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279 results on '"Deka M"'

1. Stability of a high Mach number flow in a channel

Author

Deka, M., Tomar, G., and Kumaran, V.

Subjects
Physics - Fluid Dynamics, Mathematical Physics
Abstract

Modal instabilities in a flow through a channel at high Reynolds and Mach numbers are studied for three-dimensional perturbations. In addition to the Tollmien-Schlichting modes, there exist higher modes in a channel flow that do not have a counterpart in the incompressible limit. The stability characteristics of these higher modes, obtained through numerical calculations, are compared with boundary layer and Couette flows that have been previously studied. The dominant higher mode instabilities in a channel flow are shown to be viscous in nature, in contrast to compressible boundary layer modes. For general compressible bounded-domain flows, a necessary condition for the existence of neutral modes in the inviscid limit is obtained. This criterion is used to construct a procedure to determine a critical value of Mach number below which the higher modes remain stable. This criterion also delineates a range of angles of inclination of the wave number with respect to the flow direction which could go unstable at a specified Mach number. Asymptotic analysis is carried out for the lower and upper branch of the stability curve in the limit of high Reynolds number. A common set of relations are identified for these exponents for the upper and lower branch for the continuation of the Tollmien-Schlichting modes and the compressible modes. The scalings for the Tollmien-Schlichting modes are identical to those for an incompressible flow. The scalings for the finite wave number modes are different; the wave speed $c$ scales as $\mbox{Re}^{-\frac{1}{3}}$ for the lower branch and $\mbox{Re}^{-\frac{1}{5}}$ for the upper branch, where $\mbox{Re}$ is the Reynolds number. The asymptotic analysis shows that the stability boundaries for three-dimensional perturbations at high Reynolds numbers can be calculated from the strain rate and the temperature of the base flow at the wall., Comment: 59 pages, 10 figures

Published
2022

3. On the physics potential to study the gluon content of proton and deuteron at NICA SPD

Author

Arbuzov, A., Bacchetta, A., Butenschoen, M., Celiberto, F. G., D'Alesio, U., Deka, M., Denisenko, I., Echevarria, M. G., Efremov, A., Ivanov, N. Ya., Guskov, A., Karpishkov, A., Klopot, Ya., Kniehl, B. A., Kotzinian, A., Kumano, S., Lansberg, J. P., Liu, Keh-Fei, Murgia, F., Nefedov, M., Parsamyan, B., Pisano, C., Radici, M., Rymbekova, A., Saleev, V., Shipilova, A., Song, Qin-Tao, and Teryaev, O.

Subjects
High Energy Physics - Experiment, High Energy Physics - Phenomenology
Abstract

The Spin Physics Detector (SPD) is a future multipurpose experiment foreseen to run at the NICA collider, which is currently under construction at the Joint Institute for Nuclear Research (JINR, Dubna, Russia). The physics program of the experiment is based on collisions of longitudinally and transversely polarized protons and deuterons at $\sqrt{s}$ up to 27 GeV and luminosity up to 10$^{32}$ cm$^{-2}$ s$^{-1}$. The SPD will operate as a universal facility for comprehensive study of unpolarized and polarized gluon content of the nucleon, using different complementary probes such as: charmonia, open charm, and prompt photon production processes. The aim of this work is to make a thorough review of the physics objectives that can potentially be addressed at the SPD, underlining related theoretical aspects and discussing relevant experimental results when available. Among different pertinent phenomena particular attention is drawn to the study of the gluon helicity, gluon Sivers and Boer-Mulders functions in the nucleon, as well as the gluon transversity distribution in the deuteron, via the measurement of specific single and double spin asymmetries., Comment: arXiv admin note: text overlap with arXiv:2102.00442

Published
2020

8. Characteristics of solitary waves in a relativistic degenerate ion beam driven magneto plasma

Author

Deka, M. K., Dev, A. N., Misra, A. P., and Adhikary, N. C.

Subjects
Physics - Plasma Physics
Abstract

The nonlinear propagation of small amplitude ion acoustic solitary wave in relativistic degenerate magneto plasma in presence of ion beam is investigated in detail. The nonlinear equations describing the evolution of solitary wave in presence of relativistic non-degenerate magnetized positive ions and ion beams including magnetized degenerate relativistic electrons are derived in terms of Zakharov-Kuznetsov (Z-K) equation for such plasma systems. The ion beams which are ubiquitous ingredient in such plasma systems, are found to have a decisive role in the propagation of solitary wave in such highly dense plasma system. The conditions of wave, propagating with typical solitonic characteristics are examined and discussed in detail under suitable conditions of different physical parameter. Both subsonic and supersonic wave can propagate in such plasmas bearing different characteristics under different physical situations. A detailed analysis of waves propagating in subsonic and/or supersonic regime is carried out. The ion beam concentrations, magnetic field as well as ion beam streaming velocity is found to play a momentous role on the control of the amplitude and width of small amplitude perturbation both in weakly(or non-relativistic) and relativistic plasmas., Comment: 15 pages, 8 figures

Published
2018
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9. Nonlinear dust-acoustic solitary waves and shocks in dusty plasmas with a pair of trapped ions

Author

Adhikary, N. C., Misra, A. P., Deka, M. K., and Dev, A. N.

Subjects
Physics - Plasma Physics
Abstract

The propagation characteristics of small-amplitude dust-acoustic (DA) solitary waves (SWs) and shocks are studied in an unmagnetized dusty plasma with a pair of trapped positive and negative ions. Using the standard reductive perturbation technique with two different scaling of stretched coordinates, the evolution equations for DA SWs and shocks are derived in the forms of complex Korteweg-de Vries (KdV) and complex Burgers' equations. The effects of dust charge variation, the dust thermal pressure, and the ratios of positive to negative ion number densities as well as the free to trapped ion temperatures on the profiles of SWs and shocks are analysed and discussed., Comment: 23 pages, 10 figures

Published
2017
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15. On the physics potential to study the gluon content of proton and deuteron at NICA SPD

Author

Arbuzov, A., Bacchetta, A., Butenschoen, M., Celiberto, F.G., D’Alesio, U., Deka, M., Denisenko, I., Echevarria, M.G., Efremov, A., Ivanov, N.Ya., Guskov, A., Karpishkov, A., Klopot, Ya., Kniehl, B.A., Kotzinian, A., Kumano, S., Lansberg, J.P., Liu, Keh-Fei, Murgia, F., Nefedov, M., Parsamyan, B., Pisano, C., Radici, M., Rymbekova, A., Saleev, V., Shipilova, A., Song, Qin-Tao, and Teryaev, O.

Published
2021
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18. Kadomtsev-Petviashvili (KP) Burgers equation in dusty negative ion plasmas: Evolution of dust-ion acoustic shocks

Author

Dev, A. N., Sarmah, J., Deka, M. K., Misra, A. P., and Adhikary, N. C.

Subjects
Physics - Plasma Physics
Abstract

We study the nonlinear propagation of dust-ion acoustic (DIA) solitary waves in an unmagnetized dusty plasma which consists of electrons, both positive and negative ions and negatively charged immobile dust grains. Starting from a set of hydrodynamic equations with the ion thermal pressures and ion kinematic viscosities included, and using a standard reductive perturbation method, the Kadomtsev-Petviashivili Burgers (KPB) equation is derived, which governs the evolution of DIA shocks. A stationary solution of the KPB equation is obtained and its properties are analysed with different plasma number densities, ion temperatures and masses. It is shown that a transition from shocks with negative potential to positive one occurs depending on the negative ion concentration in the plasma and the obliqueness of propagation of DIA waves., Comment: 10 pages, 3 figures; To appear in Commun. Th. Phys. (2014)

Published
2014
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19. A Lattice Study of Quark and Glue Momenta and Angular Momenta in the Nucleon

Author

Deka, M., Doi, T., Yang, Y. B., Chakraborty, B., Dong, S. J., Draper, T., Glatzmaier, M., Gong, M., Lin, H. W., Liu, K. F., Mankame, D., Mathur, N., and Streuer, T.

Subjects
High Energy Physics - Lattice, High Energy Physics - Phenomenology, Nuclear Experiment, Nuclear Theory
Abstract

We report a complete calculation of the quark and glue momenta and angular momenta in the proton. These include the quark contributions from both the connected and disconnected insertions. The quark disconnected insertion loops are computed with $Z_4$ noise, and the signal-to-noise is improved with unbiased subtractions. The glue operator is comprised of gauge-field tensors constructed from the overlap operator. The calculation is carried out on a $16^3 \times 24$ quenched lattice at $\beta = 6.0$ for Wilson fermions with $\kappa=0.154, 0.155$, and $0.1555$ which correspond to pion masses at $650, 538$, and $478$~MeV, respectively. The chirally extrapolated $u$ and $d$ quark momentum/angular momentum fraction is found to be $0.64(5)/0.70(5)$, the strange momentum/angular momentum fraction is $0.024(6)/0.023(7)$, and that of the glue is $0.33(6)/0.28(8)$. The previous study of quark spin on the same lattice revealed that it carries a fraction of $0.25(12)$ of proton spin. The orbital angular momenta of the quarks are then obtained from subtracting the spin from their corresponding angular momentum components. We find that the quark orbital angular momentum constitutes $0.47(13)$ of the proton spin with almost all of it coming from the disconnected insertions., Comment: Renormalization section is expanded to include more details. There are slight changes in the final numbers. A few modification and corrections are made in the rest of the text

Published
2013
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20. Nucleon mass and sigma term from lattice QCD with two light fermion flavors

Author

Bali, G. S., Bruns, P. C., Collins, S., Deka, M., Gläßle, B., Göckeler, M., Greil, L., Hemmert, T. R., Horsley, R., Najjar, J., Nakamura, Y., Nobile, A., Pleiter, D., Rakow, P. E. L., Schäfer, A., Schiel, R., Schierholz, G., Sternbeck, A., and Zanotti, J.

Subjects
High Energy Physics - Lattice
Abstract

We analyze Nf=2 nucleon mass data with respect to their dependence on the pion mass down to mpi = 157 MeV and compare it with predictions from covariant baryon chiral perturbation theory (BChPT). A novel feature of our approach is that we fit the nucleon mass data simultaneously with the directly obtained pion-nucleon sigma-term. Our lattice data below mpi = 435 MeV is well described by O(p^4) BChPT and we find sigma=37(8)(6) MeV for the sigma-term at the physical point. Using the nucleon mass to set the scale we obtain a Sommer parameter of r_0=0.501(10)(11) fm., Comment: 26 pages, 11 figures, 5 tables. Version to appear in NPB with a few more details on the fit parameters

Published
2012
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21. Characteristics of ion-acoustic solitary wave in a laboratory dusty plasma under the influence of ion-beam

Author

Deka, M. K., Adhikary, N. C., Misra, A. P., Bailung, H., and Nakamura, Y.

Subjects
Physics - Plasma Physics
Abstract

We study the influence of ion beam and charged dust impurity on the propagation of dust ion-acoustic (DIA) solitary wave (SW) in an unmagnetized plasma consisting of Boltzmann distributed electrons, positive ions, positive ion beam and negatively charged immobile dusts in a double plasma device. On interacting with an ion beam, the solitary wave is bifurcated into a compressive fast and a rarefactive slow beam mode, and appears along with the primary wave. However, there exists a critical velocity of the beam beyond which the amplitude of the fast solitary wave starts diminishing and rarefactive slow beam mode propagates with growing amplitude. Whereas, the presence of charged dust impurity in the plasma reduces this critical beam velocity and a substantial modification in the phase velocity of the slow beam mode is observed with increasing dust density. Furthermore, the nonlinear wave velocity (Mach number) as well as the width of the compressive solitons are measured for different beam velocity and dust density, and are compared with those obtained from the K-dV equation. The experimental results are found in a well agreement with the theoretical predictions., Comment: 24 pages, 09 figures; In the revised version (to appear in Phys. Plasmas), the title has been changed, two figures have been removed, some references are added and typos have been rectified wherever necessary

Published
2012
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22. Quark and Glue Momenta and Angular Momenta in the Proton --- a Lattice Calculation

Author

Liu, K. F., Deka, M., Doi, T., Yang, Y. B., Chakraborty, B., Chen, Y., Dong, S. J., Draper, T., Gong, M., Lin, H. W., Mankame, D., Mathur, N., and Streuer, T.

Subjects
High Energy Physics - Phenomenology, High Energy Physics - Lattice, Nuclear Theory
Abstract

We report a complete calculation of the quark and glue momenta and angular momenta in the proton. These include the quark contributions from both the connected and disconnected insertions. The calculation is carried out on a $16^3 \times 24$ quenched lattice at $\beta = 6.0$ and for Wilson fermions with $\kappa = 0.154, 0.155,$ and 0.1555 which correspond to pion masses at 650, 538, and 478 MeV. The quark loops are calculated with $Z_4$ noise and signal-to-noise is improved further with unbiased subtractions. The glue operator is comprised of gauge-field tensors constructed from the overlap operator. The $u$ and $d$ quark momentum/angular momentum fraction is 0.66(5)/0.72(5), the strange momentum/angular momentum fraction is 0.024(6)/0.023(7), and that of the glue is 0.31(6)/0.25(8). The orbital angular momenta of the quarks are obtained from subtracting the angular momentum component from its corresponding spin. As a result, the quark orbital angular momentum constitutes 0.50(2) of the proton spin, with almost all it coming from the disconnected insertion. The quark spin carries a fraction 0.25(12) and glue carries a fraction 0.25(8) of the total proton spin., Comment: 11 pages, 8 figures, talk presented at the 2011 Lattice conference, Lake Tahoe, California

Published
2012

24. Moments of Nucleon's Parton Distribution for the Sea and Valence Quarks from Lattice QCD

Author

Deka, M., Streuer, T., Doi, T., Dong, S. J., Draper, T., Liu, K. F., Mathur, N., and Thomas, A. W.

Subjects
High Energy Physics - Phenomenology, High Energy Physics - Lattice, Nuclear Theory
Abstract

We extend the study of lowest moments, $$ and $$, of the parton distribution function of the nucleon to include those of the sea quarks; this entails a disconnected insertion calculation in lattice QCD. This is carried out on a $16^3 \times 24$ quenched lattice with Wilson fermion. The quark loops are calculated with $Z_2$ noise vectors and unbiased subtractions, and multiple nucleon sources are employed to reduce the statistical errors. We obtain 5$\sigma$ signals for $$ for the $u,d,$ and $s$ quarks, but $$ is consistent with zero within errors. We provide results for both the connected and disconnected insertions. The perturbatively renormalized $$ for the strange quark at $\mu = 2$ GeV is $_{s+\bar{s}} = 0.027 \pm 0.006$ which is consistent with the experimental result. The ratio of $$ for $s$ vs. $u/d$ in the disconnected insertion with quark loops is calculated to be $0.88 \pm 0.07$. This is about twice as large as the phenomenologically fitted $\displaystyle\frac{< x>_{s+\bar{s}}}{< x>_{\bar{u}}+< x>_{\bar{d}}}$ from experiments where $\bar{u}$ and $\bar{d}$ include both the connected and disconnected insertion parts. We discuss the source and implication of this difference., Comment: 50 Pages 58 Figures

Published
2008
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33. EXACT CLOSED FORM SOLUTIONS OF COMPOUND KDV BURGERS' EQUATION BY USING GENERALIZED (G0=G) EXPANSION METHOD.

Author

MOHANTY, S. K., DEKA, M. K., and DEV, A. N.

Subjects
BURGERS' equation, ACOUSTIC wave propagation, PLASMA physics, WAVES (Physics), THEORY of wave motion, HYPERBOLIC functions
Abstract

In this investigation, the compound Korteweg-de Vries (Kd-V) Burgers equation with constant coefficients is considered as the model, which is used to describe the properties of ion-acoustic waves in plasma physics, and also applied for long wave propagation in nonlinear media with dispersion and dissipation. The aim of this paper to achieve the closed and dynamic closed form solutions of the compound KdV Burgers equation. We derived the completely new solutions to the considered model using the generalized -expansion method. The newly obtained solutions are in form of hyperbolic and trigonometric functions, and rational function solutions with inverse terms of the trigonometric, hyperbolic functions. The dynamical representations of the obtained solutions are shown as the annihilation of three-dimensional shock waves, periodic waves, and multisoliton through their three dimensional and contour plots. The obtained solutions are also compared with previously exiting solutions with both analytically and numerically, and found that our results are preferable acceptable compared to the previous results. [ABSTRACT FROM AUTHOR]

Published
2023

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