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268 results on '"Bhaumik, Indranil"'

1. Room temperature Multiferroicity and Magnetoelectric coupling in (1-x) BaTiO$_{3-}$(x) CaMnO$_3$ solid solution

Author

Maneesha, P., Samantaray, Koyal Suman, Saha, Rakhi, Urkude, Rajashri, Ghosh, Biplab, Pathak, Arjun K, Bhaumik, Indranil, Mekki, Abdelkrim, Harrabi, Khalil, and Sen, Somaditya

Subjects
Condensed Matter - Materials Science, Physics - Applied Physics
Abstract

Materials with magnetoelectric coupling (MEC) between ferroic orders at room temperature are extremely important in modern technology and physics. BaTiO$_3$ is a robust ferroelectric in which several doping have led to MEC. However, often MEC depends on the amount of substitution. In a series of (1-x)BaTiO$_{3.}$(x)CaMnO$_3$ (x=0,0.03, 0.06, 0.09), MEC was only observed in (0.97)BaTiO$_{3.}$(0.03)CaMnO$_3$. The structural modifications with changing substitution reveal a reduced Ti-O-Ti angle for this sample which is the most ferromagnetic in nature. A mixed phase of tetragonal P4mm and hexagonal P6$_3$/mmc space groups of BaTiO$_3$ is observed in the substituted samples, with nominal contribution of the hexagonal phase for x=0.03. A valence state study using XPS and XANES reveals the presence of enhanced proportion of Mn3+ ions in the sample which support a Jahn-Teller distortion, thereby supporting the ferroelectricity for x=0.03. Indirect and direct evidences of MEC was obtained from magnetodielectric and magnetoelectric measurements. A magnetocapacitance of 0.4% was observed with a dc magnetic field of 4kOe at 10kHz, while magnetoelectric coupling coefficient, $\alpha_{\rm ME} \sim 88$ mVcm$^{-1}$Oe$^{-1}$ was obtained for dc magnetic field of 600 Oe and a 10Hz ac field of 40 Oe. Such MEC was not observed for higher substitution which emphasizes the sensitivity of the structural properties on substitution.

Published
2024

4. Defect Dipole Induced Improved Electrocaloric Effect in Modified NBT-6BT Lead-Free Ceramics

Author

Samantaray, Koyal Suman, Amin, Ruhul, Rini, E. G, Bhaumik, Indranil, Mekki, A., Harrabi, K., and Sen, Somaditya

Subjects
Condensed Matter - Materials Science
Abstract

The Rietveld refinement of the polycrystalline powders of 1% Fe and Mn-doped (Na0.5Bi0.5)0.94Ba0.06Ti0.98V0.02O3 at the Ti-site confirmed a single rhombohedral (R3c) phase. The bandgap, (Eg) was affected by the anti-phase octahedral tilt angle and the spin-orbit splitting energy of Ti4+2p3/2 and Ti4+2p1/2 states. The decrease in Bi loss and increase in the binding energy of Ba due to Fe/Mn doping has been correlated to the strengthening of Bi-O and Ba-O bonds which was revealed from the XPS studies thereby further related to the average A-O bond length from structural studies. Hence, a reduction of oxygen vacancy (VO) for the doped samples has been justified. A significant improvement of the dielectric constant, relaxation time ({\tau}0), and the decrease in conductivity due to doping was revealed from the frequency-dependent (10Hz-1MHz) dielectric measurement study. The conduction and relaxation process is dominated by the short-range movement of defects. The activation energy (Ea ~1eV) revealed that there is a presence of double-ionized VOs. The ECE study showed a significant enhancement of the changes in entropy, and the adiabatic temperature difference due to doping, with the change in tempearture being highest in the Fe-doped sample. Such improvement of dielectric and ECE properties was confirmed due to the reduction of the mobility of oxygen vacancy because of the formation defect dipoles.

Published
2021

17. Structural evaluation in vicinity of composition induced non-ergodic to ergodic crossover in niobium doped (Na0.41 K0.09 Bi0.5)TiO3.

Author

Sharma, Ankur, Yadav, Pinki, Bhaumik, Indranil, Singh, M. N., Sathe, Vasant, and Singh, Gurvinderjit

Subjects
NIOBIUM, RAMAN spectroscopy, X-ray diffraction
Abstract

A structural crossover from non-ergodic to ergodic phase in niobium doped (Na0.41K0.09Bi0.5)TiO3, i.e., (Na0.41K0.09Bi0.50)1−x/2(Ti1−xNbx)O3 was investigated using high resolution x-ray diffraction and Raman spectroscopy. The diffraction studies reveal the co-existence of cubic (Pm3m), rhombohedral (R3c), and tetragonal (P4bm) phases for lower concentrations of niobium, i.e., for x ≤ 0.005 and the emergence of the pseudo-cubic (Pm3m) structure for higher niobium contents (for x ≥ 0.0075). On the other hand, Raman spectroscopy reveals the augmentation of the tetragonal phase with niobium content. These observations advocate the crossover from the non-ergodic to ergodic phase with niobium content. The presence of the pseudo-cubic phase (Pm3m), especially for x ≥ 0.0075, does not indicate the existence of the long-range cubic phase; rather, it models the contribution of nano-regions with the tetragonal symmetry as indicated in the Raman measurements. It further suggests that, with the incorporation of niobium, the size polar nano-regions diminish that leads to the crossover from the non-ergodic to ergodic phase. [ABSTRACT FROM AUTHOR]

Published
2023
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18. Enhanced ferroelectric and piezoelectricity in 100 MeV Ag7+ ion-irradiated  <011>-oriented TGS single crystals

Author

Villapakkam Chandra Sekaran, Bharath Sabarish, Arulmozhi, Durairajan, Manuel Pedro Fernandes, Graça, Manuel Almeida, Valente, jayapal, Gajendiran, Balabhadrapatruni Naga, Rajasekhar, Asim Kumar, Das, Bhatt, Rajeev, Bhaumik, Indranil, Mohammad, Soharab, Anil Kumar, Sinha, Manvendra Narayan, Singh, Srinivasan, Gokulraj, and Gubendiren, Ramesh Kumar

Published
2022
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29. Effect of electric field induced structural ordering on photo-luminescence and piezoelectric response of praseodymium doped (Na0.41K0.09Bi0.5)TiO3 ceramics.

Author

Yadav, Pinki, Sharma, Ankur, Bhaumik, Indranil, and Singh, Gurvinderjit

Subjects
PRASEODYMIUM, ELECTRIC field effects, ELECTRIC fields, PHOTOLUMINESCENCE
Abstract

A correlation of the ferroelectric and photoluminescence response to the structural ordering of praseodymium doped (Na0.41K0.09Bi0.5)TiO3 has been investigated. It has been observed that the ferroelectric and photoluminescence response lacks one-to-one correlation. The ferroelectric response is generally driven by long-range polar ordering. On the contrary, photoluminescence response is concomitant to the local site symmetry around the praseodymium ion. The optimum ferroelectric response has been observed for 1.0 at. % praseodymium doped (Na0.41K0.09Bi0.5)TiO3, whereas for the sample with higher doping concentration, it diminishes gradually due to disruption of the long-range ordering. On the other hand, with the establishment of long-range ordering, no noticeable shift in the position and shape of the photoluminescence lines has been observed. However, a quenching in the photoluminescence intensity of the hypersensitive transitions (1D23H4) takes place, which has been associated with the modification in the local site symmetry. It has been argued that structural modification has an influence on the photoluminescence intensity but does not affect the energy levels of these transitions. The observed dielectric, piezoelectric, and photoluminescence response has been explained on the basis of the amphoteric nature of praseodymium in (Na0.41K0.09Bi0.5)TiO3. [ABSTRACT FROM AUTHOR]

Published
2022
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32. Effect of Nb substitution on the electronic property of lead-free piezoelectric (Na0.41K0.09Bi0.50)TiO3 single crystal: Optical absorption and photoelectron study.

Author

Sharma, Ankur, Yadav, Pinki, Bhatt, R., Banik, Soma, Singh, Gurvinderjit, and Bhaumik, Indranil

Subjects
LIGHT absorption, SINGLE crystals, OPTICAL measurements, PHOTOELECTRONS, LIGHT transmission, BISMUTH, TITANATES
Abstract

Single crystals of undoped and Nb doped sodium and potassium-bismuth titanate at the morphotropic phase boundary (MPB) composition [(Na0.41K0.09Bi0.50)TiO3: NKBT] were grown from high temperature solutions. The effect of Nb doping on the electronic property of NKBT was investigated by optical transmission and photoelectron spectroscopy (PES). The optical absorption shows that the bandgap having the lowest energy is indirect in nature and increases with the increase in the Nb concentration in the lattice. The estimated Urbach energy increases with the increase of Nb concentration signifying an increase in the disorder in the lattice on Nb doping. The PES revealed that the valence band maxima (VBM) exhibit red shift on Nb doping. It also revealed the presence of in-gap states probably due to Ti3+ defect and oxygen vacancy. Moreover, inline with the optical measurement, the PES showed that there is a decrease in the energy gap between the VBM and defect state with the Nb doping. Furthermore, the angle resolved PES measurement confirmed the presence of both the direct and indirect bandgaps in the crystal. [ABSTRACT FROM AUTHOR]

Published
2022
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34. Growth and investigation of cobalt doped β-Ga2O3 grown by optical floating zone technique.

Author

Mantri, Priyanshi, Soharab, M., Karn, R., Bhatt, R., and Bhaumik, Indranil

Subjects
X-ray powder diffraction, LATTICE constants, ABSORPTION spectra, COBALT, SINGLE crystals, BAND gaps
Abstract

Single crystals of undoped and Co-doped β-Ga2O3 with different doping concentration have been grown using optical floating zone technique. The powder X-ray diffraction analysis shows no significant variation in lattice parameters on Co doping in the crystal. The absorption spectra shows a decrease in the absorption edge with Co-doping and a broad absorption band in the range 950-1700 nmdue to transitions in Co ions. The absorption analysis shows that both undoped and Co-doped β-Ga2O3 crystal possess indirect bandgap with band gap energy decreasing on increasing the Co-doping. Further, the Urbach energy has also been estimated which is found to increase with the increase in Co-doping. The observed absorption band can be utilized as a saturable to achieve passive Q-switching of near IR lasers. [ABSTRACT FROM AUTHOR]

Published
2024
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