Your search keyword '"RAJENDRA, R."' showing total 5,198 results

1. How well do one-electron self-interaction-correction methods perform for systems with fractional electrons?

Author

Zope, Rajendra R., Yamamoto, Yoh, and Baruah, Tunna

Subjects

Physics - Chemical Physics, Physics - Computational Physics

Abstract

Recently developed locally scaled self-interaction correction (LSIC) is a one-electron SIC method that, when used with a ratio of kinetic energy densities (z$_\sigma$) as iso-orbital indicator, performs remarkably well for both thermochemical properties as well as for barrier heights overcoming the paradoxical behavior of the well-known Perdew-Zunger self-interaction correction (PZSIC) method. In this work, we examine how well the LSIC method performs for the delocalization error. Our results show that both LSIC and PZSIC methods correctly describe the dissociation of H$_2^+$ and He$_2^+$ but LSIC is overall more accurate than the PZSIC method. Likewise, in the case of the vertical ionization energy of an ensemble of isolated He atoms, the LSIC and PZSIC methods do not exhibit delocalization errors. For the fractional charges, both LSIC and PZSIC significantly reduce the deviation from linearity in the energy versus number of electrons curve, with PZSIC performing superior for C, Ne, and Ar atoms while for Kr they perform similarly. The LSIC performs well at the endpoints (integer occupations) while substantially reducing the deviation. The dissociation of LiF shows both LSIC and PZSIC dissociate into neutral Li and F but only LSIC exhibits charge transfer from Li$^+$ to F$^-$ at the expected distance from the experimental data and accurate ab initio data. Overall both the PZSIC and LSIC methods reduce the delocalization errors substantially., Comment: 15 pages, 4 figures, 2 tables

Published

2024

2. Complexity reduction in self-interaction-free density functional calculations using the Fermi-L\'owdin self-interaction correction method

Author

Romero, Selim, Yamamoto, Yoh, Baruah, Tunna, and Zope, Rajendra R.

Subjects

Physics - Chemical Physics

Abstract

Fermi-L\"owdin (FLO) self-interaction-correction (SIC) (FLOSIC) method uses symmetric orthogonalized Fermi orbitals as localized orbitals in one-electron SIC schemes resulting in a formal reduction in the scaling of SIC methods (e.g. Perdew-Zunger SIC (PZSIC) method) but requires a set of Fermi orbital descriptors used to define the FLOs which can be computationally taxing. Here, we propose to simplify the SIC calculations using a selective orbital scaling self-interaction correction (SOSIC) by removing SIE from a select set of orbitals that are of interest. We illustrate the approach by choosing a valence set of orbitals as active orbitals in the SOSIC approach. The results obtained using the vSOSIC scheme are compared with those obtained with PZSIC which corrects for SIE of all orbitals. The comparison is made for atomization energies, barrier heights, ionization energies (absolute highest occupied orbital [HOO] eigenvalues), exchange coupling constant and spin densities of Cu-containing complexes, and vertical detachment energies (VDE) of water cluster anions. The agreement between the two methods is within a few percent for the majority of the properties. The MAE in the VDE (absolute HOO eigenvalue) of water cluster anions with vSOSIC-PBE with respect to benchmark CCSD(T) results is only 15 meV making vSOSIC-PBE an excellent alternative to the CCSD(T) to obtain the VDE of water cluster anions. The vSOSIC calculation on [Cu$_2$Cl$_6$]$^{2-}$ complex demonstrates that, in addition to the cost savings from using fewer orbitals to account for SIC, the FOD optimization in vSOSIC is also substantially smoother and faster., Comment: 14 pages, 5 figures, 6 tables

Published

2023

3. Pressure-induced magnetic properties of quasi-2D Cr2Si2Te6 and Mn3Si2Te6

Author

Olmos, Rubyann, Chang, Po-Hao, Mishra, Prakash, Zope, Rajendra R., Baruah, Tunna, Petrovic, Cedomir, Liu, Yu, and Singamaneni, Srinivasa R.

Subjects

Condensed Matter - Materials Science

Abstract

Recently, the pressure has been used as external stimuli to induce structural and magnetic phase transitions in many layered quantum materials whose layers are linked by van der Waals forces. Such materials with weakly held layers allow relatively easy manipulation of the superexchange mechanism and lead to novel magnetic behavior. Using the hydrostatic pressure as a disorderless means to manipulate the interlayer coupling, we applied pressure on two quasi-2D sister compounds, namely, Cr2Si2Te6 (CST) and Mn3Si2Te6 (MST), up to ~1 GPa. Magnetic property measurements with the application of pressure revealed that the ferromagnetic transition temperature decreases in CST while the opposite trend occurs for the ferrimagnet MST. In MST, the magnetization decreases with the increase in the pressure, and such trend is not clearly noticed in CST, within the pressure range studied. Theoretical calculations showed the overall pressure effect on layer separation, bond angle, and exchange coupling, strongly influencing the change in subsequent magnetic characteristics. Exchange coupling in Mn3Si2Te6 is strongly frustrated and the first nearest neighbor interaction is the most dominant of the components with the strongest pressure dependence. Whereas, in Cr2Si2Te6, the exchange coupling parameters exhibit very little dependence on the pressure. This combined experimental and theoretical work has the potential to expand to other relevant quantum materials.

Published

2023

4. Nanocellulose from Agro-waste: In Advance Energy Storage Devices

Author

Patil, Shubhangi P., Tayade, Rajendra R., Srivastava, Neha, Series Editor, Mishra, P. K., Series Editor, Pal, Dan Bahadur, editor, and Kapoor, Ashish, editor

Published

2024

5. Spin-state Gaps and Self-Interaction-Corrected Density Functional Approximations: Octahedral Fe(II) Complexes as Case Study

Author

Romero, Selim, Baruah, Tunna, and Zope, Rajendra R.

Subjects

Physics - Chemical Physics

Abstract

Accurate prediction of spin-state energy difference is crucial for understanding the spin crossover (SCO) phenomena and is very challenging for the density functional approximations, especially for the local and semi-local approximations, due to delocalization errors. Here, we investigate the effect of self-interaction error removal from the local spin density approximation (LSDA) and PBE generalized gradient approximation (GGA) on the spin-state gaps of Fe(II) complexes with various ligands using recently developed locally scaled self-interaction correction (LSIC) by Zope et al. [J. Chem. Phys. 151, 214108 (2019)]. The LSIC method is exact for one-electron density, which recovers uniform electron gas limit of underlying functional and approaches the well-known Perdew-Zunger self-interaction correction [Phys. Rev. B, 23, 5048 (1981)] (PZSIC) as a special case when the scaling factor is constant. Our results, when compared with reference diffusion Monte Carlo (DMC) results, show that the PZSIC method significantly overestimates spin-state gaps favoring low spin states for all ligands and does not improve upon DFAs. The perturbative LSIC-LSDA using PZSIC densities significantly improves the gaps with a mean absolute error of 0.51 eV but slightly overcorrects for the stronger CO ligands. The quasi-self-consistent LSIC-LSDA, like CCSD(T), gives a correct sign of spin-state gaps for all ligands with MAE of 0.56 eV, comparable to that of CCSD(T) (0.49 eV)., Comment: 9 pages and 6 figures

Published

2022

6. Self-consistent implementation of locally scaled self-interaction-correction method

Author

Yamamoto, Yoh, Baruah, Tunna, Chang, Po-Hao, Romero, Selim, and Zope, Rajendra R.

Subjects

Physics - Chemical Physics, Condensed Matter - Materials Science

Abstract

Recently proposed local self-interaction correction (LSIC) method [Zope, R. R. et al., J. Chem. Phys. 151, 214108 (2019)] is a one-electron self-interaction-correction (SIC) method that uses an iso-orbital indicator to apply the SIC at each point in space by scaling the exchange-correlation and Coulomb energy densities. The LSIC method is exact for the one-electron densities, also recovers the uniform electron gas limit of the uncorrected density functional approximation, and reduces to the well-known Perdew-Zunger SIC (PZSIC) method as a special case. This article presents the self-consistent implementation of the LSIC method using the ratio of Weizs\"acker and Kohn-Sham kinetic energy densities as an iso-orbital indicator. The atomic forces as well as the forces on the Fermi-L\"owdin orbitals are also implemented for the LSIC energy functional. Results show that LSIC with the simplest local spin density functional predicts atomization energies of AE6 dataset better than some of the most widely used GGA functional (e.g. PBE) and barrier heights of BH6 database better than some of the most widely used hybrid functionals (e.g. PBE0 and B3LYP). The LSIC method [mean absolute error (MAE) of 0.008 \r{A}] predicts bond lengths of a small set of molecules better than the PZSIC-LSDA (MAE 0.042 \r{A}) and LSDA (0.011 \r{A}). This work shows that accurate results can be obtained from the simplest density functional by removing the self-interaction-errors using an appropriately designed SIC method., Comment: 34 pages, 4 figures

Published

2022

7. Application of Ranking Methods for Evaluation of Critical Factors Involved in Roof Fall Fatal Accidents in Indian Underground Coal Mines

Author

Kher, Anupam Anant and Yerpude, Rajendra R.

Published

2024

8. On Stress of a Vertex in a Graph

Author

Bhargava, K., Dattatreya, N. N., and Rajendra, R.

Subjects

Mathematics - Combinatorics, 05Cxx

Abstract

The stress of a vertex in a graph is the number of geodesics passing through it (A. Shimbel, 1953). A graph is $k$-stress regular if stress of each of its vertices is $k$. In this paper, we investigate some results and compute stress of vertices in some standard graphs and give a characterization of graphs with all vertices of zero stress except for one. Also we compute stress of vertices in graphs of diameter 2 and in the corona product $K_m \circ G$. Further we prove that any strongly regular graph is stress regular and characterize $k$-stress regular graphs for $k=0,1,2$., Comment: 11 pages, 12 figures. Due to some unavoidable reasons, paper could not be published in Palestine Journal of Mathematics. No other changes in the content

Published

2022

9. Machine Learning Identification of Modifiable Predictors of Patient Outcomes After Transcatheter Aortic Valve Replacement

Author

Mark J. Russo, MD, Sammy Elmariah, MD, MPH, Tsuyoshi Kaneko, MD, David V. Daniels, MD, Rajendra R. Makkar, MD, Soumya G. Chikermane, PhD, Christin Thompson, PhD, Jose Benuzillo, MS, Seth Clancy, MPH, Amber Pawlikowski, MSN, Skye Lawrence, BA, and Jeff Luck, MBA, PhD

Subjects

artificial intelligence, cardiology, care process, patient-centered, random forest, TAVR, Diseases of the circulatory (Cardiovascular) system, RC666-701, Medical emergencies. Critical care. Intensive care. First aid, RC86-88.9

Abstract

Background: Transcatheter aortic valve replacement (TAVR) is an important treatment option for patients with severe symptomatic aortic stenosis. It is important to identify predictors of excellent outcomes (good clinical outcomes, more time spent at home) after TAVR that are potentially amenable to improvement. Objectives: The purpose of the study was to use machine learning to identify potentially modifiable predictors of clinically relevant patient-centered outcomes after TAVR. Methods: We used data from 8,332 TAVR cases (January 2016-December 2021) from 21 hospitals to train random forest models with 57 patient characteristics (demographics, comorbidities, surgical risk score, lab values, health status scores) and care process parameters to predict the end point, a composite of parameters that designated an excellent outcome and included no major complications (in-hospital or at 30 days), post-TAVR length of stay of 1 day or less, discharge to home, no readmission, and alive at 30 days. We used recursive feature elimination with cross-validation and Shapley Additive Explanation feature importance to identify parameters with the highest predictive values. Results: The final random forest model retained 29 predictors (15 patient characteristics and 14 care process components); the area under the curve, sensitivity, and specificity were 0.77, 0.67, and 0.73, respectively. Four potentially modifiable predictors with relatively high Shapley Additive Explanation values were identified: type of anesthesia, direct movement to stepdown unit post-TAVR, time between catheterization and TAVR, and preprocedural length of stay. Conclusions: This study identified four potentially modifiable predictors of excellent outcome after TAVR, suggesting that machine learning combined with hospital-level data can inform modifiable components of care, which could support better delivery of care for patients undergoing TAVR.

Published

2024

10. A hybrid approach to basis set independent Poisson solver for an arbitrary charge distribution

Author

Chang, Po-Hao, Buschmann, Zachary, and Zope, Rajendra R.

Subjects

Physics - Chemical Physics

Abstract

We review two common numerical schemes for Coulomb potential evaluation that differ only in their radial part of the solutions in the spherical harmonic expansion (SHE). One is based on finite-difference method (FDM) while the other is based on the Green's function (GF) solution to the radial part of the Poisson equation. We analyze the methods and observe that the FDM-based approach appears to be more efficient in terms of the convergence with the number of radial points, particularly for monopole (l=0). However, as a known issue, it suffers from error accumulation as the system size increases. We identify the source of error that comes mainly from l=1 (and sometimes l=2) contribution of SHE induced by the charge partitioning. We then propose a hybrid scheme by combining the two methods, where the radial solution for l=0 is obtained using the FDM method and treating the remaining terms using GF approach. The proposed hybrid method is subsequently applied to a variety of systems to examine its performance. The results show improved accuracy than earlier numerical schemes in all cases. We also show that, even with a generic set of radial grid parameters, accurate energy differences can be obtained using a numerical Coulomb solver in standard density functional studies.

Published

2022

11. Study of Self-Interaction Errors in Density Functional Calculations of Magnetic Exchange Coupling Constants Using Three Self-Interaction Correction Methods

Author

Mishra, Prakash, Yamamoto, Yoh, Chang, Po-Hao, Nguyen, Duyen B., Peralta, Juan E., Baruah, Tunna, and Zope, Rajendra R.

Subjects

Physics - Chemical Physics

Abstract

We examine the role of self-interaction errors (SIE) removal on the evaluation of magnetic exchange coupling constants. In particular we analyze the effect of scaling down the self-interaction-correction (SIC) for three {\em non-empirical} density functional approximations (DFAs) namely, the local spin density approximation, the Perdew-Burke-Ernzerhof generalized gradient approximation, and recent SCAN family of meta-GGA functionals. To this end, we employ three one-electron SIC methods: Perdew-Zunger [Perdew, J. P.; Zunger, A. \textit{Phys. Rev. B}, {\bf 1981}, \textit{23}, 5048] SIC, the orbitalwise scaled SIC method [Vydrov, O. A. \textit{et al.}, \textit{J. Chem. Phys.} {\bf 2006,} \textit{124}, 094108], and the recent {local} scaling method [Zope, R. R. \textit{et al.}, \textit{J. Chem. Phys.} {\bf 2019}, \textit{151}, 214108]. We compute the magnetic exchange coupling constants using the spin projection and non projection approaches for sets of molecules composed of dinuclear and polynuclear H--He models, organic radical molecules, and chlorocuprate, and compare these results against accurate theories and experiment. Our results show that for the systems that mainly consist of single electron regions, PZSIC performs well but for more complex organic systems and the chlorcuprates, an overcorrecting tendency of PZSIC combined with the DFAs utilized in this work is more pronounced, and in such cases LSIC with kinetic energy density ratio performs better than PZSIC. Analysis of the results in terms of SIC corrections to the density and to the total energy shows that both density and energy correction are required to obtain an improved prediction of magnetic exchange couplings., Comment: 40 pages, 5 figures

Published

2022

12. Study of self-interaction-errors in barrier heights using locally scaled and Perdew-Zunger self-interaction methods

Author

Mishra, Prakash, Yamamoto, Yoh, Johnson, J. Karl, Jackson, Koblar A., Zope, Rajendra R., and Baruah, Tunna

Subjects

Physics - Chemical Physics

Abstract

We study the effect of self-interaction errors on the barrier heights of chemical reactions. For this purpose we use the well-known Perdew-Zunger [J. P. Perdew and A. Zunger, Phys. Rev. B, {\bf 23}, 5048 (1981)] self-interaction-correction (PZSIC), as well as two variations of the recently developed, locally scaled self-interaction correction (LSIC) [R. R. Zope \textit{et al.}, J. Chem. Phys. {\bf 151}, 214108 (2019)] to study the barrier heights of the BH76 benchmark dataset. Our results show that both PZSIC and especially the LSIC methods improve the barrier heights relative to the local density approximation (LDA). The version of LSIC that uses the iso-orbital indicator $z$ as a scaling factor gives a more consistent improvement than an alternative version that uses an orbital-dependent factor $w$ based on the ratio of orbital densities to the total electron density. We show that LDA energies evaluated using the self-consistent and self-interaction-free PZSIC densities can be used to assess density-driven errors. The LDA reaction barrier errors for the BH76 set are found to contain significant density-driven errors for all types of reactions contained in the set, but the corrections due to adding SIC to the functional are much larger than those stemming from the density for the hydrogen transfer reactions and of roughly equal size for the non-hydrogen transfer reactions., Comment: 11 pages, 2 figures

Published

2022

13. Machine Learning Identification of Modifiable Predictors of Patient Outcomes After Transcatheter Aortic Valve Replacement

Author

Russo, Mark J., Elmariah, Sammy, Kaneko, Tsuyoshi, Daniels, David V., Makkar, Rajendra R., Chikermane, Soumya G., Thompson, Christin, Benuzillo, Jose, Clancy, Seth, Pawlikowski, Amber, Lawrence, Skye, and Luck, Jeff

Published

2024

14. Fermi-L\'owdin orbital self-interaction correction using the optimized effective potential method within the Krieger-Li-Iafrate approximation

Author

Diaz, Carlos M., Baruah, Tunna, and Zope, Rajendra R.

Subjects

Physics - Chemical Physics, Condensed Matter - Materials Science

Abstract

Perdew-Zunger self-interaction correction (PZ-SIC) offers a route to remove self-interaction errors on an orbital-by-orbital basis. A recent formulation of PZ-SIC by Pederson, Ruzsinszky and Perdew proposes restricting the unitary transformation to localized orbitals called Fermi-L\"owdin orbitals. This formulation, called the FLOSIC method, simplifies PZ-SIC calculations and was implemented self-consistently using a Jacobi-like (FLOSIC-Jacobi) iteration scheme. In this work we implement the FLOSIC approach using the Krieger-Li-Iafrate (KLI) approximation to the optimized effective potential (OEP). We compare the results of present FLOSIC-KLI approach with FLOSIC-Jacobi scheme for atomic energies, atomization energies, ionization energies, barrier heights, polarizability of chains of hydrogen molecules etc. to validate the FLOSIC-KLI approach. The FLOSIC-KLI approach, which is within the realm of Kohn-Sham theory, predicts smaller energy gaps between frontier orbitals due to the lowering of eigenvalues of the lowest unoccupied orbitals. Results show that atomic energies, atomization energies, ionization energy as an absolute of highest occupied orbital eigenvalue, and polarizability of chains of hydrogen molecules between the two methods agree within 2%. Finally the FLOSIC-KLI approach is used to determine the vertical ionization energies of water clusters., Comment: 33 pages, 7 figures

Published

2021

15. Self-interaction corrected Kohn-Sham effective potentials using the density-consistent effective potential method

Author

Diaz, Carlos M., Basurto, Luis, Adhikari, Santosh, Yamamoto, Yoh, Ruzsinszky, Adrienn, Baruah, Tunna, and Zope, Rajendra R.

Subjects

Physics - Chemical Physics

Abstract

Density functional theory (DFT) and beyond-DFT methods are often used in combination with photoelectron spectroscopy to obtain physical insights into the electronic structure of molecules and solids. The Kohn-Sham eigenvalues are not electron removal energies except for the highest occupied orbital. The eigenvalues of the highest occupied molecular orbitals often underestimate the electron removal or ionization energies due to the self-interaction (SI) errors in approximate density functionals. In this work, we adapt and implement the density-consistent effective potential(DCEP) method of Kohut, Ryabinkin, and Staroverov to obtain SI corrected local effective potentials from the SI corrected Fermi-L\"owdin orbitals and density in the FLOSIC scheme. The implementation is used to obtain the density of states (photoelectron spectra) and HOMO-LUMO gaps for a set of molecules and polyacenes. Good agreement with experimental values is obtained compared to a range of SI uncorrected density functional approximations., Comment: 8 pages, 3 figures

Published

2021

16. Static dipole polarizabilities of polyacenes using self-interaction-corrected density functional approximations

Author

Akter, Sharmin, Yamamoto, Yoh, Zope, Rajendra R., and Baruah, Tunna

Subjects

Physics - Chemical Physics, Condensed Matter - Materials Science

Abstract

Density functional approximations are known to significantly overestimate the polarizabilities of long chain-like molecules. We study the static electric dipole polarizabilities and the vertical ionization potentials of polyacenes from benzene to pentacene using the Fermi-L\"owdin orbital based self-interaction corrected (FLOSIC) density functional method. The orbital-by-orbital self-interaction correction corrects for the overestimation tendency of density functional approximations. The polarizabilities calculated with FLOSIC-DFA are however overly corrected. We also tested the recently developed locally-scaled self-interaction correction (LSIC) method on the polyacenes. The local-scaling method applies full SIC in the one-electron regions and restores the proper behavior of the SIC exchange-correlation functionals in the uniform density limit. The results show that LSIC removes the overcorrection tendency of the FLOSIC-DFA and produces results that are in excellent agreement with reference CCSD values. The vertical ionization potentials with LSIC also show good agreement with available experimental values., Comment: 17 pages, 4 figures, 2 tables

Published

2021

17. Exploring and enhancing the accuracy of interior-scaled Perdew-Zunger self-interaction correction

Author

Bhattarai, Puskar, Santra, Biswajit, Wagle, Kamal, Yamamoto, Yoh, Zope, Rajendra R., Ruzsinszky, Adrienn, Jackson, Koblar Alan, and Perdew, John P.

Subjects

Physics - Chemical Physics, Condensed Matter - Other Condensed Matter

Abstract

The Perdew-Zunger self-interaction correction(PZ-SIC) improves the performance of density functional approximations(DFAs) for the properties that involve significant self-interaction error(SIE), as in stretched bond situations, but overcorrects for equilibrium properties where SIE is insignificant. This overcorrection is often reduced by LSIC, local scaling of the PZ-SIC to the local spin density approximation(LSDA). Here we propose a new scaling factor to use in an LSIC-like approach that satisfies an additional important constraint: the correct coefficient of atomic number Z in the asymptotic expansion of the exchange-correlation(xc) energy for atoms. LSIC and LSIC+ are scaled by functions of the iso-orbital indicator z{\sigma}, which distinguishes one-electron regions from many-electron regions. LSIC+ applied to LSDA works better for many equilibrium properties than LSDA-LSIC and the Perdew, Burke, and Ernzerhof(PBE) generalized gradient approximation(GGA), and almost as well as the strongly constrained and appropriately normed(SCAN) meta-GGA. LSDA-LSIC and LSDA-LSIC+, however, both fail to predict interaction energies involving weaker bonds, in sharp contrast to their earlier successes. It is found that more than one set of localized SIC orbitals can yield a nearly degenerate energetic description of the same multiple covalent bond, suggesting that a consistent chemical interpretation of the localized orbitals requires a new way to choose their Fermi orbital descriptors. To make a locally scaled-down SIC to functionals beyond LSDA requires a gauge transformation of the functional's energy density. The resulting SCAN-sdSIC, evaluated on SCAN-SIC total and localized orbital densities, leads to an acceptable description of many equilibrium properties including the dissociation energies of weak bonds., Comment: 12 pages, 8 figures

Published

2021

18. Pulsed CMT Process Improves Mechanical Properties of Al 6061-T6 and SS 304 Lap Joints for Automotive

Author

Anwar, Md, Rajendra, R., Chan, Albert P. C., Series Editor, Hong, Wei-Chiang, Series Editor, Mellal, Mohamed Arezki, Series Editor, Narayanan, Ramadas, Series Editor, Nguyen, Quang Ngoc, Series Editor, Ong, Hwai Chyuan, Series Editor, Sachsenmeier, Peter, Series Editor, Sun, Zaicheng, Series Editor, Ullah, Sharif, Series Editor, Wu, Junwei, Series Editor, Zhang, Wei, Series Editor, Raj, Bhiksha, editor, Gill, Steve, editor, Calderon, Carlos A.Gonzalez, editor, Cihan, Onur, editor, Tukkaraja, Purushotham, editor, Venkatesh, Sriram, editor, M. S., Venkataramayya, editor, Mudigonda, Malini, editor, Gaddam, Mallesham, editor, and Dasari, Rama Krishna, editor

Published

2023

19. Design and Fabrication of Microstrip Hexagonal Fractal Array Antenna for Wideband Applications

Author

Kattimani, Bharamappa, Patil, Rajendra R., Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Jiming, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Li, Yong, Series Editor, Liang, Qilian, Series Editor, Martín, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Oneto, Luca, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zamboni, Walter, Series Editor, Zhang, Junjie James, Series Editor, Ray, K. P., editor, Dixit, Arati, editor, Adhikari, Debashis, editor, and Mathew, Ribu, editor

Published

2023

20. Modeling and optimization of process parameter for fatigue strength improvement by selective laser melting of AlSi10Mg

Author

Nirish, Mudda, primary and Rajendra, R., additional

Published

2023

21. Local self-interaction correction method with a simple scaling factor

Author

Romero, Selim, Yamamoto, Yoh, Baruah, Tunna, and Zope, Rajendra R.

Subjects

Physics - Chemical Physics, Condensed Matter - Materials Science

Abstract

A recently proposed local self-interaction correction (LSIC) method [Zope \textit{et al.} J. Chem. Phys., 2019,{\bf 151}, 214108] when applied to the simplest local density approximation provides significant improvement over standard Perdew-Zunger SIC (PZSIC) for both equilibrium properties such as total or atomization energies as well as properties involving stretched bond such as barrier heights. The method uses an iso-orbital indicator to identify the single-electron regions. To demonstrate the LSIC method, Zope \textit{et al.} used the ratio $z_\sigma$ of von Weizs\"acker $\tau_\sigma^W$ and total kinetic energy densities $\tau_\sigma$, ($z_\sigma = \tau_\sigma^W/\tau_\sigma$) as a scaling factor to scale the self-interaction correction. The present work further explores the LSIC method using a simpler scaling factor as a ratio of orbital and spin densities in place of the ratio of kinetic energy densities. We compute a wide array of both, equilibrium and non-equilibrium properties using the LSIC and orbital scaling methods using this simple scaling factor and compare them with previously reported results. Our study shows that the present results with simple scaling factor are comparable to those obtained by LSIC($z_\sigma$) for most properties but have slightly larger errors. We furthermore study the binding energies of small water clusters using both the scaling factors. Our results show that LSIC with $z_{\sigma}$ has limitation in predicting the binding energies of weakly bonded system due to the inability of $z_{\sigma}$ to distinguish weakly bonded region from slowly varying density region. LSIC when used with density ratio as a scaling factor, on the other hand, provides good description of water cluster binding energies, thus highlighting the appropriate choice of iso-orbital indicator., Comment: 31 pages, 7 figures, 8 tables

Published

2020

22. Study of self-interaction errors in density functional predictions of dipole polarizabilities and ionization energies of water clusters using Perdew-Zunger and locally scaled self-interaction corrected methods

Author

Akter, Sharmin, Yamamoto, Yoh, Diaz, Carlos M., Jackson, Koblar A., Zope, Rajendra R., and Baruah, Tunna

Subjects

Physics - Chemical Physics, Condensed Matter - Materials Science

Abstract

We studied the effect of self-interaction error (SIE) on the static dipole polarizabilities of water clusters modelled with three increasingly sophisticated, non-empirical density functional approximations (DFAs), viz. the local spin density approximation (LDA), the Perdew-Burke-Ernzherof (PBE) generalized-gradient approximation (GGA), and the strongly constrained and appropriately normed (SCAN) meta-GGA, using the Perdew-Zunger self-interaction-correction (PZ-SIC) energy functional in the Fermi-L\"owdin orbital SIC (FLO-SIC) framework. Our results show that while all three DFAs overestimate the cluster polarizabilities, the description systematically improves from LDA to PBE to SCAN. The self-correlation free SCAN predicts polarizabilities quite accurately with a mean absolute error (MAE) of 0.58 Bohr$^3$ with respect to coupled cluster singles and doubles (CCSD) values. Removing SIE using PZ-SIC correctly reduces the DFA polarizabilities, but over-corrects, resulting in underestimated polarizabilities in SIC-LDA, -PBE, and -SCAN. Finally, we applied a recently proposed local-scaling SIC (LSIC) method using a quasi self-consistent scheme and using the kinetic energy density ratio as an iso-orbital indicator. The results show that the LSIC polarizabilities are in excellent agreement with mean absolute error of 0.08 Bohr$^3$ for LSIC-LDA and 0.06 Bohr$^3$ for LSIC-PBE with most recent CCSD polarizabilities. Likewise, the ionization energy estimates as an absolute of highest occupied energy eigenvalue predicted by LSIC are also in excellent agreement with CCSD(T) ionization energies with MAE of 0.4 eV for LSIC-LDA and 0.04 eV for LSIC-PBE. The LSIC-LDA predictions of ionization energies are comparable to the reported GW ionization energies while the LSIC-PBE ionization energies are more accurate than reported GW results., Comment: 25 pages, 2 figures, submitted to Journal of Chemical Physics

Published

2020

23. Improvements in the orbitalwise scaling down of Perdew-Zunger self-interaction correction in many-electron regions

Author

Yamamoto, Yoh, Romero, Selim, Baruah, Tunna, and Zope, Rajendra R.

Subjects

Physics - Chemical Physics, Condensed Matter - Materials Science

Abstract

The Perdew-Zunger (PZ) method provides a way to remove the self-interaction (SI) error from density functional approximations on an orbital by orbital basis. The PZ method provides significant improvements for the properties such as barrier heights or dissociation energies but results in over-correcting the properties well described by SI-uncorrected semi-local functional. One cure to rectify the over-correcting tendency is to scale down the magnitude of SI-correction of each orbital in the many electron region. We have implemented the orbitalwise scaled down SI-correction (OSIC) scheme of Vydrov et al. [J. Chem. Phys. 124, 094108 (2006)] using the Fermi-L\"owdin SI-correction method. After validating the OSIC implementation with previously reported OSIC-LSDA results, we examine its performance with the most successful non-empirical SCAN meta-GGA functional. Using different forms of scaling factors to identify one-electron regions, we assess the performance of OSIC-SCAN for a wide range of properties: total energies, ionization potentials and electron affinities for atoms, atomization energies, dissociation and reaction energies, and reaction barrier heights of molecules. Our results show that OSIC-SCAN provides superior results than the previously reported OSIC-LSDA, -PBE, and -TPSS results. Furthermore, we propose selective scaling of OSIC (SOSIC) to remove its major shortcoming that destroys the $-1/r$ asymptotic behavior of the potentials. The SOSIC method gives the highest occupied orbital eigenvalues practically identical to those in PZSIC and unlike OSIC provides bound atomic anions even with larger powers of scaling factors. SOSIC compared to PZSIC or OSIC provides more balanced description of total energies and barrier heights., Comment: 40 pages, 5 figures

Published

2020

24. Comparison of regularized SCAN functional with SCAN functional with and without self-interaction for a wide-array of properties

Author

Yamamoto, Yoh, Salcedo, Alan, Diaz, Carlos M., Alam, Md Shamsul, Baruah, Tunna, and Zope, Rajendra R.

Subjects

Condensed Matter - Materials Science, Physics - Chemical Physics

Abstract

The Strongly Constrained and Appropriately Normed (SCAN) functional is a non-empirical meta-generalized-gradient approximation (meta-GGA) functional that satisfies all the known constraints that a meta-GGA functional can, but it also exhibits a great degree of sensitivity to numerical grids. Its numerical complexities are amplified when used in Perdew-Zunger (PZ) self-interaction correction (SIC) which requires evaluating energies and potentials using orbital densities that vary far more rapidly than spin densities. Recent regularization of the SCAN functional (rSCAN) simplifies numerical complexities of SCAN at the expense of violation of some exact constraints. To develop a good understanding of the performance of rSCAN and the effect of loss of an exact constraint at the limit of slowly varying density, we have compared its performance against SCAN for vibrational frequencies, infra-red and Raman intensities of water clusters, electric dipole moments, spin magnetic moments of a few molecular magnets, weak interaction energies of dimers, barrier heights of reactions, and atomization energies for benchmark sets of molecules. Likewise, we examined the performance of SIC-rSCAN using the PZ-SIC method by studying atomic total energies, ionization potentials and electron affinities, molecular atomization energies, barrier heights, and dissociation and reaction energies. We find that rSCAN requires a much less dense numerical grid and gives very similar results as SCAN for all properties examined with the exception of atomization energies which are somewhat worse in rSCAN. On the other hand, SIC-rSCAN gives marginally better performance than SIC-SCAN for almost all properties studied in this work., Comment: 50 pages, 5 figures

Published

2020

25. A Step in the Direction of Resolving the Paradox of Perdew-Zunger Self-interaction Correction. II. Gauge Consistency of the Energy Density at Three Levels of Approximation

Author

Bhattarai, Puskar, Wagle, Kamal, Shahi, Chandra, Yamamoto, Yoh, Romero, Selim, Santra, Biswajit, Zope, Rajendra R., Peralta, Juan E., Jackson, Koblar A., and Perdew, John P.

Subjects

Physics - Chemical Physics, Condensed Matter - Other Condensed Matter

Abstract

The Perdew-Zunger(PZ) self-interaction correction (SIC) was designed to correct the one-electron limit of any approximate density functional for the exchange-correlation (xc) energy, while yielding no correction to the exact functional. Unfortunately, it spoils the slowly-varying-in-space limits of the uncorrected approximate functionals, where those functionals are right by construction. The right limits can be restored by locally scaling down the energy density of the PZ SIC in many-electron regions, but then a spurious correction to the exact functional would be found unless the self-Hartree and exact self-xc terms of the PZ SIC energy density were expressed in the same gauge. Only the local density approximation satisfies the same-gauge condition for the energy density, which explains why the recent local-scaling SIC (LSIC) is found here to work excellently for atoms and molecules only with this basic approximation, and not with the more advanced generalized gradient approximations (GGAs) and meta-GGAs, which lose the Hartree gauge via simplifying integrations by parts. The transformation of energy density that achieves the Hartree gauge for the exact xc functional can also be applied to approximate functionals. Doing so leads to a simple scaled-down self-interaction (sdSIC) correction that is typically much more accurate than PZ SIC in tests for many molecular properties (including equilibrium bond lengths). The present work shows unambiguously that the largest errors of PZ SIC applied to standard functionals at three levels of approximation can be removed by restoring their correct slowly-varying-density limits. It also confirms the relevance of these limits to atoms and molecules., Comment: 21 pages, 2 figures

Published

2020

26. Importance of self-interaction-error removal in density functional calculations on water cluster anions

Author

Vargas, Jorge, Ufondu, Peter, Baruah, Tunna, Yamamoto, Yoh, Jackson, Koblar A., and Zope, Rajendra R.

Subjects

Physics - Chemical Physics, Condensed Matter - Materials Science

Abstract

Accurate description of the excess charge in water cluster anions is challenging for standard semi-local and (global) hybrid density functional approximations (DFAs). Using the recent unitary invariant implementation of the Perdew-Zunger self-interaction correction (SIC) method using Fermi-L\"owdin orbitals, we assess the effect of self-interaction error on the vertical detachment energies of water clusters anions with the local spin density approximation (LSDA), Perdew-Burke-Ernzerhof (PBE) generalized gradient approximation, and the strongly constrained and appropriately normed (SCAN) meta-GGA functionals. Our results show that for the relative energies of isomers with respect to reference CCSD(T) values, the uncorrected SCAN functional has the smallest deviation of 21 meV, better than that for the MP2 method. The performance of SIC-SCAN is comparable to that of MP2 and is better than SIC-LSDA and SIC-PBE, but it reverses the ordering of the two lowest isomers for water hexamer anions. Removing self interaction error (SIE) corrects the tendency of LSDA, PBE, and SCAN to over-bind the extra electron. The vertical detachment energies (VDEs) of water cluster anions, obtained from the total energy differences of corresponding anion and neutral clusters, are significantly improved by removing self-interaction and are better than the hybrid B3LYP functional, but fall short of MP2 accuracy. Removing SIE results in substantial improvement in the position of the eigenvalue of the extra electron. The negative of the highest occupied eigenvalue after SIC provides an excellent approximation to the VDE, especially for SIC-PBE where the mean absolute error with respect to CCSD(T) is only 17 meV, the best among all approximations compared in this work., Comment: 32 pages, 5 figures, Accepted to Physical Chemistry Chemical Physics

Published

2020

27. The Mortality Burden of Untreated Aortic Stenosis

Author

Généreux, Philippe, Sharma, Rahul P., Cubeddu, Robert J., Aaron, Lucy, Abdelfattah, Omar M., Koulogiannis, Konstantinos P., Marcoff, Leo, Naguib, Mostafa, Kapadia, Samir R., Makkar, Rajendra R., Thourani, Vinod H., van Boxtel, Benjamin S., Cohen, David J., Dobbles, Michael, Barnhart, Glenn R., Kwon, Michelle, Pibarot, Philippe, Leon, Martin B., and Gillam, Linda D.

Published

2023

28. A step in the direction of resolving the paradox of Perdew-Zunger self-interaction correction

Author

Zope, Rajendra R., Yamamoto, Yoh, Diaz, Carlos, Baruah, Tunna, Peralta, Juan E., Jackson, Koblar A., Santra, Biswajit, and Perdew, John P.

Subjects

Condensed Matter - Materials Science, Physics - Chemical Physics

Abstract

Self-interaction (SI) error, which results when exchange-correlation contributions to the total energy are approximated, limits the reliability of many density functional approximations. The Perdew-Zunger SI correction (PZSIC), when applied in conjunction with the local spin density approximation (LSDA), improves the description of many properties, but overall, this improvement is limited. Here we propose a modification to PZSIC that uses an iso-orbital indicator to identify regions where local SI corrections should be applied. Using this local-scaling SIC (LSIC) approach with LSDA, we analyze predictions for a wide range of properties including, for atoms, total energies, ionization potentials, and electron affinities, and for molecules, atomization energies, dissociation energy curves, reaction energies, and reaction barrier heights. LSIC preserves the results of PZSIC-LSDA for properties where it is successful and provides dramatic improvements for many of the other properties studied. Atomization energies calculated using LSIC are better than those of the Perdew, Burke, and Ernzerhof (PBE) generalized gradient approximation (GGA) and close to those obtained with the Strongly Constrained and Appropriately Normed (SCAN) meta-GGA. LSIC also restores the uniform gas limit for the exchange energy that is lost in PZSIC-LSDA. Further performance improvements may be obtained by an appropriate combination or modification of the local scaling factor and the particular density functional approximation., Comment: 12 pages, 6 figures, to be published in Journal of Chemical Physics

Published

2019

29. Fermi-L\'owdin orbital self-interaction correction using the strongly constrained and appropriately normed meta-GGA functional

Author

Yamamoto, Yoh, Diaz, Carlos M., Basurto, Luis, Jackson, Koblar A., Baruah, Tunna, and Zope, Rajendra R.

Subjects

Physics - Chemical Physics, Condensed Matter - Materials Science

Abstract

Despite the success of density functional approximations (DFAs) in describing the electronic properties of many-electron systems, the most widely used approximations suffer from self-interaction errors (SIE) that limit their predictive power. Here we describe the effects of removing SIE from the strongly constrained and appropriately normed (SCAN) meta-generalized gradient approximation (GGA) using the Fermi-Lowdin Orbital Self-Interaction Correction (FLOSIC) method. FLOSIC is a size-extensive implementation of the Perdew-Zunger self-interaction correction (PZ-SIC) formalism. We find that FLOSIC-SCAN calculations require careful treatment of numerical details and describe an integration grid that yields reliable accuracy with this approach. We investigate the performance of FLOSIC-SCAN for predicting a wide array of properties and find that it provides better results than FLOSIC-LDA and FLOSIC-PBE in nearly all cases. It also gives better predictions than SCAN for orbital energies and dissociation energies where self-interaction effects are known to be important, but total energies and atomization energies are made worse. For these properties, we also investigate the use of the self-consistent FLOSIC-SCAN density in the SCAN functional and find that this DFA@FLOSIC-DFA approach yields improved results compared to pure, self-consistent SCAN calculations. Thus FLOSIC-SCAN provides improved results over the parent SCAN functional in cases where SIEs are dominant, and even when they are not, if the SCAN@FLOSIC-SCAN method is used., Comment: to appear in Journal of Chemical Physics

Published

2019

30. Stretched or noded orbital densities and self-interaction correction in density functional theory

Author

Shahi, Chandra, Bhattarai, Puskar, Wagle, Kamal, Santra, Biswajit, Schwalbe, Sebastian, Hahn, Torsten, Kortus, Jens, Jackson, Koblar A., Peralta, Juan E., Trepte, Kai, Lehtola, Susi, Nepal, Niraj K., Myneni, Hemanadhan, Neupane, Bimal, Adhikari, Santosh, Ruzsinszky, Adrienn, Yamamoto, Yoh, Baruah, Tunna, Zope, Rajendra R., and Perdew, John P.

Subjects

Physics - Chemical Physics, Condensed Matter - Materials Science, Physics - Atomic and Molecular Clusters

Abstract

Semi-local approximations to the density functional for the exchange-correlation energy of a many-electron system necessarily fail for lobed one-electron densities, including not only the familiar stretched densities but also the less familiar but closely-related noded ones. The Perdew-Zunger (PZ) self-interaction correction (SIC) to a semi-local approximation makes that approximation exact for all one-electron ground- or excited-state densities and accurate for stretched bonds. When the minimization of the PZ total energy is made over real localized orbitals, the orbital densities can be noded, leading to energy errors in many-electron systems. Minimization over complex localized orbitals yields nodeless orbital densities, which reduce but typically do not eliminate the SIC errors of atomization energies. Other errors of PZ SIC remain, attributable to the loss of the exact constraints and appropriate norms that the semi-local approximations satisfy, and suggesting the need for a generalized SIC. These conclusions are supported by calculations for one-electron densities, and for many-electron molecules. While PZ SIC raises and improves the energy barriers of standard generalized gradient approximations (GGA's) and meta-GGA's, it reduces and often worsens the atomization energies of molecules. Thus PZ SIC raises the energy more as the nodality of the valence localized orbitals increases from atoms to molecules to transition states. PZ SIC is applied here in particular to the SCAN meta-GGA, for which the correlation part is already self-interaction-free. That property makes SCAN a natural first candidate for a generalized SIC.

Published

2019

31. Influence of Plasma Treatment on Dyeing Properties of Silk Weaves

Author

Shital S. Palaskar, Ravindra D. Kale, and Rajendra R. Deshmukh

Subjects

different grams per meter square gsm, dyeing, mulberry silk, plasma, surface modification, weave structure, Science, Textile bleaching, dyeing, printing, etc., TP890-933

Abstract

Three different mulberry silk fabrics were modified with low temperature plasma using helium and oxygen gases. Dyeing properties of plasma treated fabrics were investigated. The dye adsorption capacity of plasma treated silk samples was improved by 6–17% as compared to untreated samples in all the three varieties of silk. Surface roughness was quantitatively measured using Atomic Force Microscope (AFM). X-ray photoelectron spectroscopic study showed the formation of polar groups on plasma treated silk samples. Finally, it is concluded that the degree of plasma surface modification and dyeing properties of silk fabric are closely linked to weave and GSM of fabric.

Published

2022

32. Analysis of disc brake with composite materials

Author

Chinna Balu, Lakavathu and Rajendra, R.

Published

2023

33. Realization and Performance Evaluation of a 2 × 2 MIMO System Using USRP 2944

Author

Shyamala, C., Patil, Rajendra R., Bharathi, R., Mahadevaswamy, Manasa, and Ganesh, Shreelaxmi

Published

2023

34. Lumefantrine solid dispersions with piperine for the enhancement of solubility, bioavailability and anti-parasite activity

Author

Takale, Nikita R., Aji, Anjali, Jane, Kanchan, Deshmukh, Prasad R., Pendharkar, Vishal V., Khade, Rajendra R., Ghule, Balu V., Inamdar, Nazma N., and Kotagale, Nandkishor R.

Published

2022

35. Use of FLOSIC for understanding anion-solvent interactions.

Author

Pederson, Mark R., Withanage, Kushantha P. K., Hooshmand, Zahra, Johnson, Alex I., Baruah, Tunna, Yamamoto, Yoh, Zope, Rajendra R., Kao, Der-You, Shukla, Priyanka B., Johnson, J. Karl, Peralta, Juan E., and Jackson, Koblar A.

Subjects

ELECTRON donor-acceptor complexes, CROWDSOURCING, COULOMB potential, CHROMIUM isotopes, IONIZATION energy, EIGENVALUES, ATMOSPHERE

Abstract

An Achille's heel of lower-rung density-functional approximations is that the highest-occupied-molecular-orbital energy levels of anions, known to be stable or metastable in nature, are often found to be positive in the worst case or above the lowest-unoccupied-molecular-orbital levels on neighboring complexes that are not expected to accept charge. A trianionic example, [ Cr ( C 2 O 4 ) 3 ] 3 − , is of interest for constraining models linking Cr isotope ratios in rock samples to oxygen levels in Earth's atmosphere over geological timescales. Here we describe how crowd sourcing can be used to carry out self-consistent Fermi–Löwdin–Orbital-Self-Interaction corrected calculations (FLOSIC) on this trianion in solution. The calculations give a physically correct description of the electronic structure of the trianion and water. In contrast, uncorrected local density approximation (LDA) calculations result in approximately half of the anion charge being transferred to the water bath due to the effects of self-interaction error. Use of group-theory and the intrinsic sparsity of the theory enables calculations roughly 125 times faster than our initial implementation in the large N limit reached here. By integrating charge density densities and Coulomb potentials over regions of space and analyzing core-level shifts of the Cr and O atoms as a function of position and functional, we unambiguously show that FLOSIC, relative to LDA, reverses incorrect solute-solvent charge transfer in the trianion-water complex. In comparison to other functionals investigated herein, including Hartree–Fock and the local density approximation, the FLOSIC Cr 1s eigenvalues provide the best agreement with experimental core ionization energies. [ABSTRACT FROM AUTHOR]

Published

2023

36. Pressure dependent magnetic properties on bulk CrBr3 single crystals

Author

Olmos, Rubyann, Alam, Shamsul, Chang, Po-Hao, Gandha, Kinjal, Nlebedim, Ikenna C., Cole, Andrew, Tafti, Fazel, Zope, Rajendra R., and Singamaneni, Srinivasa R.

Published

2022

37. SRA-DGS-NL Based Decoupling Scheme for MIMO Antenna.

Author

Godi, Revati C. and Patil, Rajendra R.

Abstract

In this paper, a novel decoupling strategy for a MIMO antenna is proposed. This MIMO antenna system consists of two symmetric inverted L shaped antenna elements. To improve the isolation between radiating antenna elements, split ring arrays, neutralisation line, and ground slots are employed. The MIMO antenna operates at 6.27 GHz. Neautralization line aids in cancelling the coupling by introducing reverse coupling. Ground slots introduce band-stop characteristic to nullify the coupling effect, and split ring array blocks the electromagnetic coupling reaching the other antenna element. The isolation parameters |S12| and |S21| obtained are less than -21 dB. The diversity parameters envelope correlation coefficient and diversity gain are investigated. Envelope correlation coefficient is within acceptable limit. These diversity parameters indicate that good diversity performance is achieved by the proposed MIMO antenna. Measured results are in good agreement with simulated ones. The suggested antenna is appropriate for many wireless applications, including IEEE 802.11 and 802.16 standards, as we deal with the sensitive environment. [ABSTRACT FROM AUTHOR]

Published

2024

38. Design of Protocol for Handwriting Recognition Using FPGA

Author

Patil, Vinita, Patil, Rajendra R., Bansal, Jagdish Chand, Series Editor, Deep, Kusum, Series Editor, Nagar, Atulya K., Series Editor, Goyal, Dinesh, editor, Chaturvedi, Pradyumn, editor, and Purohit, S.D., editor

Published

2021

39. Hardware-in-the-Loop Simulation of Induction Heating System for Melting Applications Using Xilinx System Generator

Author

Sankhe, Darshana N., Sawant, Rajendra R., Rao, Y. Srinivasa, 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, Pandian, A. Pasumpon, editor, Palanisamy, Ram, editor, and Ntalianis, Klimis, editor

Published

2021

40. A comparative study of smica in various body fluids of diagnosed cervical cancer patients and healthy women

Author

Pooja A. Pachani, Rajendra R. Godbole, Jeevitaa Kshersagar, Rakhi Jagdale, Amita Gosavi, Somshekhar Patil, Rakesh k Sharma, and Meghnad G. Joshi

Subjects

body fluids, neoplastic processes, parity, papanicolaou test, uterine cervical neoplasms, Gynecology and obstetrics, RG1-991

Abstract

Objective Cervical cancer (CC) is a major public health problem in women, and its early detection can help reduce morbidity and mortality. The objective of this study was to compare serum levels of soluble major histocompatibility complex class I-related chain A (sMICA) levels in various body fluids between women diagnosed with CC and healthy women. Methods A case-control study was conducted at a tertiary care hospital and a cancer center in Kolhapur, India. Overall, 150 individuals (100 CC patients and 50 healthy women) participated after providing informed written consent. Demographic data, histopathology history, parity, and tumor, node, and metastasis (TNM) staging data were collected. Pap smears, saliva, blood, and urine samples were collected. Pap smears were examined microscopically, and sMICA levels in all samples were determined by enzyme-linked immunoassay (ELISA). Results The mean age of women with cervical cancer was 49.86±8.18 years. Squamous cell carcinoma (70%) was the most common histological variant in CC patients. Serum soluble sMICA levels differed significantly with parity and TNM staging (P

Published

2022

41. On submanifolds of a Sasakian manifold

Author

Shivaprasanna, G. S., primary, Rajendra, R., additional, Reddy, P. Siva Kota, additional, and Somashekhara, G., additional

Published

2024

42. Uplink-downlink resource optimization for provisioning 5G application considering SUI fading channel models

Author

Kaba, Vanita, primary and Patil, Rajendra R., additional

Published

2024

43. A numerical Poisson solver with improved radial solutions for a self-consistent locally scaled self-interaction correction method

Author

Chang, Po-Hao, primary, Buschmann, Zachary, additional, and Zope, Rajendra R, additional

Published

2024

44. Zadoff Chu Spreading Sequence for 5G Wireless Communications

Author

Kaba, Vanita B., Patil, Rajendra R., Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Jiming, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Hirche, Sandra, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Liang, Qilian, Series Editor, Martín, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Möller, Sebastian, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zhang, Junjie James, Series Editor, Kadambi, Govind R., editor, Kumar, Preetham B., editor, and Palade, Vasile, editor

Published

2020

45. Fabrication and Characterization of E-glass Fabric Composites Using Amine-Terminated Butadiene Acrylonitrile

Author

Maloth, Balu, Srinivasulu, N. V., Rajendra, R., Ghosh, Arindam, Series Editor, Chua, Daniel, Series Editor, de Souza, Flavio Leandro, Series Editor, Aktas, Oral Cenk, Series Editor, Han, Yafang, Series Editor, Gong, Jianghong, Series Editor, Jawaid, Mohammad, Series Editor, Praveen Kumar, A., editor, Dirgantara, Tatacipta, editor, and Krishna, P. Vamsi, editor

Published

2020

46. Implementation of Harmonic Oscillator Using Xilinx System Generator

Author

Sankhe, Darshana N., Sawant, Rajendra R., Srinivas Rao, Y., 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, Abraham, Ajith, editor, Cherukuri, Aswani Kumar, editor, and Gandhi, Niketa, editor

Published

2020

47. Design, Synthesis, and the Effects of (E)‑9-Oxooctadec-10-en-12-ynoic Acid Analogues to Promote Glucose Uptake

Author

Rajendra R. Kshirsagar, Pradip K. Gadekar, Vijay M. Khedkar, and Vijayaparthasarathi Vijayakumar

Subjects

Chemistry, QD1-999

Published

2021

48. Self-interaction error overbinds water clusters but cancels in structural energy differences

Author

Sharkas, Kamal, Wagle, Kamal, Santra, Biswajit, Akter, Sharmin, Zope, Rajendra R., Baruah, Tunna, Jackson, Koblar A., Perdew, John P., and Peralta, Juan E.

Published

2020

49. Structural insight into locked nucleic acid based novel antisense modifications: A DFT calculations at monomer and MD simulations at oligomer level

Author

Uppuladinne, Mallikarjunachari V.N., Dowerah, Dikshita, Sonavane, Uddhavesh B., Ray, Suvendra Kumar, Deka, Ramesh C., and Joshi, Rajendra R.

Published

2021

50. Novel pulsed oxygen plasma mediated surface hydrophılizatıon of ritonavır for the enhancement of wettability and solubility

Author

Rojekar, Satish V., Trimukhe, Ajinkya M., Deshmukh, Rajendra R., and Vavia, Pradeep R.

Published

2021