetic domain imaging will be carried out using Magnetic force microscopy (MFM). Ultrafast magnetization dynamics measurements are executed using state-of-the-art ferromagnetic resonance (FMR), spin torque FMR (ST-FMR), inverse spin Hall effect (ISHE) and Brillouin light scattering (BLS) techniques. Experimental results are supported by performing micromagnetic simulations using OOMMF and Mumax3 software. All the facilities mentioned above are available with our group or as central facilities at IIT Hyderabad.
About IIT Hyderabad:
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Contact:
Dr. Arabinda Haldar
Associate Professor
Office: Academic block B, Room: 409
Department of Physics
IIT Hyderabad
Kandi, Sangareddy 502284
Telangana, India
Phone: +91-40-2301-6717
E-mail: arabinda [at] phy.iith.ac.in
Web: iith.ac.in/~arabinda/ or ahaldar.weebly.com
Associate Professor
Office: Academic block B, Room: 409
Department of Physics
IIT Hyderabad
Kandi, Sangareddy 502284
Telangana, India
Phone: +91-40-2301-6717
E-mail: arabinda [at] phy.iith.ac.in
Web: iith.ac.in/~arabinda/ or ahaldar.weebly.com