Appl. Phys. Lett. 103, 132903 (2013);
Low Temperature High Field(magnetic,electric)Instrumentation
4.2K to 300K with 9 Tesla Magnetic Field
Tata Institute of Fundamental Research Mumbai India
10 K to 300 K with CCR
Indian Institute of Science Education and Research Pune India
0 to 500V AC/DC, 9 Tesla, 4.2K, 300K
UGC-DAE CSR Indore India
J. Phys.: Condens. Matter 28 (2016) 486001 (8pp)
Phys. Rev. B 95, 144409 (2017).
Dr. JITENDER KUMAR, Ph.D.
Weizmann Institute of Science Israel
I am an experimental condensed matter physicist and my broad area of research is the study of Strongly Correlated Electron Systems.
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Quantum Sensing
NV Center in Diamond
Structural Analysis
J. Phys.: Condens. Matter 32 (2020) 065601 (7pp)
MY LATEST RESEARCH
Phys. Rev. B 95, 054401 (2017).
We identify the Griffiths singularity and true Griffiths transition (TG) in a geometrically frustrated antiferromagnet DyBaCo4O7 by using measurements of the thermoremanent magnetization (TRM), proven to be superior to conventional in-field measurement protocols for the characterization for the Griffiths phase.
Phys. Rev. B 95, 144409 (2017).
The magneto-dielectric nature ,reentrant super-spin glass state and magnetization steps discovered in the oxyborate Co2AlBO5.
Phys. Rev. B 98, 024410 (2018)
We demonstrated that Fe4Ta2O9 is a multiferroic, in contrast to all the other members of its corundum-related family of materials
Co2AlBO5 single crystal
Phys. Rev. Materials 2, 094409 (2018)
Absence of a multiglass state in some transition metal doped quantum paraelectrics