S
S. M. Yusuf
Researcher at Bhabha Atomic Research Centre
Publications - 167
Citations - 3206
S. M. Yusuf is an academic researcher from Bhabha Atomic Research Centre. The author has contributed to research in topics: Magnetization & Neutron diffraction. The author has an hindex of 31, co-authored 167 publications receiving 2650 citations. Previous affiliations of S. M. Yusuf include Spanish National Research Council & Homi Bhabha National Institute.
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Journal ArticleDOI
Low temperature thermopower and electrical transport in misfit Ca 3 Co 4 O 9 with elongated c-axis
Saptaparna Bhattacharya,Sudhindra Rayaprol,A.K. Singh,Anjana Dogra,C. Thinaharan,Dinesh K. Aswal,S.K. Gupta,J. V. Yakhmi,Ruta Kulkarni,S. M. Yusuf,S N Bhatia +10 more
TL;DR: The temperature dependence of the electrical resistivity and thermopower (S) of misfit cobaltite Ca3Co4O9 has been studied in this article, showing that the compound exhibits very low ρ(~1.3 × 10−4 Ω cm) and reasonably high S (~56 µV K−1) at room temperature.
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Modified hydrothermal reaction (MHT) for CoV2O6·4H2O nanowire formation and the transformation to CoV2O6·2H2O single-crystals for antiferromagnetic ordering and spin-flop
Chanchal Mondal,Anup Kumar Sasmal,S. M. Yusuf,M. D. Mukadam,Jaya Pal,Mainak Ganguly,Tarasankar Pal +6 more
TL;DR: A modified hydrothermal protocol (MHT) has been adopted for the synthesis of a single-crystal of CoV2O6·2H2O as mentioned in this paper.
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Low temperature magnetic phase of KMnFeF6 : A neutron depolarisation and diffraction study
TL;DR: In this paper, the authors show the presence of long range ferrimagnetic correlation in a geometrically frustrated system and explain the observed features of a.c. susceptibility, low-field magnetisation and neutron depolarisation measurements.
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Structural study of La0.75Sr0.25CrO3 at high temperatures
TL;DR: A high-temperature neutron diffraction study has been carried out on La (0.75)Sr(0.25)CrO(3) compound in the temperature range 300-1400 K and it is found unequivocally that there is a two-phase coexistence and a three- phase coexistence.
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Understanding of the low temperature anomalous magnetic and lattice properties in Co1.25Fe1.75O4 ferrite using dc magnetization and neutron diffraction experiments
TL;DR: In this article, the experimental results of dc magnetization and neutron diffraction measurements for Co1.25Fe1.75O4 ferrite have been demonstrated, which suggest the possibility of an inverse relation between anomalous lattice expansion and decrement of high field magnetization at lower temperatures.