• Nijenborgh3, Gebouw 5113, ruimte 0226

    9747 AG Groningen

    Netherlands

Persoonlijk profiel

Biosketch

Tamalika Banerjee obtained her PhD from the University of Madras, India. She was a Visiting Scientist at the Francis Bitter Magnet Laboratory, MIT, USA and a Post Doctoral Fellow at the Tata Institute of Fundamental Research, Mumbai, India, before she joined the MESA+ Institute for Nanotechnology at the University of Twente, the Netherlands. In 2009 she joined the Zernike Institute for Advanced Materials as a Rosalind Franklin Fellow and a VIDI grant.  Since 2019 she is a full professor and chair of Spintronics of Functional Materials group. She is also a Scientific Associate Investigator, FLEET, ARC Centre of Excellence in Future Low-Energy Electronics Technologies, Australia. Her current research focus is on studying emergent phenomena at quantum critical regions, exploiting strong correlation effects and topology in quantum materials. Their work is fundamental to the understanding and control of topological magnetism and relevant for the study and design of  reconfigurable spintronics architecture for alternative computing applications. She is a Senior member of IEEE and serves in Program committees of international conferences on Magnetism (IEEE). She is a Scientific Advisory Board member of the Lorentz Centre, Program Board member of the Cognigron Centre, member of the Steering group of NanolabNL and of the NWO Domain Science working group on Physics for Technology and Instrumentation. She is an Editorial Board Member of Advanced Physics Research (Wiley), of Scientific Reports (npj) and an Associate Editor (Nanoelectronics) in Frontiers in Nanotechnology journals. Her research is funded by NWO-VIDI, NWO-nano (FOM), NWO-DST,  NWA and Dieptestrategie and Cognigron grants.

 

Top Publications (2017-2022)

[1] A. S. Goossens, M. Ahmadi, D. Gupta, I. Bhaduri, B. J. Kooi, and T. Banerjee, “Memristive memory enhancement by device miniaturization for neuromorphic computing,” Adv. Electron. Mater. (2023) arXiv:2301.03352

In a recent work, we have demonstrated efficient integration of memristive devices directly on semiconducting platforms for on-chip applications and importantly with substantial reduction in areal footprint, while exploiting the physical properties at the device interface.

[2] P. Zhang, A. Das, E. Barts, M. Azhar, L. Si, K. Held, M. Mostovoy, & T. Banerjee, T. (2020). Robust skyrmion-bubble textures in SrRuO3 thin films stabilized by magnetic anisotropy. Physical Review Research, 2(3), [032026(R)]

Our work on topological textures in itinerant ferromagnets,  their surprising stability and resilience over an unexpected region of parameter space finds relevance for new magnetic memory technologies including alternative computing strategies

[3]  J. van Rijn, D. Wang, B. Sanyal, & T. Banerjee, T. (2022). Strain-driven antiferromagnetic exchange interactions in SrMnO3 probed by phase-shifted spin Hall magnetoresistance. Physical Review. B: Condensed Matter and Materials Physics, 106, [214415].

Multiferroics have found renewed interest particularly for topological magnetism and for logic-in-memory applications such as in Intel-MESO and our recent demonstration opens new directions for antiferromagnetic spintronics in orbitronics and alternative computing applications.

 

 

 

Expertise gerelateerd aan duurzame ontwikkelingsdoelstellingen van de VN

In 2015 stemden de VN-lidstaten in met 17 wereldwijde duurzame ontwikkelingsdoelstellingen (Sustainable Development Goals, SDG's) om armoede te beëindigen, de planeet te beschermen en voor iedereen welvaart te garanderen. Het werk van deze persoon draagt bij aan de volgende duurzame ontwikkelingsdoelstelling(en):

  • SDG 7 – Betaalbare en schone energie
  • SDG 17 - Partnerschap om de doelen te bereiken

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