Mobirise

Dr. Koteswara Rao BOMMISETTI

Associate Professor

Education & Experience:

Ph.D.: IIT Bombay
M.Sc.: Andhra University
B.Sc.: Acharya Nagarjuna University

Research Interests: 

Strongly Correlated Electron Systems
Geometrically Frustrated Magnets
Low-Dimensional Quantum Magnets
Multiferroics
Single Crystal Growth & Novel Material Discovery

FOLLOW & CONTACT

Selected Publications

2024

V. K. Singh, J. Link, K. Kargeti, S. K. Panda, I. Heinmaa, C. Dhanasekhar, M. M. Jawale, K. T. Kim, K. H. Kim, T. Chakrabarty, A. V. Mahajan, R. Stern, and B. Koteswararao, ³¹P NMR studies of the 1/3-depleted two-dimensional anisotropic kagome lattice system BaCu₂(PO₄)₂(H₂O), Phys. Rev. B 109, 155130 (2024).

2024

K. Boya, K. Nam, K. Kargeti, S. Ershadrad, R. Kumar, S. K. Panda, B. Sanyal, A. K. Manna, P. L. Paulose, K. H. Kim, and B. Koteswararao, Possible candidate for the realization of the floating phase in the S = 5/2 frustrated spin-chain model: K₃Fe(MoO₄)₂(Mo₂O₇), Phys. Rev. B 109, 155130 (2024).

2024

V. K. Singh, K. Nam, M. Barik, K. Boya, E. Kermarrec, P. Khuntia, K. H. Kim, S. Bhowal, and B. Koteswararao, Bi₂YbO₄Cl: A two-dimensional square lattice compound with Jeff = ½ magnetic moments, Phys. Rev. B 109, 075128 (2024).

2023

V. K. Singh, J. Link, K. Kargeti, M. Barik, B. Lenz, N. Saraswat, U. Jena, I. Heinmaa, P. Khuntia, K. Boya, S. K. Panda, R. Stern, Y. Bitla, T. Chakrabarty, and B. Koteswararao, Magnetic properties of S = 1/2 distorted honeycomb lattice NaCuIn(PO₄)₂, Phys. Rev. B 107, 214430 (2023).

2021

K. Boya, K. Nam, K. Kargeti, A. Jain, R. Kumar, S. K. Panda, S. M. Yusuf, P. L. Paulose, U. K. Voma, E. Kermarrec, K. H. Kim, and B. Koteswararao, Signatures of spin-liquid state in a 3D frustrated lattice compound KSrFe₂(PO₄)₃ with S = 5/2, APL Mater. 10, 101103 (2022).

Students

1. Biplab Biswas (Jul 2022 - )
2. Vikas Kumar Sahu (Jan 2023 - )
3. Rama Chandra Moharana (Jan 2024 - )
4. Ankita Das (Jul 2025 - )  

1. Boya Krishnamraju
2. Voma Uday Kumar
3. Vaibhav Kumar Singh

5 completed and 3 ongoing.

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Sponsored Research & Consultancy Projects

2024-2026


2023-2024

2015-2020
DST, SERB


DST, SERB

DST INSPIRE

Combined experimental and theoretical investigations of novel quantum states of matter at high frustration and low dimension.

Single-Crystal Growth and Magnetic Studies of Novel Geometrically Frustrated Magnets.

Investigation of Quantum Spin Liquids and Multiferroics in Geometrically Frustrated Magnets.

Awards and Honours

2015
DST INSPIRE Faculty award

It is a faculty fellowship to carryout the research for 5 years independently.  



Address:

Department of Physics
IIT Tirupati 
INDIA - 517 619


© Department of Physics, IIT Tirupati - 517 619 (INDIA) 



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