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653 results on '"Somasundaram R"'

1. Growth Modulation, Photosynthetic Attributes and Proline Accumulation Led Enhancement to Oryza sativa (L.) Seedlings Exposed to NaCl Stress

Author

Reyaz Ahmad Mir, Husna K.T., and Somasundaram R.

Subjects
compatible solutes, growth, nacl stress, rice, pigment composition, Biochemistry, QD415-436
Abstract

One of the main environmental factors that limits plant performance and lowers production is soil salinity, such as NaCl stress. Therefore, to cultivate salt-tolerant crops, it is essential to understand the physiological aspects of plant to NaCl stress and use the natural genetic resource linked with salt tolerance. Rice is relatively a salt-sensitive crop that shows a significant variation in metabolic activities towards NaCl salt stress. In this view, the present investigation was carried out to find the NaCl stress tolerance of rice (ASD-16) variety. The whole experiment was accomplished in pot culture under varying NaCl concentrations (0, 25, 50, 75, and 100mM). The salt stress was imposed on the 13th days after sowing and sampling were done after five days of treatment i.e, 18th DAS. Salt stress results in a decline in growth traits, biomass production, and also reduction in carotenoids and soluble protein contents were observed with hike in NaCl treatments. However, Chlorophyll a, b, (a+b), proline contents, were found to be increased under increasing NaCl concentrations. Thus, enhancing pigment constituents and osmolytes accumulation provides salinity stress tolerance to rice seedlings.

Published
2024

2. Neutron matter from local chiral EFT interactions at large cutoffs

Author

Tews, I., Somasundaram, R., Lonardoni, D., Göttling, H., Seutin, R., Carlson, J., Gandolfi, S., Hebeler, K., and Schwenk, A.

Subjects
Nuclear Theory, Astrophysics - High Energy Astrophysical Phenomena
Abstract

Neutron matter is an important many-body system that provides valuable constraints for the equation of state (EOS) of neutron stars. Neutron-matter calculations employing chiral effective field theory (EFT) interactions have been extensively used for this purpose. Among the various many-body methods, quantum Monte Carlo (QMC) methods stand out due to their nonperturbative nature and the achievable precision. However, QMC methods require local interactions as input, which leads to the appearance of stronger regulator artifacts as compared to non-local interactions. To circumvent this, we employ large-cutoff interactions derived within chiral EFT (400 MeV $\leq \Lambda_c \leq$ 700 MeV) for studies of pure neutron matter. These interactions have been adjusted to nucleon-nucleon scattering phase shifts, the triton binding energy, as well as the triton beta-decay half life. We find that regulator artifacts significantly decrease with increasing cutoff, leading to a significant reduction of uncertainties in the neutron-matter EOS. We discuss implications for the symmetry energy and demonstrate how our new calculations lead to a reduction in the theoretical uncertainty of predicted neutron-star radii by up to 30% for low-mass stars., Comment: 7 pages, 3 figures

Published
2024

3. Relativistic Hartree-Fock Chiral Lagrangians with confinement, nucleon finite size and short-range effects

Author

Chamseddine, M., Margueron, J., Chanfray, G., Hansen, H., and Somasundaram, R.

Subjects
Nuclear Theory
Abstract

A relativistic Hartree-Fock Lagrangian including a chiral potential and nucleon polarisation is investigated in hopes of providing a better description of dense nuclear matter. We fully consider the contribution of the exchange Fock term to the energy and the self-energies, and in addition we investigate the nucleon's compositeness and finite size effects (confinement and form factors) and short range correlations modeled by a Jastrow ansatz. These effects are added step by step, such that their impact on the dense matter properties can be analysed in details. The parameters of the model are adjusted to reproduce fundamental properties related to the QCD theory at low energy, such as the chiral symmetry breaking, nucleon's quark substructure and Lattice-QCD predictions, as well as two empirical properties at saturation: the binding energy and the density. All other empirical parameters, e.g., symmetry energy and its slope, incompressibility modulus, effective mass, as well as spin-isospin Landau-Midgal parameter are predictions of the models and can be used to evaluate the gain of the different approximation schemes in describing nuclear properties. Bayesian statistics is employed in order to propagate parameter uncertainties into predictions for the nuclear matter properties. We show that the splitting of the effective Landau mass is largely influenced by the value of the $\rho^T$ coupling, and we show that the fit to the symmetry energy, which induces an increase of the coupling constant $g_\rho$ by about 20-25% compared to the case where it is fixed by the quark model, provides a very good EoS compatible with the present nuclear physics knowledge.

Published
2023
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4. Impact of O4 future detection on the determination of the dense matter equations of state

Author

Coupechoux, J. -F., Chierici, R., Hansen, H., Margueron, J., Somasundaram, R., and Sordini, V.

Subjects
Astrophysics - High Energy Astrophysical Phenomena, General Relativity and Quantum Cosmology
Abstract

In view of the next LIGO-Virgo-KAGRA Observing period O4 (to start in Spring 2023), we address the question of the ability of the interferometers network to discriminate among different neutron stars equation of states better than what was possible with the observation of the binary neutron stars merger GW170817. We show that the observation of an event similar to GW170817 during O4 would allow to resolve the dimensionless effective tidal deformability $\tilde{\Lambda}$ within an uncertainty 7 times better than the one obtained in O2. Thanks to the expected increase in sensitivities, we show that any GW170817-like single-event within a distance of 100 Mpc would imply significantly improved constraints of the neutron stars equations of state. We also illustrate the important impact of the noise in the analysis of the signal, showing how it can impact the effective tidal deformability probability density function for large signal-to-noise ratio., Comment: 27 pages, 12 figures

Published
2023
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5. Properties of the neutron star crust: Quantifying and correlating uncertainties with improved nuclear physics

Author

Grams, G., Somasundaram, R., Margueron, J., and Reddy, S.

Subjects
Nuclear Theory
Abstract

A compressible liquid-drop model (CLDM) is used to correlate uncertainties associated with the properties of the neutron star (NS) crust with theoretical estimates of the uncertainties associated with the equation of state (EOS) of homogeneous neutron and nuclear matter. For the latter, we employ recent calculations based on Hamiltonians constructed using Chiral Effective Field theory. Fits to experimental nuclear masses are employed to constrain the CLDM further, and we find that they disfavor some of the Chiral Hamiltonians. The CLDM allows us to study the complex interplay between bulk, surface, curvature, and Coulomb contributions, and their impact on the NS crust. It also reveals how the curvature energy alters the correlation between the surface energy and the bulk symmetry energy. Our analysis quantifies how the uncertainties associated with the EOS of homogeneous matter implies significant uncertainties for the composition of the crust, its proton fraction, and the volume fraction occupied by nuclei. We find that the finite-size effects impact the crust composition, but have a negligible effect on the net isospin asymmetry of matter. The isospin asymmetry is largely determined by the bulk properties and the isospin dependence of the surface energy. The most significant uncertainties associated with matter properties in the densest regions of the crust, the precise location of the crust-core transition, are found to be strongly correlated with uncertainties associated with the Hamiltonians. By adopting a unified model to describe the crust and the core of NSs, we tighten the correlation between their global properties such as their mass-radius relationship, moment of inertia, crust thickness, and tidal deformability with uncertainties associated with the nuclear Hamiltonians.

Published
2021
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6. Comparison of different relativistic models applied to dense nuclear matter

Author

Somasundaram, R., Margueron, J., Chanfray, G., and Hansen, H.

Subjects
Nuclear Theory
Abstract

We explore three different classes of relativistic approaches applied to the description of dense nuclear matter: a Walecka-type relativistic mean field model (RMF), an extension including an effective chiral potential (RMF-C) and a further extension with a chiral potential and confinement effects (RMF-CC). The parameters of the latter are controlled by fundamental properties such as the chiral potential, Lattice-QCD predictions, the quark sub-structure, as well as empirical properties at nuclear matter saturation. While these models are calibrated to the same properties at saturation density, they differ in their predictions as the density increases. We take care of parameter uncertainties and propagate them to our predictions for symmetric nuclear matter by employing Bayesian statistics. We show that RMF and RMF-C share common features as the density increases, while RMF-CC behaves differently. For instance, the scalar field at $6n_\textrm{sat}$ reaches $\sim 20$ MeV for RMF-CC while it is larger than $\sim 70$ MeV for RMF and RMF-C. Interestingly, we also show that, by fixing the $\rho$ coupling constant from the quark structure of the nucleon, these three models reproduce only half of the empirical symmetry energy., Comment: 18 pages, 11 figures

Published
2021
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9. Constraints on the nuclear symmetry energy from asymmetric-matter calculations with chiral NN and 3N interactions

Author

Somasundaram, R., Drischler, C., Tews, I., and Margueron, J.

Subjects
Nuclear Theory
Abstract

The nuclear symmetry energy is a key quantity in nuclear (astro)physics. It describes the isospin dependence of the nuclear equation of state (EOS), which is commonly assumed to be almost quadratic. In this work, we confront this standard quadratic expansion of the EOS with explicit asymmetric nuclear-matter calculations based on a set of commonly used Hamiltonians including two- and three-nucleon forces derived from chiral effective field theory. We study, in particular, the importance of non-quadratic contributions to the symmetry energy, including the non-analytic logarithmic term introduced by Kaiser [Phys.~Rev.~C \textbf{91}, 065201 (2015)]. Our results suggest that the quartic contribution to the symmetry energy can be robustly determined from the various Hamiltonians employed, and we obtain 1.00(8) MeV (or 0.55(8) MeV for the potential part) at saturation density, while the logarithmic contribution to the symmetry energy is relatively small and model-dependent. We finally employ the meta-model approach to study the impact of the higher-order contributions on the neutron-star crust-core transition density, and find a small 5\% correction., Comment: 23 pages and 12 figures; Supplemental Material: 2 pages

Published
2020
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15. Analysis on the execution measures of the queuing in radar data connection.

Author

Maragathasundari, S., Somasundaram, R. S., Aruna, C., Vanalakshmi, R., and Swedheetha, C.

Subjects
*RADAR, *QUEUING theory, *ELECTROMAGNETIC radiation, *DATA transmission systems, *BISTATIC radar
Abstract

Radio Detection and Ranging System (RADAR) is an acronym for Radio Detection and Ranging System. It's essentially an electromagnetic method for detecting the position and object distance from the RADAR's location. It operates by emitting energy into space and measuring the objects' echo or reflected signal. It works in the UHF and microwave frequencies. Radar works by sending electromagnetic radiation in the direction of objects and then observing the echoes and returns. Queuing theory is used to understand how radar works. This method depicts the radar transmission process in terms of Queuing parameters. This study uses the queuing idea to approach the aforementioned radar data communication process. The queuing mindset identifies communication flaws and allows the critical mind to be dispatched in order to reduce connection disruptions. Furthermore, this research employs the queuing idea to deal with delays and other issues that may arise during the process. Queues can aid in the discovery of inefficiencies in the system and the generation of solutions for reducing aid waste. For the chosen queue studies, all distinct overall performance metrics, as well as the queue length possibility producing function, are determined. A numerical and specified visual analysis depicts the theoretical examination of the queuing idea in Radar data communication. [ABSTRACT FROM AUTHOR]

Published
2024
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18. Towards Modelling a Trusted and Secured Centralised Reputation System for VANET’s

Author

Thenmozhi, T., Somasundaram, R. M., Kacprzyk, Janusz, Series editor, Pal, Nikhil R., Advisory editor, Bello Perez, Rafael, Advisory editor, Corchado, Emilio S., Advisory editor, Hagras, Hani, Advisory editor, Kóczy, László T., Advisory editor, Kreinovich, Vladik, Advisory editor, Lin, Chin-Teng, Advisory editor, Lu, Jie, Advisory editor, Melin, Patricia, Advisory editor, Nedjah, Nadia, Advisory editor, Nguyen, Ngoc Thanh, Advisory editor, Wang, Jun, Advisory editor, Suresh, L. Padma, editor, and Panigrahi, Bijaya Ketan, editor

Published
2016
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31. Conservation of copy number profiles during engraftment and passaging of patient-derived cancer xenografts

Author

Woo, X.Y., Giordano, J., Srivastava, A., Zhao, Z.-., Lloyd, M.W., de Bruijn, R., Suh, Y.-., Patidar, R., Chen, L., Scherer, S., Bailey, M.H., Yang, C.-., Cortes-Sanchez, E., Xi, Y., Wang, J., Wickramasinghe, J., Kossenkov, A.V., Rebecca, V.W., Sun, H., Mashl, R.J., Davies, S.R., Jeon, R., Frech, C., Randjelovic, J., Rosains, J., Galimi, F., Bertotti, A., Lafferty, A., O'Farrell, A.C., Modave, E., Lambrechts, D., ter Brugge, P., Marangoni, E., El Botty, R., Kim, H., Kim, J.-., Yang, H.-., Lee, C., Dean, D.A., Davis-Dusenbery, B., Evrard, Y.A., Doroshow, J.H., Welm, A.L., Welm, B.E., Lewis, M.T., Fang, B., Roth, J.A., Meric-Bernstam, F., Herlyn, M., Davies, M.A., Ding, L., Li, S., Govindan, R., Isella, C., Moscow, J.A., Trusolino, L., Byrne, A.T., Jonkers, J., Bult, C.J., Medico, E., Chuang, J.H., Robinson, P.N., Sanderson, B.J., Neuhauser, S.B., Dobrolecki, L.E., Zheng, X., Majidi, M., Zhang, R., Zhang, X., Akcakanat, A., Evans, K.W., Yap, T.A., Li, D., Yucan, E., Lanier, C.D., Saridogan, T., Kirby, B.P., M. J., H., Chen, H., Kopetz, S., Menter, D.G., Zhang, J., Westin, S.N., Kim, M.P., Dai, B., Gibbons, D.L., Tapia, C., Jensen, V.B., Boning, G., Minna, J.D., Park, H., Timmons, B.C., Girard, L., Fingerman, D., Liu, Q., Somasundaram, R., Xiao, M., Yennu-Nanda, V.G., Tetzlaff, M.T., Xu, X., Nathanson, K.L., Cao, S., Chen, F., Dipersio, J.F., Lim, K.H., C. X., M., Rodriguez, F.M., Van Tine, B.A., Wang-Gillam, A., Wendl, M.C., Wu, Y., Wyczalkowski, M.A., Yao, L., Jayasinghe, R., Aft, R.L., Fields, R.C., Luo, J., Fuh, K.C., Chin, V., Digiovanna, J., Grover, J., Koc, S., Seepo, S., Wallace, T., Pan, C.-., Chen, M.S., Carvajal-Carmona, L.G., Kirane, A.R., Cho, M., Gandara, D.R., Riess, J.W., Le, T., deVere White, R.W., Tepper, C.G., Zhang, H., Coggins, N.B., Lott, P., Estrada, A., Toal, T., Arana, A.M., Polanco-Echeverry, G., Rocha, S., A. -H., M., Mitsiades, N., Kaochar, S., O'Malley, B.W., Ellis, M.J., Hilsenbeck, S.G., Ittmann, M., Corso, S., Fiori, A., Giordano, S., van de Ven, M., Peeper, D.S., Miller, I., Bernado, C., Morancho, B., Ramirez, L., Arribas, J., Palmer, H.G., Piris-Gimenez, A., Soucek, L., Dahmani, A., Montaudon, E., Nemati, F., Dangles-Marie, V., Decaudin, D., Roman-Roman, S., Alferez, D.G., Spence, K., Clarke, R.B., Bentires-Alj, M., Chang, D.K., Biankin, A.V., Bruna, A., O'Reilly, M., Caldas, C., Casanovas, O., Gonzalez-Suarez, E., Munoz, P., Villanueva, A., Conte, N., Mason, J., Thorne, R., Meehan, T.F., Parkinson, H., Dudova, Z., Krenek, A., Stuchlik, D., Elemento, O., Inghirami, G., Golebiewska, A., Niclou, S.P., Wisman, G.B.A., de Jong, S., Kralova, P., Sedlacek, R., Claeys, E., Leucci, E., Borsani, M., Lanfrancone, L., Pelicci, P.G., Maelandsmo, G.M., Norum, J.H., Vinolo, E., Serra, V., and Leucci, Eleonora

Subjects
endocrine system diseases, Microarray, gene amplification, Whole Exome Sequencing, Mice, 0302 clinical medicine, Gene expression, Databases, Genetic, Gene duplication, Neoplasm Metastasis, Exome sequencing, Cancer, Regulation of gene expression, 0303 health sciences, Manchester Cancer Research Centre, adult, adult, animal experiment, animal model, animal tissue, breast cancer, microarray, DNA sequencing engraftment, gene amplification, tumor, xenograft, tumor-related gene, Polymorphism, Single Nucleotide/genetics, 3. Good health, Gene Expression Regulation, Neoplastic, 030220 oncology & carcinogenesis, microarray, hormones, hormone substitutes, and hormone antagonists, tumor, endocrine system, DNA sequencing engraftment, animal experiment, DNA Copy Number Variations/genetics, Biology, digestive system, DNA sequencing, Article, animal tissue, 03 medical and health sciences, breast cancer, Breast cancer, Genetics, medicine, Animals, Humans, xenograft, Gene, 030304 developmental biology, Settore MED/04 - Patologia Generale, Microarray analysis techniques, animal model, ResearchInstitutes_Networks_Beacons/mcrc, tumor-related gene, medicine.disease, Xenograft Model Antitumor Assays, Computational biology and bioinformatics, Cancer research, Human cancer
Abstract

Patient-derived xenografts (PDXs) are resected human tumors engrafted into mice for preclinical studies and therapeutic testing. It has been proposed that the mouse host affects tumor evolution during PDX engraftment and propagation, affecting the accuracy of PDX modeling of human cancer. Here, we exhaustively analyze copy number alterations (CNAs) in 1,451 PDX and matched patient tumor (PT) samples from 509 PDX models. CNA inferences based on DNA sequencing and microarray data displayed substantially higher resolution and dynamic range than gene expression-based inferences, and they also showed strong CNA conservation from PTs through late-passage PDXs. CNA recurrence analysis of 130 colorectal and breast PT/PDX-early/PDX-late trios confirmed high-resolution CNA retention. We observed no significant enrichment of cancer-related genes in PDX-specific CNAs across models. Moreover, CNA differences between patient and PDX tumors were comparable to variations in multiregion samples within patients. Our study demonstrates the lack of systematic copy number evolution driven by the PDX mouse host., Analysis of copy number alterations in 1,451 patient-derived xenografts (PDXs) and matched patient tumor samples shows strong conservation from patient tumors through late-passage PDXs and a lack of systematic copy number evolution driven by the mouse host.

Published
2021

32. Challenges and Advantages of Implementing Blockchain Internet of Medical Things (B-IoMT) in 6G Networks

Author

Murugan K., Somasundaram R., Mythili Thirugnanam, Pousia S., and Sakthi U.

Abstract

The internet of things (IoT) has cleared the door for sophisticated functionalities to be introduced into the healthcare business. IoT systems handle a significant amount of data and require 6G network connectivity, power, and storage to convert it into useful information. The internet of medical things refers to the use of IoT-based internet-enabled medical devices in the healthcare business (IoMT). The lack of security standardization and energy-consuming cryptographic algorithms in man-in-the-middle attacks, session hijacking, and wireless encryption breaking are all possible security problems with IoMT. On the other hand, because of its decentralised nature, blockchain may be used to address IoT problems. The widespread adoption of decentralised blockchain technology in IoT has significantly reduced the danger of sensitive healthcare data being exposed. The authors combine blockchain technology with IoMT (B-IoMT) in this chapter to enable secure data transfer over a 6G network connection. The blockchain's security characteristics aid in achieving tamper-proof data transfer in IoMT.

Published
2022

33. Neutron star crust properties: comparison between the compressible liquid-drop model and the extended Thomas-Fermi approach

Author

Grams, G., Margueron, Jérôme, Somasundaram, R., Chamel, Nicolas, Goriely, Stéphane, Grams, G., Margueron, Jérôme, Somasundaram, R., Chamel, Nicolas, and Goriely, Stéphane

Abstract

We present a detailed analysis of three models predicting the properties of non-uniform matter in the crust of neutron stars: the compressible liquid-drop model, the fourth order Extended Thomas Fermi (ETF) method, and ETF plus Strutinsky integral (ETFSI) correction. The former treats the nuclear clusters as uniform hard spheres, the second takes into account the density distribution which can be different for neutrons and protons, and the last one includes the proton shell effects within the Strutinsky approach. The purpose of this work is to understand the importance of the improvements in the nuclear modeling and to analyze the quantities which are the most sensitive to them. We find that thermodynamic quantities such as pressure, energy and chemical potential, as well as the electron fraction, are in very good agreement among the three models. This confirms previous results where we have shown that the improvement in the finite-size description of the nuclear clusters has a small impact on these quantities, since they are mainly constrained by the bulk properties. The refinements in the finite-size modeling are shown to impact mostly the composition of the nuclear clusters ( Z cl ,N cl ) in an ordering which ranks according to the leptodermous expansion. This analysis is performed considering both the r-cluster and the e-cluster representations. The proton shell effects are shown to stabilize Z cl ,which consequently impacts the neutron number N cl as well., SCOPUS: cp.p, info:eu-repo/semantics/published

Published
2022

34. Accumulation of Osmoprotectants Acclimating Proso millet (Panicum miliaceum L.) to Drought Stress Tolerance.

Author

Mir, Reyaz Ahmad and Somasundaram, R.

Subjects
DROUGHTS, BROOMCORN millet, DROUGHT tolerance, AMINO acids, PLANT growth, PROLINE
Abstract

Drought is one of the environmental stressors that limits plant growth, production, and is a great threat to the rising population and security throughout the globe. In the present work, we aimed to check the impact of drought stress given at different days interval drought (DID) on proso millet and its tolerance capability. The pot culture experiment was conducted and drought stress was given at 3 DID, 5 DID, and 7 DID respectively, and sampling was done on 15, 30, and 60 DAS, and unstressed plants were irrigated regularly. Drought stress results in decreased protein contents in both the roots and shoots of P. miliaceum on all sampling days. However, with increasing drought intensity and duration there was a tremendous increase in amino acids, and proline contents as well. Therefore, increasing osmolytes like proline with an increased drought period proves the role of proline in stress tolerance of proso millet and helps it to survive by maintaining osmotic potential, water influx, and detoxifying ROS. Thus, proso millet can be cultivated in drought-prone areas, and used for the breeding program. [ABSTRACT FROM AUTHOR]

Published
2023

48. 295 The role of NUMB in melanoma

Author

Fukumoto, T., primary, Hristova, D., additional, Hua, X., additional, Jimbo, H., additional, Takemori, C., additional, Nishigori, C., additional, Wei, Z., additional, Somasundaram, R., additional, Fukunaga-Kalabis, M., additional, and Herlyn, M., additional

Published
2021
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