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2. Magnetic and Electronic Structure study of Fe/MgO/Fe/Co Multilayer Stack Deposited by E-Beam Evaporation

Author

Singh, Jitendra Pal, Gautam, Sanjeev, Singh, Braj Bhusan, Raju, M., Chaudhary, S., Kabiraj, D., Kanjilal, D., Lee, Jenn-Min, Chen, Jin-Ming, Asokan, K., and Chae, Keun Hwa

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

Present work investigates the magnetic and electronic structure of MgO/Fe/MgO/Fe/Co/Au multilayer stack grown on Si(100) substrates by electron beam evaporation method. X-ray diffraction study depicts polycrystalline nature of the multilayers. Results obtained from vibrating sample magnetometry (VSM) and near-edge X-ray absorption fine structure spectra (NEXAFS) at Fe & Co L- and Mg & O K-edges are applied to understand the magnetic and electronic properties of this stack and its interface properties. While the spectral features of Fe L-edge spectrum recorded by surface sensitive total electron yield (TEY) mode shows the formation of FeOx at the Fe/MgO interface, the bulk sensitive total fluorescence yield (TFY), shows Fe in metallic nature. Co L-edge spectrum reveals the presence of metallic nature of cobalt in both TEY and TFY modes. Above results are well correlated with X-ray reflectometry.

Published
2013

3. A Hybrid model for the origin of photoluminescence from Ge nanocrystals in SiO$_2$ matrix

Author

Singha, A., Roy, A., Kabiraj, D., and Kanjilal, D.

Subjects
Condensed Matter - Materials Science
Abstract

In spite of several articles, the origin of visible luminescence from germanium nanocrystals in SiO$_2$ matrix is controversial even today. Some authors attribute the luminescence to quantum confinement of charge carriers in these nanocrystals. On the other hand, surface or defect states formed during the growth process, have also been proposed as the source of luminescence in this system. We have addressed this long standing query by simultaneous photoluminescence and Raman measurements on germanium nanocrystals embedded in SiO$_2$ matrix, grown by two different techniques: (i) low energy ion-implantation and (ii) atom beam sputtering. Along with our own experimental observations, we have summarized relevant information available in the literature and proposed a \emph{Hybrid Model} to explain the visible photoluminescence from nanocrystalline germanium in SiO$_2$ matrix., Comment: 23 pages, 8 figures

Published
2006
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4. Observation of Metastable and Stable Energy Levels of EL2 in Semi-insulating GaAs

Author

Kabiraj, D. and Ghosh, Subhasis

Subjects
Condensed Matter - Materials Science
Abstract

By using combination of detailed experimental studies, we identify the metastable and stable energy levels of EL2 in semi-insulating GaAs. These results are discussed in the light of the recently proposed models for stable and metastable configurations of EL2 in GaAs.

Published
2005
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5. Energy dependent sputtering of nano-clusters from a nanodisperse target and embedding of nanoparticles into a substrate

Author

Satpati, B., Ghatak, J., Joseph, B., Satyam, P. V., Som, T., Kabiraj, D., and Dev, B. N.

Subjects
Condensed Matter - Materials Science
Abstract

Au nanoparticles, prepared by thermal evaporation under high vacuum condition on Si substrate, are irradiated with Au ions at different ion energies. During ion irradiation, embedding of nanoparticles as well as ejection of nano-clusters is observed. Ejected particles (usually smaller than those on the Si substrate) due to sputtering are collected on carbon-coated transmission electron microscopy (TEM) grids. Both the TEM grids and the ion-irradiated samples are analyzed with TEM. Unirradiated as well as irradiated samples are also analyzed by Rutherford backscattering spectrometry (RBS). In the case of low energy (32 keV) ions, where the nuclear energy loss is dominant, both sputtering and embedding are less compared to medium energy (1.5 MeV). In the high energy regime (100 MeV), where the electronic energy loss is dominant, sputtering is maximum but practically there is no embedding. Ion bombardment of surfaces at an angle with respect to the surface-normal produces enhanced embedding compared to normal-incidence bombardment. The depth of embedding increases with larger angle of incidence. Au nanoparticles after ion irradiation form embedded gold-silicide. Size distribution of the sputtered Au clusters on the TEM grids for different ion energy regimes are presented., Comment: 11 pages, 5 figures, Submitted as a contributary paper in INDO-GERMAN Workshop held at NSC, New Delhi during 20-24th Feb.,2005

Published
2005

8. A Combinatorial Study Investigating the Growth of Ultrasmall Embedded Silver Nanoparticles upon Thermal Annealing

Author

Jatav, H., Shabaninezhad, M., Mičetić, M., Chakravorty, A., Mishra, A., Schwartzkopf, M., Chumakov, A., Roth, Stephan V., Kabiraj, D., Jatav, H., Shabaninezhad, M., Mičetić, M., Chakravorty, A., Mishra, A., Schwartzkopf, M., Chumakov, A., Roth, Stephan V., and Kabiraj, D.

Abstract

Ultrasmall nanoparticles (NPs) with a high active surface area are essential for optoelectronic and photovoltaic applications. However, the structural stability and sustainability of these ultrasmall NPs at higher temperatures remain a critical problem. Here, we have synthesized the nanocomposites (NCs) of Ag NPs inside the silica matrix using the atom beam co-sputtering technique. The post-deposition growth of the embedded Ag NPs is systematically investigated at a wide range of annealing temperatures (ATs). A novel, fast, and effective procedure, correlating the experimental (UV-vis absorption results) and theoretical (quantum mechanical modeling, QMM) results, is used to estimate the size of NPs. The QMM-based simulation, employed for this work, is found to be more accurate in reproducing the absorption spectra over the classical/modified Drude model, which fails to predict the expected shift in the LSPR for ultrasmall NPs. Unlike the classical Drude model, the QMM incorporates the intraband transition of the conduction band electrons to calculate the effective dielectric function of metallic NCs, which is the major contribution of LSPR shifts for ultrasmall NPs. In this framework, a direct comparison is made between experimentally and theoretically observed LSPR peak positions, and it is observed that the size of NPs grows from 3 to 18 nm as AT increases from room temperature to 900 °C. Further, in situ grazing-incidence small- & wide-angle X-ray scattering and transmission electron microscopy measurements are employed to comprehend the growth of Ag NPs and validate the UV + QMM results. We demonstrate that, unlike chemically grown NPs, the embedded Ag NPs ensure greater stability in size and remain in an ultrasmall regime up to 800 °C, and beyond this temperature, the size of NPs increases exponentially due to dominant Ostwald ripening. Finally, a three-stage mechanism is discussed to understand the process of nucleation and growth of the silica-embedded Ag, QC 20230602

Published
2022
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14. Progress of Delhi Light Source at IUAC, New Delhi

Author

Ghosh, Subhendu, Abhilash, Sthuthikkatt, Aryshev, Alexander, Bhandari, Rakesh, Chaudhari, Gajanan, Fukuda, Masafumi, Fukuda, Shigeki, Joshi, Vipul, Kabiraj, D., Kanjilal, Dinakar, Karmakar, Bappa, Karmakar, Joydeep, Kumar, Narender, Kumar, Sarvesh, Lehnert, Ulf, Michel, Peter, Naik, Vaishali, Pandey, Ashutosh, Patra, Padmanava, Rao, Triveni, Rodrigues, Dr. Gerard, Roy, Amit, Sahu, Bhuban, Sharma, Ashish, Terunuma, Nobuhiro, Tischer, Markus, Tripathi, Sumit, and Urakawa, Junji

Subjects
New Lasing & Status of Projects, Accelerator Physics
Abstract

The first phase of the pre-bunched FEL based on the Photoinjector RF electron gun, known as Delhi Light Source (DLS),* has been planned at Inter University Accelerator Centre (IUAC), New Delhi. The electron gun made from OFHC copper had already been fabricated and tested with low power RF at KEK, Japan. The beam optics calculation by using ASTRA, GPT codes has been performed and radiation produced from the pre-bunched electron bunches are being calculated.** The high power RF systems will be commissioned at IUAC by the beginning of 2018. The design of the laser system is being finalized and assembly/testing of the complete laser system will be started soon at KEK. The initial design of the photocathode deposition mechanism has also been completed and its procurement/development process will start shortly. The first version of the undulator magnet design has been completed and further improvements are underway.*** The initial arrangements of the DLS beam line have been worked out and various beam diagnostics components are being finalised. The production of the electron beam and THz radiation is expected by 2018 and 2019, respectively., Proceedings of the 38th Int. Free Electron Laser Conf., FEL2017, Santa Fe, NM, USA

Published
2017
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15. Fabrication and characterization of enriched 154,144Sm and 142,148Nd targets on Al-backing for nuclear physics experiments at IUAC, New Delhi, India.

Author

Giri, Pankaj K., Mahato, Amritraj, Singh, D., Linda, Sneha B., R., Abhilash S., Deb, Nabendu K., Umapathy, G. R., Ojha, S., Kabiraj, D., and Chopra, S.

Subjects
FABRICATION (Manufacturing), NUCLEAR physics experiments, HEAVY ion accelerators, ENERGY dispersive X-ray spectroscopy, RUTHERFORD backscattering spectrometry
Abstract

The enriched targets of stable isotopes 154,144Sm and 142,148Nd have been fabricated for the measurements of excitation functions and recoil range distributions studies using different heavy ion projectile at IUAC, New Delhi. These targets have been fabricated by electron gun evaporation on Al backing. A very thin capping has been applied to prevent material from getting oxidized and eventual deterioration of material itself. The enriched 154,144Sm and 142,148Nd samples have been capped by carbon and aluminium, respectively. These samples of multiple thicknesses have been prepared using a high vacuum evaporation chamber facility. The thickness and uniformity of the different samples have been measured by Rutherford backscattering spectrometry (RBS) and energy dispersive x-ray spectroscopy (EDXS). These measurements also confirm that there are no unwanted impurities in the prepared targets. Large number of sandwiched targets, more than 30, of 144,154Sm and 142,148Nd isotopes have been successfully fabricated in a single evaporation. In the present study, the sandwiched targets have been fabricated using high vacuum evaporation technique. This technique is a very useful and cost efficient method to prepare large number of thin isotopic enriched targets having oxidizing property for experimental nuclear physics. [ABSTRACT FROM AUTHOR]

Published
2019

16. Sub-nanosecond Thermal Spike Induced Nanostructuring of Thin Solid Films Under Swift Heavy Ion (SHI) Irradiation

Author

Ghosh, S., Kumar, H., Singh, S. P., Srivastava, P., Kabiraj, D., Avasthi, D. K., Bürger, D., Zhou, S., Mücklich, A., Schmidt, H., Stouquert, J. P., Ghosh, S., Kumar, H., Singh, S. P., Srivastava, P., Kabiraj, D., Avasthi, D. K., Bürger, D., Zhou, S., Mücklich, A., Schmidt, H., and Stouquert, J. P.

Abstract

The interaction between swift heavy ions (SHI) and a solid has been identified as one of the important physical processes to generate or modify nanostructures in thin solid films. The large part of the energy which is deposited in the electronic subsystem of a material by SHI is known as electronic energy loss and gets coupled to the lattice subsystem in a complex way resulting in a transient (picoseconds to sub-nanosecond) thermal spike within a few nanometer diameter region of the thin solid film along the ion path. The temperature of this narrow zone may raise up to 1000 K or more during this time. This transient heating process is known as lattice thermal spike and can be used as a tool to engineer materials down to the nanoscale. Here we address two important consequences of lattice thermal spike; (i) elongation of metal nanoparticles embedded in dielectric thin films and (ii) generation of a-Si/c-Si nanostructures in a silicon nitride matrix. (i) Metal nanoparticles embedded in a thin film matrix belong to a class of materials that has potential applications as optical and magnetic sensors, storage, memory devices, field emission display etc. The nanoparticle size and shape, orientation, inter-particle separation and dielectric constant of the surrounding matrix are the crucial parameters which control their properties. Thermal spike generated by SHI in these nanoparticles and surrounding matrix can be used as a unique tool to tailor the shape of the embedded nanoparticles, eventually modifying the physical properties of these materials. Metal nanoparticles, which are mostly spherical in shape in as grown films, get elongated along the direction of SHI due to thermal spike induced melting and stress. After a brief introduction of some fundamental aspects and synthesis of these films, a detailed discussion on elongation of nearly spherical Ni nanoparticles embedded in SiO2 thin film matrix under 120 MeV Au ion irradiation is made. Various physical parameters in

Published
2014

17. Role of Coulomb blockade and spin-flip scattering in tunneling magnetoresistance of FeCo-Si-O nanogranular films

Author

Kumar, H., Ghosh, S., Bürger, D., Li, L., Zhou, S., Kabiraj, D., Avasthi, D. K., Grötzschel, R., Schmidt, H., Kumar, H., Ghosh, S., Bürger, D., Li, L., Zhou, S., Kabiraj, D., Avasthi, D. K., Grötzschel, R., and Schmidt, H.

Abstract

In this work we report the effect of FeCo atomic fraction (0.33 < x < 0.54) and temperature on the electrical, magnetic and tunneling magnetoresistance (TMR) properties of FeCo-Si-O granular films prepared by atom beam sputtering technique. GAXRD and TEM studies reveal that films are amorphous in nature. The dipole-dipole interactions (particle-matrix mixing) is evident from Zero-field cooled (ZFC) and field-cooled (FC) magnetic susceptibility measurements and the presence of oxides (mainly Fe- related) is observed by XPS analysis. The presence of Fe-oxides is responsible for the observed reduction of saturation magnetization and rapid increase in coercivity below 50 K. TMR has been observed in a wide temperature range and a maximum TMR of -4.25 % at 300 K is observed for x = 0.39 at a maximum applied field of 60 kOe. The fast decay of maximum TMR at high temperatures and lower TMR values at 300 K as compared to , where PFeCo is the spin polarization of FeCo are in accordance with a theoretical model that includes spin-flip scattering processes. The temperature dependent study of TMR effect reveals a remarkably enhanced TMR at low temperatures. The TMR value varies from -2.1% at 300 K to -14.5% at 5 K for x = 0.54 and a large MR value of -18.5% at 5 K for x = 0.39 is explained on the basis of theoretical models involving Coulomb blockade effects. Qualitatively particle-matrix mixing and presence of Fe-oxides seems to be the source of spin-flip scattering, responsible for fast decay of TMR at high temperatures. A combination of higher order tunneling (in Coulomb blockade regime) and spin flip scattering (high temperature regime) explains the temperature dependent TMR of these films.

Published
2011

18. Ion beam-induced shaping of Ni nanoparticles embedded in a silica matrix: from spherical to prolate shape

Author

Kumar, H., Ghosh, S., Avasthi, D. K., Kabiraj, D., Mücklich, A., Zhou, S., Schmidt, H., Stoquert, J. P., Kumar, H., Ghosh, S., Avasthi, D. K., Kabiraj, D., Mücklich, A., Zhou, S., Schmidt, H., and Stoquert, J. P.

Abstract

Present work reports the elongation of spherical Ni nanoparticles (NPs) parallel to each other, due to bombardment with 120 MeV Au+9 ions at a fluence of 5 × 1013 ions/cm2. The Ni NPs embedded in silica matrix have been prepared by atom beam sputtering technique and subsequent annealing. The elongation of Ni NPs due to interaction with Au+9 ions as investigated by cross-sectional transmission electron microscopy (TEM) shows a strong dependence on initial Ni particle size and is explained on the basis of thermal spike model. Irradiation induces a change from single crystalline nature of spherical particles to polycrystalline nature of elongated particles. Magnetization measurements indicate that changes in coercivity (Hc) and remanence ratio (Mr/Ms) are stronger in the ion beam direction due to the preferential easy axis of elongated particles in the beam direction.

Published
2011

19. Microstructure, electrical, magnetic, and extraordinary Hall effect studies in Ni:SiO2 nanogranular films synthesized by atom beam sputtering

Author

Kumar, H., Gosh, S., Bürger, D., Zhou, S., Kabiraj, D., Avasthi, D. K., Grötzschel, R., Schmidt, H., Kumar, H., Gosh, S., Bürger, D., Zhou, S., Kabiraj, D., Avasthi, D. K., Grötzschel, R., and Schmidt, H.

Abstract

In this work we report on the synthesis of Ni:SiO2 nanogranular films with different metal fraction 0.10 < x < 0.68 and a homogeneous distribution of Ni particles by atom beam sputtering technique and on the study of their microstructure, electrical transport, magnetic properties, and on the observation of extraordinary Hall effect (EHE). Films with the Ni fraction x above percolation threshold x > 0.58 > xp as revealed by resistivity versus temperature measurements have a large Ni particle size, pronounced ferromagnetic characteristics, and appreciable extraordinary Hall resistivity at 300 K. Furthermore, films above percolation have a relatively low, nearly temperature independent Ohmic resistivity smaller than 10E−3 Ohm cm and may be useful for Hall sensor applications. On the other hand, films below percolation threshold x < 0.54 < xp have a small Ni particle size, superparamagnetic behavior, and do not show EHE at 300 K. However, at 5 K all films show ferromagnetic characteristics with an enhanced EHE.

Published
2010

20. Modification of charge compensation in semi-insulating semiconductors by high energy light ion irradiation

Author

Kabiraj, D., Grötzschel, R., Ghosh, S., Kabiraj, D., Grötzschel, R., and Ghosh, S.

Abstract

High energy light ions have been used to engineer the electrical properties of semi-insulating InP and GaAs by creation and annihilation of native defects. Due to light mass, high energy ions lose most of their energy during flight inside the material by electronic excitation, which also modifies the charge states of the defect. Imbalance in charge compensation caused by irradiation induced defect engineering results in the modification of resistivity of the semi-insulating samples. The activation energies of the defect levels responsible for the modified resistivity have been estimated from the measurement of thermally activated currents. It is shown that the modified charge compensation is due to annihilation and/or creation of native defects depending on the material (GaAs or InP) and the fluence of irradiated ions. It has also been observed that annealing does not have any effect on modified compensation in InP, but in the case of GaAs, compensation recovers after thermal annealing.

Published
2008

21. Integration of Thin-Film-Fracture-Based Nanowires into Microchip Fabrication

Author

Jebril, S., Elbahri, M., Titazu, G., Subannajui, K., Essa, S., Niebelschütz, F., Röhlig, C.-C., Cimalla, V., Ambacher, O., Schmidt, B., Kabiraj, D., Avasti, D., Adelung, R., Jebril, S., Elbahri, M., Titazu, G., Subannajui, K., Essa, S., Niebelschütz, F., Röhlig, C.-C., Cimalla, V., Ambacher, O., Schmidt, B., Kabiraj, D., Avasti, D., and Adelung, R.

Abstract

One-step device fabrication through the integration of nanowires (NWs) into silicon microchips is still under intensive scientific study as it has proved difficult to obtain a reliable and controllable fabrication technique. So far, the techniques are either costly or suffer from small throughput. Recently, a cost-effective method based on thin-film fracture that can be used as a template for NW fabrication was suggested. Here, a way to integrate NWs between microcontacts is demonstrated. Different geometries of microstructured photoresist formed by using standard photolithography are analyzed. Surprisingly, a very simple ‘‘stripe’’ geometry is found to yield highly reproducible fracture patterns, which are convenient templates for fault-tolerantNWfabrication. Microchips containing integrated Au, Pd, Ni, and Ti NWs and their suitability for studies of conductivity and oxidation behavior are reported, and their suitability as a hydrogen sensor is investigated. Details of the fabrication process are also discussed.

Published
2008

22. Phase formation within Au and Ge nanoislands by room temperature ion irradiation

Author

Som, T., Satpati, B., Prokert, F., Cantelli, V., Kabiraj, D., Som, T., Satpati, B., Prokert, F., Cantelli, V., and Kabiraj, D.

Abstract

We investigate the effects of room-temperature irradiation of Au and Ge nanoislands grown on Si. Our studies show the formation of Au-Ge alloy phase within the islands and wetting of the substrate. High-resolution transmission electron microscopy along with synchrotron radiation-based x-ray reflectivity and grazing incidence x-ray diffraction measurements were performed to characterize the irradiation-induced changes brought into the sequentially deposited Au and Ge island thin films. The results are attributed to the recoil implantation and the transient melting of the nanoislands followed by the formation of crystalline alloy phase.

Published
2006

24. Studies of defects and impurities in diamond thin films

Author

Sharda, T., primary, Sikder, A.K., additional, Misra, D.S., additional, Collins, A.T., additional, Bhargava, S., additional, Bist, H.D., additional, Veluchamy, P., additional, Minoura, H., additional, Kabiraj, D., additional, Awasthi, D.K., additional, and Selvam, P., additional

Published
1998
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25. Ge nanocrystals embedded in a GeOx matrix formed by thermally annealing of Ge oxide films.

Author

Vijayarangamuthu, K., Rath, Shyama, Kabiraj, D., Avasthi, D. K., Kulriya, Pawan K., Singh, V. N., and Mehta, B. R.

Subjects
NANOCRYSTALS, GERMANIUM, ANNEALING of metals, THIN films, CRYSTALLIZATION, TEMPERATURE
Abstract

The authors investigate the formation of Ge nanocrystals by thermal annealing of substoichiometric GeOx films fabricated by electron-beam evaporation. At the same time, they also monitor the evolution of the GeOx matrix. The phase separation into semiconductor and oxide phases and the evolution of Ge nanocrystals were monitored by a combination of x-ray diffraction (XRD), Raman, and transmission electron microscopy (TEM) measurements. TEM shows spherical particles of sizes in the range of 2–9 nm. They infer that an annealing temperature of 500 °C is sufficient to generate a reasonable density of Ge nanocrystals in an amorphous GeOx matrix. Both XRD and Raman measurements suggest a simultaneous crystallization of the matrix at an annealing temperature of 600 °C. [ABSTRACT FROM AUTHOR]

Published
2009
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26. Ion beam-induced shaping of Ni nanoparticles embedded in a silica matrix: from spherical to prolate shape

Author

Avasthi Devesh, Kabiraj Debdulal, Stoquert Jean-Paul, Mücklich Arndt, Zhou Shengqiang, Schmidt Heidemarie, Kumar Hardeep, and Ghosh Santanu

Subjects
Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

Abstract Present work reports the elongation of spherical Ni nanoparticles (NPs) parallel to each other, due to bombardment with 120 MeV Au+9 ions at a fluence of 5 × 1013 ions/cm2. The Ni NPs embedded in silica matrix have been prepared by atom beam sputtering technique and subsequent annealing. The elongation of Ni NPs due to interaction with Au+9 ions as investigated by cross-sectional transmission electron microscopy (TEM) shows a strong dependence on initial Ni particle size and is explained on the basis of thermal spike model. Irradiation induces a change from single crystalline nature of spherical particles to polycrystalline nature of elongated particles. Magnetization measurements indicate that changes in coercivity (Hc) and remanence ratio (Mr/Ms) are stronger in the ion beam direction due to the preferential easy axis of elongated particles in the beam direction.

Published
2011

27. Cell-free nucleic acid fragmentomics: A non-invasive window into cellular epigenomes.

Author

Sirajee AS, Kabiraj D, and De S

Abstract

Clinical genomic profiling of cell-free nucleic acids (e.g. cell-free DNA or cfDNA) from blood and other body fluids has ushered in a new era in non-invasive diagnostics and treatment monitoring strategies for health conditions and diseases such as cancer. Genomic analysis of cfDNAs not only identifies disease-associated mutations, but emerging findings suggest that structural, topological, and fragmentation characteristics of cfDNAs reveal crucial information about the location of source tissues, their epigenomes, and other clinically relevant characteristics, leading to the burgeoning field of fragmentomics. The field has seen rapid developments in computational and genomics methodologies for conducting large-scale studies on health conditions and diseases - that have led to fundamental, mechanistic discoveries as well as translational applications. Several recent studies have shown the clinical utilities of the cfDNA fragmentomics technique which has the potential to be effective for early disease diagnosis, determining treatment outcomes, and risk-free continuous patient monitoring in a non-invasive manner. In this article, we outline recent developments in computational genomic methodologies and analysis strategies, as well as the emerging insights from cfNA fragmentomics. We conclude by highlighting the current challenges and opportunities., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper. The author is an Editorial Board Member/Editor-in-Chief/Associate Editor/Guest Editor for Translational Oncology and was not involved in the editorial review or the decision to publish this article., (Copyright © 2024. Published by Elsevier Inc.)

Published
2024
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28. Mitogenome-wise codon usage pattern from comparative analysis of the first mitogenome of Blepharipa sp. (Muga uzifly) with other Oestroid flies.

Author

Kabiraj D, Chetia H, Nath A, Sharma P, Mosahari PV, Singh D, Dutta P, Neog K, and Bora U

Subjects
Animals, Codon genetics, Codon Usage, Phylogeny, Diptera genetics, Genome, Mitochondrial genetics
Abstract

Uziflies (Family: Tachinidae) are dipteran endoparasites of sericigenous insects which cause major economic loss in the silk industry globally. Here, we are presenting the first full mitogenome of Blepharipa sp. (Acc: KY644698, 15,080 bp, A + T = 78.41%), a dipteran parasitoid of Muga silkworm (Antheraea assamensis) found in the Indian states of Assam and Meghalaya. This study has confirmed that Blepharipa sp. mitogenome gene content and arrangement is similar to other Tachinidae and Sarcophagidae flies of Oestroidea superfamily, typical of ancestral Diptera. Although, Calliphoridae and Oestridae flies have undergone tRNA translocation and insertion, forming unique intergenic spacers (IGS) and overlapping regions (OL) and a few of them (IGS, OL) have been conserved across Oestroidea flies. The Tachinidae mitogenomes exhibit more AT content and AT biased codons in their protein-coding genes (PCGs) than the Oestroidea counterpart. About 92.07% of all (3722) codons in PCGs of this new species have A/T in their 3rd codon position. The high proportion of AT and repeats in the control region (CR) affects sequence coverage, resulting in a short CR (Blepharipa sp.: 168 bp) and a smaller tachinid mitogenome. Our research unveils those genes with a high AT content had a reduced effective number of codons, leading to high codon usage bias. The neutrality test shows that natural selection has a stronger influence on codon usage bias than directed mutational pressure. This study also reveals that longer PCGs (e.g., nad5, cox1) have a higher codon usage bias than shorter PCGs (e.g., atp8, nad4l). The divergence rates increase nonlinearly as AT content at the 3rd codon position increases and higher rate of synonymous divergence than nonsynonymous divergence causes strong purifying selection. The phylogenetic analysis explains that Blepharipa sp. is well suited in the family of insectivorous tachinid maggots. It's possible that biased codon usage in the Tachinidae family reduces the effective number of codons, and purifying selection retains the core functions in their mitogenome, which could help with efficient metabolism in their endo-parasitic life style and survival strategy., (© 2022. The Author(s).)

Published
2022
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29. Localized thermal spike driven morphology and electronic structure transformation in swift heavy ion irradiated TiO 2 nanorods.

Author

Dey S, Chakravorty A, Mishra SB, Khatun N, Hazra A, Nanda BRK, Sudakar C, Kabiraj D, and Roy SC

Abstract

Irradiation of materials by high energy (∼MeV) ions causes intense electronic excitations through inelastic transfer of energy that significantly modifies physicochemical properties. We report the effect of 100 MeV Ag ion irradiation and resultant localized (∼few nm) thermal spike on vertically oriented TiO 2 nanorods (∼100 nm width) towards tailoring their structural and electronic properties. Rapid quenching of the thermal spike induced molten state within ∼0.5 picosecond results in a distortion in the crystalline structure that increases with increasing fluences (ions per cm 2 ). Microstructural investigations reveal ion track formation along with a corrugated surface of the nanorods. The thermal spike simulation validates the experimental observation of the ion track dimension (∼10 nm diameter) and melting of the nanorods. The optical absorption study shows direct bandgap values of 3.11 eV (pristine) and 3.23 eV (5 × 10 12 ions per cm 2 ) and an indirect bandgap value of 3.10 eV for the highest fluence (5 × 10 13 ions per cm 2 ). First principles electronic structure calculations corroborate the direct-to-indirect transition that is attributed to the structural distortion at the highest fluence. This work presents a unique technique to selectively tune the properties of nanorods for versatile applications., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published
2021
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30. The mitochondrial genome of Muga silkworm (Antheraea assamensis) and its comparative analysis with other lepidopteran insects.

Author

Singh D, Kabiraj D, Sharma P, Chetia H, Mosahari PV, Neog K, and Bora U

Subjects
Animals, Base Sequence, Phylogeny, RNA, Ribosomal genetics, RNA, Transfer genetics, Sequence Homology, Nucleic Acid, Genome, Mitochondrial, Lepidoptera genetics, Moths genetics
Abstract

Muga (Antheraea assamensis) is an economically important silkmoth endemic to the states of Assam and Meghalaya in India and is the producer of the strongest known commercial silk. However, there is a scarcity of genomic and proteomic data for understanding the organism at a molecular level. Our present study is on decoding the complete mitochondrial genome (mitogenome) of A. assamensis using next generation sequencing technology and comparing it with other available lepidopteran mitogenomes. Mitogenome of A. assamensis is an AT rich circular molecule of 15,272 bp (A+T content ~80.2%). It contains 37 genes comprising of 13 protein coding genes (PCGs), 22 tRNA and 2 rRNA genes along with a 328 bp long control region. Its typical tRNAMet-tRNAIle-tRNAGln arrangement differed from ancestral insects (tRNAIle-tRNAGln-tRNAMet). Two PCGs cox1 and cox2 were found to have CGA and GTG as start codons, respectively as reported in some lepidopterans. Interestingly, nad4l gene showed higher transversion mutations at intra-species than inter-species level. All PCGs evolved under strong purifying selection with highest evolutionary rates observed for atp8 gene while lowest for cox1 gene. We observed the typical clover-leaf shaped secondary structures of tRNAs with a few exceptions in case of tRNASer1 and tRNATyr where stable DHU and TΨC loop were absent. A significant number of mismatches (35) were found to spread over 19 tRNA structures. The control region of mitogenome contained a six bp (CTTAGA/G) deletion atypical of other Antheraea species and lacked tandem repeats. Phylogenetic position of A. assamensis was consistent with the traditional taxonomic classification of Saturniidae. The complete annotated mitogenome is available in GenBank (Accession No. KU379695). To the best of our knowledge, this is the first report on complete mitogenome of A. assamensis.

Published
2017
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31. De novo transcriptome of the muga silkworm, Antheraea assamensis (Helfer).

Author

Chetia H, Kabiraj D, Singh D, Mosahari PV, Das S, Sharma P, Neog K, Sharma S, Jayaprakash P, and Bora U

Subjects
Amino Acid Sequence, Animals, Gene Library, Gene Ontology, Genes, Insect genetics, High-Throughput Nucleotide Sequencing methods, Insect Proteins genetics, Larva genetics, Lauraceae parasitology, Molecular Sequence Annotation, Plant Leaves parasitology, Reverse Transcriptase Polymerase Chain Reaction, Sequence Analysis, DNA methods, Sequence Homology, Amino Acid, Gene Expression Profiling methods, Moths genetics, Silk genetics, Transcriptome
Abstract

Antheraea assamensis (Lepidoptera: Saturniidae), is a semi-domesticated silkworm known to be endemic to Assam and the adjoining hilly areas of Northeast India. It is the only producer of a unique, commercially important variety of golden silk called "muga silk". Herein, we report the de novo transcriptome of A. assamensis reared on Machilus bombycina leaves for the first time. Short reads generated by high throughput sequencing of cDNA libraries from multiple tissues, viz. alimentary canal, silk gland and residual body of the 5 th instar of muga silkworm were assembled into transcripts via a de novo assembly pipeline followed by functional annotation and classification. A total of 1,21,433 transcripts were generated from ~231 million raw reads of which ~74% (89,583) were either allocated a functional annotation or categorized under Pfam/COG/KEGG categories. Identification of differentially expressed transcripts and their comparative sequence analysis revealed candidate genes related to silk synthesis, viz. silk gland factor-1 and 3, sericin-like transcript, etc. with conserved forkhead, homeo- and POU domains. Several candidate anti-microbial peptides which may have potential anti-bacterial, anti-fungal or anti-parasitic activity in A. assamensis were also identified. T/A and AT/TA were predicted to be the most abundant mono- and di-nucleotide simple sequence repeat markers in the transcriptome. Transcriptome validation was carried out by quantitative real-time PCR (qPCR) amplification of eight transcripts. The resources generated by this study will expand the periphery of existing genomic data on A. assamensis facilitating future in-depth studies on its unknown aspects., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published
2017
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32. A comprehensive view of the web-resources related to sericulture.

Author

Singh D, Chetia H, Kabiraj D, Sharma S, Kumar A, Sharma P, Deka M, and Bora U

Subjects
Animals, Bombyx genetics, Databases, Genetic, Internet
Abstract

Recent progress in the field of sequencing and analysis has led to a tremendous spike in data and the development of data science tools. One of the outcomes of this scientific progress is development of numerous databases which are gaining popularity in all disciplines of biology including sericulture. As economically important organism, silkworms are studied extensively for their numerous applications in the field of textiles, biomaterials, biomimetics, etc. Similarly, host plants, pests, pathogens, etc. are also being probed to understand the seri-resources more efficiently. These studies have led to the generation of numerous seri-related databases which are extremely helpful for the scientific community. In this article, we have reviewed all the available online resources on silkworm and its related organisms, including databases as well as informative websites. We have studied their basic features and impact on research through citation count analysis, finally discussing the role of emerging sequencing and analysis technologies in the field of seri-data science. As an outcome of this review, a web portal named SeriPort, has been created which will act as an index for the various sericulture-related databases and web resources available in cyberspace.Database URL: http://www.seriport.in/., (© The Author(s) 2016. Published by Oxford University Press.)

Published
2016
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33. Curcumin Resource Database.

Author

Kumar A, Chetia H, Sharma S, Kabiraj D, Talukdar NC, and Bora U

Subjects
Animals, Curcuma, Humans, Curcumin analogs & derivatives, Curcumin chemistry, Curcumin therapeutic use
Abstract

Curcumin is one of the most intensively studied diarylheptanoid, Curcuma longa being its principal producer. This apart, a class of promising curcumin analogs has been generated in laboratories, aptly named as Curcuminoids which are showing huge potential in the fields of medicine, food technology, etc. The lack of a universal source of data on curcumin as well as curcuminoids has been felt by the curcumin research community for long. Hence, in an attempt to address this stumbling block, we have developed Curcumin Resource Database (CRDB) that aims to perform as a gateway-cum-repository to access all relevant data and related information on curcumin and its analogs. Currently, this database encompasses 1186 curcumin analogs, 195 molecular targets, 9075 peer reviewed publications, 489 patents and 176 varieties of C. longa obtained by extensive data mining and careful curation from numerous sources. Each data entry is identified by a unique CRDB ID (identifier). Furnished with a user-friendly web interface and in-built search engine, CRDB provides well-curated and cross-referenced information that are hyperlinked with external sources. CRDB is expected to be highly useful to the researchers working on structure as well as ligand-based molecular design of curcumin analogs., (© The Author(s) 2015. Published by Oxford University Press.)

Published
2015
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34. A study on the consequence of swift heavy ion irradiation of Zn-silica nanocomposite thin films: electronic sputtering.

Author

Pannu C, Singh UB, Agarwal DC, Khan SA, Ojha S, Chandra R, Amekura H, Kabiraj D, and Avasthi DK

Abstract

Zn-silica nanocomposite thin films with varying Zn metal content, deposited by atom beam sputtering technique were subjected to 100 MeV Ag ion irradiation. Rutherford backscattering spectrometry reveals the loss of Zn with irradiation, which is observed to be greater from thin films with lower Zn content. The sputtered species collected on carbon-coated transmission electron microscopy (TEM) grids consist of Zn nanoparticles of sizes comparable to those present in the nanocomposite thin film. The process of size-dependent electronic sputtering of Zn is explained on the basis of an inelastic thermal spike model. The possibility of direct cluster emission is explained by pressure spike built inside the track, initiated by a temperature spike.

Published
2014
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35. Opto-structural studies of well-dispersed silicon nano-crystals grown by atom beam sputtering.

Author

Saxena N, Kumar P, Kabiraj D, and Kanjilal D

Abstract

Synthesis and characterization of nano-crystalline silicon grown by atom beam sputtering technique are reported. Rapid thermal annealing of the deposited films is carried out in Ar + 5% H2 atmosphere for 5 min at different temperatures for precipitation of silicon nano-crystals. The samples are characterized for their optical and structural properties using various techniques. Structural studies are carried out by micro-Raman spectroscopy, Fourier transform infrared spectroscopy, transmission electron microscopy (TEM), high resolution transmission electron microscopy, and selected area electron diffraction. The optical properties are studied by photoluminescence and UV-vis absorption spectroscopy, and bandgaps are evaluated. The bandgaps are found to decrease after rapid thermal treatment. The micro-Raman studies show the formation of nano-crystalline silicon in as-deposited as well as annealed films. The shifting and broadening in Raman peak suggest formation of nano-phase in the samples. Results of micro-Raman, photoluminescence, and TEM studies suggest the presence of a bimodal crystallite size distribution for the films annealed at higher temperatures. The results show that atom beam sputtering is a suitable technique to synthesize nearly mono-dispersed silicon nano-crystals. The size of the nano-crystals may be controlled by varying annealing parameters.

Published
2012
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36. Ion beam-induced shaping of Ni nanoparticles embedded in a silica matrix: from spherical to prolate shape.

Author

Kumar H, Ghosh S, Avasthi DK, Kabiraj D, Mücklich A, Zhou S, Schmidt H, and Stoquert JP

Abstract

Present work reports the elongation of spherical Ni nanoparticles (NPs) parallel to each other, due to bombardment with 120 MeV Au+9 ions at a fluence of 5 × 1013 ions/cm2. The Ni NPs embedded in silica matrix have been prepared by atom beam sputtering technique and subsequent annealing. The elongation of Ni NPs due to interaction with Au+9 ions as investigated by cross-sectional transmission electron microscopy (TEM) shows a strong dependence on initial Ni particle size and is explained on the basis of thermal spike model. Irradiation induces a change from single crystalline nature of spherical particles to polycrystalline nature of elongated particles. Magnetization measurements indicate that changes in coercivity (Hc) and remanence ratio (Mr/Ms) are stronger in the ion beam direction due to the preferential easy axis of elongated particles in the beam direction.

Published
2011
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