Your search keyword '"Ghosh, Snigdha"' showing total 35 results

1. Electrical conductivity and shear viscosity of a pion gas in a thermo-magnetic medium

Author

Kalikotay, Pallavi, Ghosh, Snigdha, Chaudhuri, Nilanjan, Roy, Pradip, and Sarkar, Sourav

Subjects

Nuclear Theory, High Energy Physics - Phenomenology

Abstract

We evaluate the electrical conductivity and shear viscosity of a interacting pion gas in a thermo-magnetic medium using the kinetic theory. The collision term of the relativistic Boltzmann transport equation in presence of background magnetic field is solved using the relaxation time approximation. The medium modified relaxation time is obtained from the corresponding in-medium $\pi\pi\rightarrow \pi\pi$ scattering cross-section calculated using the thermo-magnetic $\rho$ propagator. It is observed that the average relaxation time shows a $1/T^4$ variation with temperature for a fixed value of magnetic field. The relaxation time shows a mild oscillatory variation with respect to the magnetic field. It is also observed that the medium dependent scattering cross-section causes a considerable amount of influence on the electrical conductivity and shear viscosity compared to its vacuum counterpart., Comment: Version published in EPJA

Published

2024

2. Monetary and non monetary incentives in LIC of India and its impact-a case study of Ranchi District

Author

Chaudhary, Amar Kumar and Ghosh, Snigdha

Published

2017

3. Ellipticity of dilepton production from a hot and magnetized hadronic medium

Author

Mondal, Rajkumar, Chaudhuri, Nilanjan, Ghosh, Snigdha, Sarkar, Sourav, and Roy, Pradip

Subjects

High Energy Physics - Phenomenology, Nuclear Theory

Abstract

We study the azimuthal angle and transverse momentum dependence of dilepton production from hot and magnetized hadronic matter using $\rho^0$-meson dominance. The thermomagnetic spectral function of the $\rho^0$ is evaluated using the real time method of thermal field theory and Schwinger proper-time formulation. A continuous spectrum is obtained in which there is sizeable Landau cut contributions in the low invariant mass region as a consequence of finite background field. The emission rate of the dileptons is found to be significantly anisotropic in this region and the later effectively increases with the strength of the background field. In addition, we also evaluate the elliptic flow parameter ($v_2$) as a function of invariant mass for different values of magnetic field and temperature. We find that in low invariant mass region $v_2$ remains positive at lower values of $eB$ signifying that the production rate could be larger along the direction transverse to the background field. This behaviour is consistent with the angular dependence of dilepton production rate., Comment: Version published in European Physical Journal A

Published

2023

4. Dynamics of QCD Matter -- current status

Author

Jaiswal, Amaresh, Haque, Najmul, Abhishek, Aman, Abir, Raktim, Bandyopadhyay, Aritra, Banu, Khatiza, Bhadury, Samapan, Bhattacharyya, Sumana, Bhattacharyya, Trambak, Biswas, Deeptak, Chandola, H. C., Chandra, Vinod, Chatterjee, Bhaswar, Chattopadhyay, Chandrodoy, Chaudhuri, Nilanjan, Das, Aritra, Das, Arpan, Das, Santosh K., Dash, Ashutosh, Deka, Kishan, Dey, Jayanta, Farias, Ricardo L. S., Gangopadhyaya, Utsab, Ghosh, Ritesh, Ghosh, Sabyasachi, Ghosh, Snigdha, Heinz, Ulrich, Jaiswal, Sunil, Kadam, Guru Prasad, Kalikotay, Pallavi, Karmakar, Bithika, Krein, Gastão, Kumar, Avdhesh, Kumar, Deepak, Kumar, Lokesh, Kurian, Manu, Maity, Soumitra, Mishra, Hiranmaya, Mohanty, Payal, Mohapatra, Ranjita K., Mukherjee, Arghya, Mustafa, Munshi G., Pal, Subrata, Pandey, H. C., Rahaman, Mahfuzur, Rapp, Ralf, Rawat, Deependra Singh, Roy, Sutanu, Roy, Victor, Saha, Kinkar, Sahoo, Nihar R., Samanta, Subhasis, Sarkar, Sourav, Satapathy, Sarthak, Serna, Fernando E., Siddiqah, Mariyah, Singha, Pracheta, Sreekanth, V., Upadhaya, Sudipa, Vasim, Nahid, and Yadav, Dinesh

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment, Nuclear Theory

Abstract

In this article, there are 18 sections discussing various current topics in the field of relativistic heavy-ion collisions and related phenomena, which will serve as a snapshot of the current state of the art. Section 1 reviews experimental results of some recent light-flavored particle production data from ALICE collaboration. Other sections are mostly theoretical in nature. Very strong but transient magnetic field created in relativistic heavy-ion collisions could have important observational consequences. This has generated a lot of theoretical activity in the last decade. Sections 2, 7, 9, 10 and 11 deal with the effects of the magnetic field on the properties of the QCD matter. There are several unanswered questions about the QCD phase diagram. Sections 3, 11 and 18 discuss various aspects of the QCD phase diagram and phase transitions. Recent years have witnessed interesting developments in foundational aspects of hydrodynamics and their application to heavy-ion collisions. Sections 12, 15, 16 and 17 of this article probe some aspects of this exciting field. Transport coefficients together with their temperature- and density-dependence, are essential inputs in hydrodynamical calculations. Sections 5, 8 and 14 deal with calculation/estimation of various transport coefficients (shear and bulk viscosity, thermal conductivity, relaxation times, etc.) of quark matter and hadronic matter. Sections 4, 6 and 13 deals with interesting new developments in the field. Section 4 discusses color dipole gluon distribution function at small transverse momentum in the form of a series of Bells polynomials. Section 6 discusses the properties of Higgs boson in the quark gluon plasma using Higgs-quark interaction. Section 13 discusses modification of coalescence model to incorporate viscous corrections and application of this model., Comment: 109 pages, 49 captioned figures, compilation of the contributions as presented in the `Workshop on Dynamics of QCD Matter', 15th to 17th August 2019, NISER Bhubaneswar, India, published version

Published

2020

5. Waste and their polysaccharides: Are they worth bioprocessing?

Author

Panja, Avirup, Paul, Sushreeta, Jha, Priyanka, Ghosh, Snigdha, and Prasad, Ram

Published

2023

6. Removal of hazardous textile dye from simulated wastewater by municipal organic solid waste charcoal using machine learning approaches: Kinetics, isotherm, and thermodynamics

Author

Chakraborty, Tapos Kumar, Ghosh, Snigdha, Islam, Md Shahnul, Nice, Md Simoon, Islam, Khandakar Rashedul, Netema, Baytune Nahar, Rahman, Md Sozibur, Habib, Ahsan, Zaman, Samina, Chandra Ghosh, Gopal, Hossain, Md Ripon, Tul-Coubra, Khadiza, Adhikary, Keya, Munna, Asadullah, Haque, Md Muhaiminul, Bosu, Himel, and Halder, Monishanker

Published

2023

7. Viscosity calculations from Hadron Resonance Gas model: Finite size effect

Author

Ghosh, Snigdha, Samanta, Subhasis, Ghosh, Sabyasachi, and Mishra, Hiranmaya

Subjects

Nuclear Theory, High Energy Physics - Phenomenology, Nuclear Experiment

Abstract

We have attempted to review on microscopic calculation of transport coefficients like shear and bulk viscosities in the framework of hadron resonance gas model, where a special attention is explored on the effect of finite system size. The standard expressions of transport coefficients, obtained from relaxation time approximation of kinetic theory or diagrammatic Kubo-type formalism, carry mainly two temperature dependent components -- thermodynamical phase space and relaxation time of medium constituent. Owing to quantum effect of finite system size, thermodynamical phase space can be reduced as its momentum distribution will be started from some finite lower momentum cut-off instead of zero momentum. On the other hand, relaxation time of hadrons can also face finite size effect by considering only those relaxation scales, which are lower than the system size. Owing to these phenomenological issues, we have proposed a system size dependent upper bound of transport coefficients for ideal HRG model, whose qualitative technique may also be applicable in other models. This finite size prescription may guide to shorten the broad numerical band, within which earlier estimated values of transport coefficients for hadronic matter are located. It is also suspected that the hadronic matter may not be far from the (nearly) perfect fluid nature like the quark gluon plasma., Comment: Going through a quick review of viscosity calculation in HRG models, present article highlighted finite size effect on viscosity (similar to quantum lower bound, a phenomenological upper bound can also be expected because of finite size of hadronic matter)

Published

2019

8. Quantum version of transport coefficients in Nambu–Jona-Lasinio model at finite temperature and strong magnetic field

Author

Bandyopadhyay, Aritra, Ghosh, Snigdha, Farias, Ricardo L. S., and Ghosh, Sabyasachi

Published

2023

9. Assessing indoor air quality and sick building syndrome in classrooms and laboratories in Bangladesh Agricultural University

Author

Ghosh Snigdha, Shahadat Hossen Md., and Tofazzal Hossain Muhammad

Subjects

Environmental sciences, GE1-350

Abstract

The indoor air quality (IAQ) of naturally ventilated classrooms and laboratories was assessed to determine the health risks to students. IAQ examination comprised an analysis of indoor air pollutants with microbiological (fungi and bacteria) pollutants. The prevalence of Sick Building Syndrome (SBS) symptoms and associated risk factors were studied in classrooms and laboratories. Questionnaires were often used to quantify the opinions of students about environmental issues, and different portable air quality monitors were used to measure indoor air pollution levels. The average CO2 content in classrooms and laboratories under-occupied and unoccupied conditions were 951.48 ppm and 708.87 ppm respectively. TVOC concentration was at an acceptable level under occupied conditions with a mean of 0.33 mg/m3. PM2.5 and PM10 content in classrooms and laboratories was found in the acceptable range. High level of microbial air pollution load was observed in occupied classrooms and laboratories especially Bacterial colonies. The prevalence of general, mucosal, and skin complaints was 39.4%, 42.5%, and 34.4%, respectively where highest reported symptoms was headache (32.5%) while irritated, stuffy, or runny nose (8.8%) was lest. There was significant association of SBS and sex, asthma and allergic histories.

Published

2024

10. In-medium thermal conductivity and diffusion coefficients of a hot hadronic gas mixture

Author

Gangopadhyaya, Utsab, Ghosh, Snigdha, and Sarkar, Sourav

Subjects

Nuclear Theory

Abstract

The relativistic kinetic theory approach has been employed to study four well-known transport coefficients that characterize heat flow and diffusion for the case of a hot mixture constituting of nucleons and pions. Medium effects on the cross-section for binary collisions ($N\pi$,$\pi\pi$) have been taken into consideration by incorporating self-energy corrections to modify the propagator of the exchanged $\Delta$ baryon in $N\pi$ interaction and the $\rho$ and $\sigma$ meson propagators for the case of $\pi\pi$ interaction. The temperature dependence of the four coefficients have been investigated for several values of the baryon chemical potential.

Published

2017

11. Nonlinear classification of emotion from EEG signal based on maximized mutual information

Author

Ghosh, Snigdha Madhab, Bandyopadhyay, Sharba, and Mitra, Debjani

Published

2021

12. The Efficacy of a Three-Dimensional Static Liquid–Vapor Interface Model to Calculate the Static Liquid Holdup of a Packed Bed

Author

Ghosh, Snigdha, Erram, Akhilandeshwari, Namadi, Manoja, Ballal, N. B., and Viswanathan, N. N.

Published

2021

13. A Dynamic Mixed-Control Model for BOF Metal–Slag–Gas Reactions

Author

Biswas, Jayasree, Ghosh, Snigdha, Ballal, N. B., and Basu, Somnath

Published

2021

14. Insignificance of the anomalous magnetic moment of the quarks in presence of chiral imbalance

Author

Chaudhuri, Nilanjan, Mukherjee, Arghya, Ghosh, Snigdha, Sarkar, Sourav, and Roy, Pradip

Published

2022

15. Shape and maximum volume of static holdup in between two vertical spheres: A modeling study

Author

Ghosh, Snigdha, Viswanathan, Nurni N., and Ballal, N.B.

Published

2020

16. Fundamental Insight into the Dripping Criteria of Slag and Hot Metal in a Coke Bed Using Energy Minimization Model

Author

Ghosh, Snigdha, Ballal, N. B., and Viswanathan, N. N.

Published

2020

17. Effects of quark anomalous magnetic moment on the thermodynamical properties and mesonic excitations of magnetized hot and dense matter in PNJL model

Author

Chaudhuri, Nilanjan, Ghosh, Snigdha, Sarkar, Sourav, and Roy, Pradip

Published

2020

18. Scattering cross-section under external magnetic field using the optical theorem

Author

Ghosh, Snigdha and Chandra, Vinod

Published

2020

19. Viscous coefficients and thermal conductivity of a πKN gas mixture in the medium

Author

Kalikotay, Pallavi, Chaudhuri, Nilanjan, Ghosh, Snigdha, Gangopadhyaya, Utsab, and Sarkar, Sourav

Published

2020

20. Transport coefficients of hot magnetized QCD matter beyond the lowest Landau level approximation

Author

Kurian, Manu, Mitra, Sukanya, Ghosh, Snigdha, and Chandra, Vinod

Published

2019

21. ρ0-ω mixing in the presence of a weak magnetic field

Author

Mandal, Mahatsab, Mukherjee, Arghya, Ghosh, Snigdha, Roy, Pradip, and Sarkar, Sourav

Published

2018

22. A Combinatorial Nanobased Spray-Induced Gene Silencing Technique for Crop Protection and Improvement.

Author

Ghosh, Snigdha, Patra, Snehanjana, and Ray, Sarmistha

Published

2023

23. Rat Carboxylesterase ES-4 Enzyme Functions as a Major Hepatic Neutral Cholesteryl Ester Hydrolase

Author

Parathath, Saj, Dogan, Snjezana, Joaquin, Victor A., Ghosh, Snigdha, Guo, Liang, Weibel, Ginny L., Rothblat, George H., Harrison, Earl H., and Fisher, Edward A.

Published

2011

24. Finite size effect on the thermodynamics of a hot and magnetized hadron resonance gas.

Author

Atta, Debasis, Chaudhuri, Nilanjan, and Ghosh, Snigdha

Subjects

THERMODYNAMICS, HADRONS, MAGNETIC field effects, DISPERSION relations, MAGNETIC traps

Abstract

The thermodynamic properties of a non-interacting ideal hadron resonance gas (HRG) of finite volume have been studied in the presence of an external magnetic field. The inclusion of background magnetic field in the calculation of thermodynamic potential is done by the modification of the dispersion relations of the charged hadrons in terms of Landau quantization. The generalized Matsubara prescription has been employed to take into account the finite size effects in which a periodic (anti-periodic) boundary conditions is considered for the mesons (baryons). We find significant effects of the magnetic field as well as system size on the temperature dependence of energy density, longitudinal and transverse pressure especially in low temperature regions. The HRG is found to exhibit diamagnetism (paramagnetism) in the low (high) temperature region whereas the finite size effect is seen to strengthen the diamagnetic behavior of the medium. [ABSTRACT FROM AUTHOR]

Published

2022

25. Development of criteria for assessment of gas channelling phenomenon inside the blast furnace.

Author

Jain, Kratika, Ghosh, Snigdha, Abhale, Prakash B., Samantaray, Pratyush R., and Korath, Jose M.

Abstract

Gas channelling is an uneven distribution of ascending gas through the burden layers in the blast furnace. This occurs due to the difference in permeability across the horizontal cross-section, which reduces the operational efficiency. When unattended, channelling can aggravate hanging and may further lead to burden slippage and chilling of the hearth, which is a nightmare for the blast furnace operator. The objective of this work is to develop a gas channelling assessment system based on statistical modelling by analysing the real-time data for parameters like stave temperature, pressure, gas utilisation ratio and uptake temperature. The criteria, which are indicative of the fluctuations in physical and chemical process parameters during gas channelling, are developed from process knowledge and theoretical understanding of the channelling with historical data of one of the blast furnaces of Tata Steel Jamshedpur, India. Optimum combinations of the criteria are found through fine-tuning of the statistical parameters and cross-validation with the preexisting events of gas channelling. The model is run on the test dataset, and the accuracy of the model is presented. [ABSTRACT FROM AUTHOR]

Published

2024

26. Regulation of B cell development and B cell signalling by CD22 and its ligands α2,6-linked sialic acids

Author

Ghosh, Snigdha, Bandulet, Claudia, and Nitschke, Lars

Published

2006

27. In-medium thermal conductivity and diffusion coefficients of a hot hadronic gas mixture.

Author

Gangopadhyaya, Utsab, Ghosh, Snigdha, and Sarkar, Sourav

Subjects

*THERMAL conductivity, *DIFFUSION coefficients, *GAS mixtures, *CHEMICAL potential, *PARTICLES (Nuclear physics), *DIFFUSION

Abstract

The relativistic kinetic theory approach has been employed to estimate for a hot mixture constituting of nucleons and pions, four transport coefficients that characterize heat flow and diffusion. Medium effects on the cross-section for binary collisions (π π , π N) have been taken into consideration by incorporating self-energy corrections to modify the ρ and σ meson propagators for π π interaction and the Δ propagator for π N interaction. The temperature dependence of the various coefficients has been studied for several values of the baryon chemical potential. [ABSTRACT FROM AUTHOR]

Published

2019

28. Medium effects on the electrical conductivity of a hot pion gas.

Author

Ghosh, Snigdha, Mitra, Sukanya, and Sarkar, Sourav

Subjects

*ELECTRIC conductivity, *PIONS, *ELECTRIC fields, *SCATTERING (Physics), *CHARGE carrier relaxation time

Abstract

The electromagnetic response of an interacting system of pions has been studied at finite temperature. The corresponding transport parameter i.e. electrical conductivity has been estimated by solving the relativistic transport equation in presence of a finite electric field employing the Chapman–Enskog technique where the collision term has been treated in the relaxation time approximation. The scattering amplitudes of charged pions modeled by ρ and σ meson exchange using an effective Lagrangian have been obtained at finite temperature by introducing self-energy corrections in the thermal propagators in the real time formalism. The temperature behavior of electrical conductivity for a hot pion gas shows significant quantitative enhancement due to the inclusion of medium effects in scattering. [ABSTRACT FROM AUTHOR]

Published

2018

29. A fluorescence study of the solute-solvent interactions of aminochalcones in a room-temperature ionic liquid.

Author

Santhosh, Kotni, Grandhi, G. Krishnamurthy, Ghosh, Snigdha, and Samanta, Anunay

Subjects

FLUORIMETRY, CHALCONES, IONIC liquids, ELECTRON donor-acceptor complexes, POLAR solvents, PHOSPHATES, CHARGE transfer

Abstract

Unlike most other electron donor-acceptor (EDA) molecules, aminochalcones exhibit unusual solvent polarity-dependent fluorescence behavior. The photophysical behavior of two aminochalcones, namely, 4-aminochalcone (AC) and 4-dimethylaminochalcone (DMAC), has been studied in a viscous room-temperature ionic liquid (IL), 1-butyl-3- methylimidazolium hexafluorophosphate, [bmim][PF6], by steady-state and time-resolved fluorescence techniques. The observation of a single emission band in viscous IL, which is similar to the one observed in less viscous polar conventional solvents, suggests no twisting is necessary for the formation of the charge-transfer state from which the emission of aminochalcones originates. The fluorescence decay profiles, solvation dynamics, and excitation- wavelength-dependent emission behavior of AC are found to be quite different from those of DMAC in the IL. The observed difference is attributed to specific H-bonding interaction between AC and [bmim][PF6]. [ABSTRACT FROM AUTHOR]

Published

2013

30. B cell defects in SLP65/BLNK-deficient mice can be partially corrected by the absence of CD22, an inhibitory coreceptor for BCR signaling.

Author

Gerlach, Judith, Ghosh, Snigdha, Jumaa, Hassan, Reth, Michael, Wienands, Jürgen, Chan, Andrew C., and Nitschke, Lars

Abstract

CD22 is an inhibitory coreceptor for B cell receptor (BCR) signaling. The inhibition is most likely mediated by activation of SHP-1. We found that SLP65/BLNK reaches maximal tyrosine-phosphorylation at earlier time points in CD22 than in wild type B cells upon BCR cross-linking, suggesting that SLP65/BLNK is a substrate of SHP-1. However, in contrast to the defective Ca mobilization of SLP65/BLNK B cells, there was a clear Ca response in SLP65/BLNK×CD22 double-deficient B cells. This implies that SLP65/BLNK is not the sole target of SHP-1 in the regulation of the Ca signaling strength. While SLP65 mice show several blocks of B cell differentiation, in SLP65/BLNK×CD22 double-deficient mice the maturationblock of B cells in the spleen was partially rescued. However, the proliferative responses of B cells from both SLP65/BLNK and double-deficient mice were defective after IgM- or CD40-stimulation. These results show that SLP65/BLNK is not absolutely essential for Ca induction in B cells, because the deficiency of this adapter can be by-passed by the additional deletion of an inhibitory receptor. Furthermore, these experiments suggest that B cell maturation in the spleen is directly dependent on the strength of BCR-derived Ca signals. [ABSTRACT FROM AUTHOR]

Published

2003

31. Phenomenological bound on the viscosity of the hadron resonance gas.

Author

Ghosh, Snigdha, Ghosh, Sabyasachi, and Bhattacharyya, Sumana

Subjects

*PHENOMENOLOGICAL theory (Physics), *VISCOSITY, *HADRONS

Abstract

We explore some phenomenological issues during calculations of transport coefficients for hadronic matter, produced in the experiments of heavy ion collisions. Here, we use an ideal hadron resonance gas model to demonstrate the issues. On the basis of dissipation mechanism, the hadronic zoo is classified into resonance and nonresonance members who participate in dissipation via strong decay and scattering channels, respectively. Imposing our phenomenological restriction, we are able to provide a rough upper and lower bound estimations of transport coefficients. Interestingly, we find that our proposed lower limit estimation for shear viscosity to entropy density ratio is a little larger than its quantum lower bound. By taking a simple example, we demonstrate how our proposed restriction helps to tune any estimation of transport coefficients within its numerical band, proposed by us. [ABSTRACT FROM AUTHOR]

Published

2018

32. Contribution of a kaon component in the viscosity and conductivity of a hadronic medium.

Author

Rahaman, Mahfuzur, Ghosh, Snigdha, Ghosh, Sabyasachi, Sarkar, Sourav, and Alam, Jan-e

Subjects

*KAONS, *VISCOSITY, *HADRONS

Abstract

With the help of effective Lagrangian densities of strange hadrons, we calculated the kaon relaxation time from several loop and scattering diagrams at tree level, which basically represent contributions from 1↔2 and 2↔2 types of collisions. Using the total relaxation time of a kaon, the shear viscosity and electrical conductivity of this kaon component have been estimated. The high temperature, close to transition temperature, where the kaon relaxation time is lower than the lifetime of Relativistic Heavy Ion Collider or Large Hadron Collider matter may be the only relevant domain for this component to contribute in hadronic dissipation. Our results suggest that the kaon can play an important role in the enhancement of shear viscosity and electrical conductivity of hadronic matter near the transition temperature. [ABSTRACT FROM AUTHOR]

Published

2018

33. In-medium viscous coefficients of a hot hadronic gas mixture.

Author

Gangopadhyaya, Utsab, Ghosh, Snigdha, Sarkar, Sourav, and Mitra, Sukanya

Subjects

*VISCOSITY, *HADRONIC atoms, *PARTICLE physics

Abstract

We estimate the shear and the bulk viscous coefficients for a hot hadronic gas mixture made of pions and nucleons. The viscosities are evaluated in the relativistic kinetic theory approach by solving the transport equation in the relaxation time approximation for binary collisions (ππ,πN, and NN). Instead of the vacuum cross sections usually used in the literature we employ in-medium scattering amplitudes in the estimation of the relaxation times. The modified cross sections for ππ and πN scattering are obtained using one-loop modified thermal propagators for ρ,σ, and Δ in the scattering amplitudes which are calculated using effective interactions. The resulting suppression of the cross sections at finite temperature and baryon density is observed to significantly affect the T and μN dependence of the viscosities of the system. [ABSTRACT FROM AUTHOR]

Published

2016

34. Initial conditions from the shadowed Glauber model for Pb + Pb collisions at √sNN=2.76 TeV.

Author

Ghosh, Snigdha, Singh, Sushant K., Chatterjee, Sandeep, Alam, Jane, and Sarkar, Sourav

Subjects

*COLLISIONS (Nuclear physics), *MONTE Carlo method

Abstract

We study the initial conditions for Pb+Pb collisions at √sNN=2.76 TeV using the two-component Monte-Carlo Glauber model with shadowing of the nucleons in the interior by the leading ones. The model parameters are fixed by comparing them to the multiplicity data of p+Pb and Pb+Pb collisions at √sNN=5.02 and 2.76 TeV, respectively. We then compute the centrality dependence of the eccentricities up to the fourth order as well as their event-by-event distributions. The inclusion of shadowing brings the Monte-Carlo Glauber model predictions in agreement with data as well as with results from other dynamical models of initial conditions based on gluon saturation at high-energy nuclear collisions. Further, we find that the shadowed Glauber model provides the desired relative magnitude between the ellipticity and the triangularity of the initial energy distribution required to explain the data on the even and odd flow harmonics v2 and v3, respectively, at the CERN Large Hadron Collider. [ABSTRACT FROM AUTHOR]

Published

2016

35. Initial condition from the shadowed Glauber model.

Author

Chatterjee, Sandeep, Singh, Sushant K., Ghosh, Snigdha, Hasanujjaman, Md, Alam, Jane, and Sarkar, Sourav

Subjects

*NUCLEAR models, *URANIUM, *MONTE Carlo method, *COLLISIONS (Nuclear physics), *PARTICLES (Nuclear physics), *GLUONS

Abstract

The two component Monte-Carlo Glauber model predicts a knee-like structure in the centrality dependence of elliptic flow v 2 in Uranium + Uranium collisions at s NN = 193 GeV . It also produces a strong anti-correlation between v 2 and d N c h / d y in the case of top ZDC events. However, none of these features have been observed in data. We address these discrepancies by including the effect of nucleon shadowing to the two component Monte-Carlo Glauber model. Apart from addressing successfully the above issues, we find that the nucleon shadow suppresses the event by event fluctuation of various quantities, e.g. ε 2 which is in accordance with expectation from the dynamical models of initial condition based on gluon saturation physics. [ABSTRACT FROM AUTHOR]

Published

2016