Search

Your search keyword '"Bapna, Komal"' showing total 14 results
Start Over Author "Bapna, Komal" Search Limiters Full Text
14 results on '"Bapna, Komal"'

1. Mixed ground state in Fe-Ni Invar alloys

Author

Acharya, S. S., Medicherla, V. R. R., Bapna, Komal, Ali, Khadiza, Biswas, Deepnarayan, Rawat, Rajeev, and Maiti, Kalobaran

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science
Abstract

We investigate the ground state properties of Invar alloys via detailed study of the electronic structure of Fe$_{1-x}$Ni$_x$ alloys ($x$ = 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.9) employing $x$-ray photoelectron spectroscopy (XPS). While all the alloys exhibit soft ferromagnetic behavior with Curie temperature much higher than the room temperature, the results for invar alloy, Fe$_{0.6}$Ni$_{0.4}$ exhibit anomalous behavior. Moreover, the magneto-resistance of the Invar alloy becomes highly negative while the end members possess positive magneto-resistance. The core level spectra of the Invar alloy exhibit emergence of a distinct new feature below 20~K while all other Fe-Ni alloys exhibit no temperature dependence down to 10~K. Interestingly, the shallow core level spectra (3$s$, 3$p$) of Fe and Ni of the Invar alloy reveal stronger deviation at low temperatures compared to the deep core levels (2$s$, 2$p$) indicating crystal field effect. It appears that there is a large precipitation of antiferromagnetic $\gamma^\prime$ phase below 20 K possessing low magnetic moment (0.5$\mu_B$) on Fe within the $\alpha$ phase. The discovery of negative magneto-resistance, anomalous magnetization at low temperature and the emergence of unusual new features in the core levels at low temperature provide an evidence of mixed phase in the ground state of Invar alloys., Comment: 9 pages, 11 figures

Published
2020

3. Electronic structure depiction of magnetic origin in BaTiO$_{3-\delta}$ thin film: A combined experimental and first-principles based investigation

Author

Majumder, Supriyo, Basera, Pooja, Tripathi, Malvika, Choudhary, Ram Janay, Bhattacharya, Saswata, Bapna, Komal, and Phase, Deodutta

Subjects
Condensed Matter - Materials Science
Abstract

With the motive of unraveling the origin of native vacancy induced magnetization in ferroelectric perovskite oxide systems, here we explore the consequences of electronic structure modification in magnetic ordering of oxygen deficient epitaxial BaTiO$_{3-\delta}$ thin films. Our adapted methodology employs state-of-the-art experimental approaches viz. photo-emission, photo-absorption spectroscopies, magnetometric measurements duly combined with first principles based theoretical methods within the frame work of density functional theory (DFT and DFT+\textit{U}) calculations. Oxygen vacancy (O$ _{V} $) is observed leading partial population of Ti 3\textit{d} (t$_{2g}$), which induces defect state in electronic structure near the Fermi level and reduces the band gap. The oxygen deficient BaTiO$_{2.75} $ film reveals Mott-Hubbard insulator characteristic, in contrast to the band gap insulating nature of the stoichiometric BaTiO$ _{3}$. The observed magnetic ordering is attributed to the asymmetric distribution of spin polarized charge density in the vicinity of O$ _{V} $ site which originates unequal magnetic moment values at first and second nearest neighboring Ti sites, respectively. Hereby, we present an exclusive method for maneuvering the band gap and on-site electron correlation energy with consequences on magnetic properties of BaTiO$_{3-\delta}$ system, which can open a gateway for designing novel single phase multiferroic system., Comment: 6 figures

Published
2018
Full Text
View/download PDF

5. One step growth of PVP spheres embedded with nearly monodispersive CdS nanocrystals using chemical bath deposition

Author

Ingale, Alka A, Aggarwal, Rahul, Rani, Ekta, Bapna, Komal, Tiwari, Pragya, and Srivastava, Arvind K

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

We have used simple chemical bath deposition technique to grow nearly monodispersive CdS nanocrystals in PVP matrix. Systematic study of variation of growth parameters has revealed that optimized growth of CdS nanocrystals in PVP matrix depends on relative concentration of Cd acetate/Thiourea to polyvinyl pyrrolidone in the bath. It is also observed that higher concentration (1M) of Cd acetate/Thiourea gives rise to smaller NCs compared to lower concentration (0.5M), however density of particles is large in thin film grown using 1M concentration. Scanning electron microscopic studies show that it is a nanoparticulate film of spheres of size around 100-200nm. Further, absorption, energy dispersive spectroscopy and transmission electron microscopic investigations reveal that nearly monodispersive CdS nanocrystals are embedded in 100-200 nm PVP spheres for the range 0.5 M, 1M Cd acetate/Thiourea concentration (figure 1). The effect of varying PVP, Cd acetate/Thiourea concentration, sequence and addition of ingredients and heating/cooling cycles have been studied and results are corroborated with existing theory.

Published
2014

9. Physico-Mechanical Metrology

Author

Yadav, Sanjay, Shivagan, D. D., Bapna, Komal, Jaiswal, V. K., Sharma, Parag, Saha, Shibu, Singh, Mahavir, Garg, Naveen, Soni, Kirti, Titus, S. S. K., and Aswal, D. K.

Subjects
Article
Abstract

This chapter describes the three physico-mechanical metrology streams; temperature and humidity, optical radiation and acoustic and vibration metrology. Among the seven base SI units, temperature and optical radiation encompasses the two SI units while acoustic comprises only derived parameters. Temperature metrology includes realization and dissemination of temperature and humidity parameters, optical radiation metrology includes parameters like illuminance, illuminance responsivity, luminous flux, luminance, colour temperature, colour coordinates and spectral irradiances. Acoustic metrology includes sound pressure, vibration amplitude, sound transmission and absorption coefficients. All the parameters are inter-connected to fulfil the human needs and endeavours and have immense importance in the socio-economic growth of the country. The contribution, insinuation, impact, significance and relevance of these PMPs in different sectors like health, process and manufacturing, lighting industry, building acoustics, SODAR system and noise mapping are described along with established measurement standards and facilities, CMCs, participation in key comparisons, gap analysis and futuristic requirements and suggestions. All these endeavours are carried for the inclusive industrial growth of the nation.

Published
2020

13. Investigation of spin moment in Ga-substituted cobalt ferrite: magnetic Compton scattering and photoemission studies.

Author

Sharma, Arvind, Mund, H., Bapna, Komal, Tiwari, Shailja, Itou, M., Sakurai, Y., and Ahuja, B.

Subjects
GALLIUM compounds, COMPTON scattering, MOMENTUM density, ELECTRONIC structure, PHOTOELECTRON spectroscopy, DOPING agents (Chemistry)
Abstract

We have studied the spin-dependent electron momentum density distribution in CoGaFeO ( x = 0.2, 0.3) at a low temperature (8 K) using magnetic Compton scattering technique. Further, the effect of Ga doping on the electronic structure is studied using X-ray photoemission spectroscopy (XPS). It is revealed that doping of Ga substitutes the Fe ions predominantly at tetrahedral (P) site, which promotes a gradual immigration of small amount of Co ions from tetrahedral to octahedral (Q) site. Total spin moment increases remarkably on increasing the doping concentration of nonmagnetic Ga ( x = 0 → 0.3) in the base cobalt ferrite. It is seen that major contribution to total spin moment mainly arises from Co ions while itinerant electrons show negative polarization. On Ga doping, spin moment at Fe site increases dramatically with a minor increment at Co site. The increased spin moment is attributed to the increased Q/P occupancy ratio of Fe as well as Co ions as determined using XPS measurements. In contrast, orbital moment does not show such deviations, suggesting that a small amount of Ga doping can enhance the magnetization significantly, without inducing any significant distortion to modify the spin-orbit coupling. [ABSTRACT FROM AUTHOR]

Published
2017
Full Text
View/download PDF

14. Co-substitution driven electronic structure modifications in Zn1 − x Co x O.

Author

Vagadia, Megha, Ravalia, Ashish, Katba, Savan, Solanki, P.S., Bapna, Komal, Kumar, Manish, Choudhary, R.J., Phase, D.M., and Kuberkar, D.G.

Subjects
*SUBSTITUTION reactions, *ELECTRONIC structure, *ZINC compounds, *COBALT oxides, *PHOTOELECTRON spectroscopy, *VALENCE bands
Abstract

Highlights: [•] Sol–gel grown polycrystalline single phasic Zn1 − x Co x O system is synthesized. [•] X-ray Photoemission spectroscopy reveals that, Co-substitution results in the EF shift and chemical shift in ZnO. [•] Co-substitution induced electronic structure and valence band modifications in Zn1 − x Co x O (x =0, 0.5 and 0.15) samples. [•] Co 3d states around 3.4eV show resonance at ∼62eV and are hybridized with O 2p bonding states. [ABSTRACT FROM AUTHOR]

Published
2014
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results