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1. Study of Breather Structures in the Framework of Gardner Equation in Electron-Positron-Ion Plasmas

Author

Nasipuri, Snehalata, Chandra, Swarniv, Ghosh, Uday Narayan, Das, Chinmay, and Chatterjee, Prasanta

Subjects
Physics - Plasma Physics, Mathematical Physics, Nonlinear Sciences - Pattern Formation and Solitons
Abstract

In different nonlinear mediums, the wave trains carry energy and expose many amazing features. To describe a nonlinear phenomenon, a soliton is one that preserves its shape and amplitude even after the collision. Breather is one kind of soliton structure, which is a localized wave that periodically oscillates in amplitude. This article uses the reductive perturbation technique (RPT) to get the GE from a plasma system with four parts: cold positrons that can move, hot positrons and hot electrons that are spread out in a kappa pattern, and positive ions that can't move. Then, using the Hirota bilinear method (HBM), it is possible to obtain the multi-soliton and breather structures of GE. Breathers are fluctuating regional wave packets and significantly participate in hydrodynamics as well as optics; besides, their interaction can alter the dynamical characteristics of the wave fields. We also incorporate a detailed numerical simulation study based on a newly designed code by two of the co-authors. It is found that in our plasma system, soliton solutions, especially breather solutions, exist. Although superthermal (kappa-distributed) electrons and positrons play an important role in soliton structures, This type of analysis can also apply to the propagation of finite-amplitude waves in natural phenomena like the atmosphere, ocean, optic fibres, signal processing, etc. It should also be useful to study different electrostatic disturbances in space and laboratory plasmas, where immobile positive ions, superthermal electrons, superthermal hot positrons, and mobile cold positrons are the major plasma species., Comment: 34 pages, 26 figures

Published
2024

7. The Physics of Stratum Corneum Lipid Membranes

Author

Das, Chinmay and Olmsted, Peter D.

Subjects
Condensed Matter - Soft Condensed Matter, Physics - Biological Physics, Physics - Chemical Physics, Quantitative Biology - Tissues and Organs
Abstract

The Stratum Corneum (SC), the outermost layer of skin, comprises rigid corneocytes (keratin filled dead cells) in a specialized lipid matrix. The continuous lipid matrix provides the main barrier against uncontrolled water loss and invasion of external pathogens. Unlike all other biological lipid membranes (like intracellular organelles and plasma membranes), molecules in SC lipid matrix show small hydrophilic group and large variability in the length of the alkyl tails and in the numbers and positions of groups that are capable of forming hydrogen bonds. Molecular simulations provide a route for systematically probing the effects of each of these differences separately. In this article we present results from atomistic molecular dynamics of selected lipid bilayers and multilayers to probe the effect of these polydispersities. We address the nature of the tail packing in the gel-like phase, the hydrogen bond network among head groups, the bending moduli expected for leaflets comprising SC lipids, and the conformation of very long ceramide lipids (EOS) in multibilayer lipid assemblies., Comment: 13 pages, from the Royal Society Discussion Meeting "Soft Interfacial Materials: from fundamentals to formulation", 12-13 October 2015, London

Published
2015
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10. Fast cholesterol flip-flop and lack of swelling in skin lipid multilayers

Author

Das, Chinmay, Noro, Massimo G., and Olmsted, Peter D.

Subjects
Condensed Matter - Soft Condensed Matter, Quantitative Biology - Subcellular Processes, Quantitative Biology - Tissues and Organs
Abstract

Atomistic simulations were performed on hydrated model lipid multilayers that are representative of the lipid matrix in the outer skin (stratum corneum). We find that cholesterol transfers easily between adjacent leaflets belonging to the same bilayer via fast orientational diffusion (tumbling) in the inter-leaflet disordered region, while at the same time there is a large free energy cost against swelling. This fast flip-flop may play an important role in accommodating the variety of curvatures that would be required in the three dimensional arrangement of the lipid multilayers in skin, and for enabling mechanical or hydration induced strains without large curvature elastic costs., Comment: 9 Pages, link to animations

Published
2014
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12. Lamellar and inverse micellar structures of skin lipids: Effect of templating

Author

Das, Chinmay, Noro, Massimo G., and Olmsted, Peter D.

Subjects
Condensed Matter - Soft Condensed Matter, Physics - Biological Physics
Abstract

The outermost layer of skin, the stratum corneum (SC), comprises rigid corneocytes in a layered lipid matrix. Using atomistic simulations we find that the equilibrium phase of the SC lipids is inverse micellar. A model of the corneocyte is used to demonstrate that lamellar layering is induced by the patterned corneocyte wall. The inverse micellar phase is consistent with in vivo observations in the lacunar spaces and at the stratum granulosum - SC boundary region, and suggests a functional role in the lipid synthesis pathway in vivo., Comment: pdflatex 5 pages, 10 page supplementary material. Published Physical Review Letters. Added link to website with animations

Published
2013
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13. Nano-scale mechanical probing of supported lipid bilayers with atomic force microscopy

Author

Das, Chinmay, Sheik, Khizar H., Olmsted, Peter D., and Connell, Simon D.

Subjects
Physics - Biological Physics, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Condensed Matter - Soft Condensed Matter
Abstract

We present theory and experiments for the force-distance curve $F(z_0)$ of an atomic force microscope (AFM) tip (radius $R$) indenting a supported fluid bilayer (thickness $2d$). For realistic conditions the force is dominated by the area compressibility modulus $\kappa_A$ of the bilayer, and, to an excellent approximation, given by $F= \pi \kappa_A R z_0^2/(2d-z_0)^2$. The experimental AFM force curves from coexisting liquid ordered and liquid disordered domains in 3-component lipid bilayers are well-described by our model, and provides $\kappa_A$ in agreement with literature values. The liquid ordered phase has a yield like response that we model by hydrogen bond breaking., Comment: 6 pages, 6 figures, accepted for publication in Physical Review E

Published
2010
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14. Water permeation through stratum corneum lipid bilayers from atomistic simulations

Author

Das, Chinmay, Olmsted, Peter D., and Noro, Massimo G.

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

Stratum corneum, the outermost layer of skin, consists of keratin filled rigid non-viable corneocyte cells surrounded by multilayers of lipids. The lipid layer is responsible for the barrier properties of the skin. We calculate the excess chemical potential and diffusivity of water as a function of depth in lipid bilayers with compositions representative of the stratum corneum using atomistic molecular dynamics simulations. The maximum in the excess free energy of water inside the lipid bilayers is found to be twice that of water in phospholipid bilayers at the same temperature. Permeability, which decreases exponentially with the free energy barrier, is reduced by several orders of magnitude as compared to with phospholipid bilayers. The average time it takes for a water molecule to cross the bilayer is calculated by solving the Smoluchowski equation in presence of the free energy barrier. For a bilayer composed of a 2:2:1 molar ratio of ceramide NS 24:0, cholesterol and free fatty acid 24:0 at 300K, we estimate the permeability P=3.7e-9 cm/s and the average crossing time \tau_{av}=0.69 ms. The permeability is about 30 times smaller than existing experimental results on mammalian skin sections., Comment: latex, 8 pages, 6 figures

Published
2009

15. Simulation studies of stratum corneum lipid mixtures

Author

Das, Chinmay, Noro, Massimo G., and Olmsted, Peter D.

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

We present atomistic molecular dynamics results for fully hydrated bilayers composed of ceramide NS-24:0, free fatty acid 24:0 and cholesterol, to address the effect of the different components in the stratum corneum (the outermost layer of skin) lipid matrix on its structural properties. Bilayers containing ceramide molecules show higher in-plane density and hence lower rate of passive transport compared to phospholipid bilayers. At physiological temperatures, for all composition ratios explored, the lipids are in a gel phase with ordered lipid tails. However, the large asymmetry in the lengths of the two tails of the ceramide molecule leads to a fluid like environment at the bilayer mid-plane. The lateral pressure profiles show large local variations across the bilayer for pure ceramide or any of the two component mixtures. Close to the skin composition ratio, the lateral pressure fluctuations are greatly suppressed, the ceramide tails from the two leaflets interdigitate significantly, the depression in local density at the inter-leaflet region is lowered, and the bilayer have lowered elastic moduli. This indicates that the observed composition ratio in the stratum corneum lipid layer is responsible for both the good barrier properties and the stability of the lipid structure against mechanical stresses., Comment: 14 pages, 17 figures

Published
2009
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17. Dynamical heterogeneity in a glass forming ideal gas

Author

Charbonneau, Patrick, Das, Chinmay, and Frenkel, Daan

Subjects
Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Statistical Mechanics
Abstract

We conduct a numerical study of the dynamical behavior of a system of three-dimensional crosses, particles that consist of three mutually perpendicular line segments rigidly joined at their midpoints. In an earlier study [W. van Ketel et al., Phys. Rev. Lett. 94, 135703 (2005)] we showed that this model has the structural properties of an ideal gas, yet the dynamical properties of a strong glass former. In the present paper we report an extensive study of the dynamical heterogeneities that appear in this system in the regime where glassy behavior sets in. On the one hand, we find that the propensity of a particle to diffuse is determined by the structure of its local environment. The local density around mobile particles is significantly less than the average density, but there is little clustering of mobile particles, and the clusters observed tend to be small. On the other hand, dynamical susceptibility results indicate that a large dynamical length scale develops even at moderate densities. This suggests that propensity and other mobility measures are an incomplete measure of dynamical length scales in this system., Comment: 11 pages, 7 figures

Published
2008
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18. Dynamic scaling in entangled mean-field gelation polymers

Author

Das, Chinmay, Read, Daniel J., Kelmanson, Mark A., and McLeish, Tom C. B.

Subjects
Condensed Matter - Soft Condensed Matter, Condensed Matter - Materials Science
Abstract

We present a simple reaction kinetics model to describe the polymer synthesis used by Lusignan et al. (PRE, 60, 5657, 1999) to produce randomly branched polymers in the vulcanization class. Numerical solution of the rate equations gives probabilities for different connections in the final product, which we use to generate a numerical ensemble of representative molecules. All structural quantities probed by Lusignan et al. are in quantitative agreement with our results for the entire range of molecular weights considered. However, with detailed topological information available in our calculations, our estimate of the `rheologically relevant' linear segment length is smaller than that estimated by them. We use a numerical method based on tube model of polymer melts to calculate the rheological properties of such molecules. Results are in good agreement with experiment, except that in the case of the largest molecular weight samples our estimate of the zero-shear viscosity is significantly lower than the experimental findings. Using acid concentration as an indicator for closeness to the gelation transition, we show that the high-molecular-weight polymers considered are at the limit of mean-field behavior - which possibly is the reason for this disagreement. For a truly mean-field gelation class of model polymers, we numerically calculate the rheological properties for a range of segment lengths. Our calculations show that the tube theory with dynamical dilation predicts that, very close to the gelation limit, contribution to viscosity for this class of polymers is dominated by the contribution from constraint-release Rouse motion and the final viscosity exponent approaches Rouse-like value.

Published
2006
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19. Laser induced reentrant freezing in two-dimensional attractive colloidal systems

Author

Chaudhuri, Pinaki, Das, Chinmay, Dasgupta, Chandan, Krishnamurthy, H. R., and Sood, A. K.

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

The effects of an externally applied one-dimensional periodic potential on the freezing/melting behaviour of two-dimensional systems of colloidal particles with a short-range attractive interaction are studied using Monte Carlo simulations. In such systems, incommensuration results when the periodicity of the external potential does not match the length-scale at which the minimum of the attractive potential occurs. To study the effects of this incommensuration, we consider two different models for the system. Our simulations for both these models show the phenomenon of reentrant freezing as the strength of the periodic potential is varied. Our simulations also show that different exotic phases can form when the strength of the periodic potential is high, depending on the length-scale at which the minimum of the attractive pair-potential occurs., Comment: 24 pages (including figures) in preprint format

Published
2005
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20. Bond-orientational ordering and shear rigidity in modulated colloidal liquids

Author

Das, Chinmay, Sood, A. K., and Krishnamurthy, H. R.

Subjects
Condensed Matter - Soft Condensed Matter, Condensed Matter - Statistical Mechanics
Abstract

From Landau-Alexander-McTague theory and Monte-Carlo simulation results we show that the modulated liquid obtained by subjecting a colloidal system to a periodic laser modulation has long range bond-orientational order and non-zero shear rigidity. From infinite field simulation results we show that in the modulated liquid phase, the translational order parameter correlation function decays to zero exponentially while the correlation function for the bond-orientational order saturates to a finite value at large distances., Comment: 8 pages, elsart documentclass, to be published in Physica A as part of proceedings for Stat-Phys 3, Calcutta

Published
1999
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21. Laser induced freezing of charge stabilized colloidal system

Author

Das, Chinmay, Sood, A. K., and Krishnamurthy, H. R.

Subjects
Condensed Matter - Soft Condensed Matter, Condensed Matter - Statistical Mechanics
Abstract

We present results from an extensive simulational study of the modulated liquid $\longleftrightarrow$ crystal transition in a 2-d charge-stabilized colloid subject to a 1-d laser field modulation commensurate with the crystalline phase. {\em {Contrary to some earlier simulational and experimental findings we do not find any reentrant liquid phase in our simulation. Furthermore the transition remains first-order (albeit weak, with a fairly large correlation length) even in the limit of infinite field, contrary to mean-field predictions}}. In the modulated liquid phase, while the translational order decays exponentially, the bond orientational order is actually long ranged., Comment: 5 pages, 6 figures, revtex style (submitted to Phys. Rev. Lett)

Published
1999

22. Laser induced quasicrystalline order in charge stabilised colloidal systems

Author

Das, Chinmay and Krishnamurthy, H. R.

Subjects
Condensed Matter - Soft Condensed Matter, Condensed Matter - Statistical Mechanics
Abstract

We have studied the ordering of a two dimensional charge stabilised colloidal system in the presence of a stationary one dimensionally modulated laser field formed by the superposition of two modulations with wavevectors $q_0 \tau$ and $q_0/\tau$, where $q_0$ is the wavevector corresponding to the first peak of the direct correlation function of the unperturbed liquid, and $\tau$ is the golden mean. In the framework of the Landau-Alexander-McTague theory we find that a decagonal quasicrystalline phase is stabler than the liquid or the triangular lattice in certain regions of the phase diagram. Our study also shows a reentrant melting phenomena for larger laser field strengths. We find that the transition from the modulated liquid to the quasicrystalline phase is continuous in contrast to a first order transition from the modulated liquid to the triangular crystalline phase., Comment: 4 pages revtex file, 5 eps figures, communicated to PRB(rapid com.)

Published
1998

24. Evolutionary Stages of Envelope Soliton During Laser–Plasma Interaction

Author

Chandra, Swarniv, Das, Chinmay, Batani, Dimitri, Aliverdiev, Abutrab A., Myrzakulov, Ratbay, Majumdar, Ahona, Mallick, Sweta, Ghosal, Ritwik, Panda, Biswasaran, and Sen, Anusree

Abstract

In this work, we have looked into the amplitude modulation and formation of enveloping soliton in a dense plasma with thermal degeneracy pressure expressions as a strong laser beam falls on it. We have focused on the situation where an intense laser interacts with plasma and we have made use of a new topological treatment of problems containing a set of coupled differential equations. At first, we have solved the equations to arrive at the dispersion relation. We have studied phase plots using particle-in-cell (PIC) simulation from where Kelvin–Helmholtz-type instabilities were observed. We have made use of the homotopy perturbation technique to find out more about the evolution of density, electric field, velocity streamlines, and the subsequent amplitude modulation with different types of nonlinearity. We identified the range of plasma and laser parameters in which such nonlinearity is important. The results obtained here will help interpret different phenomena that arise in laser–plasma interaction and plasma astrophysics where shocks solitons, and so on in dense hot plasma can be studied in laboratory scales.

Published
2024
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25. Damping Effects on the Spectrum of Solitary Structures in Cylindrical and Spherical Geometry

Author

Mandi, Laxmikanta, Narayan Ghosh, Uday, Chandra, Swarniv, Das, Chinmay, and Chatterjee, Prasanta

Abstract

The dust-ion collisional effect is investigated for dust ion acoustic waves (DIAWs) in the spherical and cylindrical geometry. Using the reductive perturbation technique (RPT), the evolution equation is derived with an additional damping term. An approximate analytical time-dependent solitary wave solution is obtained for the evolution equation in nonplaner geometry. It is seen that dust ion collisional frequency plays an important role in the existence region of the solitary wave structure in the nonplanar geometry. It is also seen that dust-ion collisional frequency and spectral index $\kappa $ have a significant role in the amplitude and width of the solitary wave. Additionally, we have numerically investigated the parametric influence on the solitonic evolution mechanism which will help understand the process better.

Published
2024
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26. Quinacrine and Curcumin in combination decreased the breast cancer angiogenesis by modulating ABCG2 via VEGF A.

Author

Nayak, Deepika, Paul, Subarno, Das, Chinmay, Bhal, Subhasmita, and Kundu, Chanakya Nath

Abstract

Cancer stem cells (CSCs) cause drug resistance in cancer due to its extensive drug efflux, DNA repair and self-renewal capability. ATP binding cassette subfamily G member 2 (ABCG2) efflux pump afford protection to CSCs in tumors, shielding them from the adverse effects of chemotherapy. Although the role of ABCG2 in cancer progression, invasiveness, recurrence are known but its role in metastasis and angiogenesis are not clear. Here, using in vitro (CSCs enriched side population [SP] cells), ex vivo (patient derived primary cells), in ovo (fertilized egg embryo) and in vivo (patient derived primary tissue mediated xenograft (PDX)) system, we have systematically studied the role of ABCG2 in angiogenesis and the regulation of the process by Curcumin (Cur) and Quinacrine (QC). Cur + QC inhibited the proliferation, invasion, migration and expression of representative markers of metastasis and angiogenesis. Following hypoxia, ABCG2 enriched cells released angiogenic factor vascular endothelial growth factor A (VEGF A) and induced the angiogenesis via PI3K-Akt-eNOS cascade. Cur + QC inhibited the ABCG2 expression and thus reduced the angiogenesis. Interestingly, overexpression of ABCG2 in SP cells and incubation of purified ABCG2 protein in media induced the angiogenesis but knockdown of ABCG2 decreased the vascularization. In agreement with in vitro results, ex vivo data showed similar phenomena. An induction of vascularization was noticed in PDX mice but reduction of vascularization was also observed after treatment of Cur + QC. Thus, data suggested that in hypoxia, ABCG2 enhances the production of angiogenesis factor VEGF A which in turn induced angiogenesis and Cur + QC inhibited the process by inhibiting ABCG2 in breast cancer. [ABSTRACT FROM AUTHOR]

Published
2023
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39. Semi-Lagrangian Method to Study Nonlinear Electrostatic Waves in Quantum Plasma.

Author

Das, Chinmay, Chandra, Swarniv, Sharry, and Chatterjee, Prasanta

Subjects
*PLASMA electrostatic waves, *NONLINEAR waves, *FERMI-Dirac distribution, *LASER plasmas, *PLASMA temperature, *QUANTUM plasmas
Abstract

In this work, we used the semi-Lagrangian method and the Vlasov code to study the instabilities in a quantum plasma with 1-D temperature anisotropy. Taking the Fermi–Dirac type of distribution function (DF) and using the semi-Lagrangian Vlasov code, we studied the gradual evolution of density and kinetic energy in a degenerate plasma with quantum effects. In this collisionless plasma, adiabatic compression will be along the direction of wave propagation and will lead to temperature anisotropy of the electron distribution that varies along the direction of wave propagation. The findings will find application for dense plasma at finite temperature as in laser-produced plasmas, fusion plasma, as well as solar plasmas. [ABSTRACT FROM AUTHOR]

Published
2022
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41. Influence Of Career Competency Development And Satisfaction On A Firm.

Author

Das, Chinmay and Chandrasekaran, S.

Subjects
SATISFACTION, JOB satisfaction, EMPLOYER contributions, CORPORATE culture, CONTINGENT employment, CAREER development, CULTURAL competence
Abstract

The effects of developing employees' career abilities (knowing-why, knowing-how, and knowing-whom) on the employing organisation are examined in this study, as well as the function of career happiness in this relationship. The goal of this paper is to contribute to the growing body of knowledge about the effects of employees' boundaryless careers A two-wave quantitative investigation of graduates of a large public university in Hyderabad is used in this study. The findings imply that individuals contribute to company culture, competences, and connections by investing in the development of their career competencies. These contributions, however, are contingent on employees' perceptions of career satisfaction. Employees that are satisfied in their jobs are more likely to give more to their companies. Research limitations/implications - To replicate the current findings, more longitudinal research is needed, supported by a third wave of data collecting. The study emphasises the relevance of career development for employees in the workplace. This is an empirical assessment of the relationship between the development of employees' career competences and their contributions to their employers, as well as one of the first studies to look at career satisfaction as a moderating variable. [ABSTRACT FROM AUTHOR]

Published
2022

43. Operation, Control and Verification of Seven-Level Quasi-Z-Source-Based T-Type Inverter.

Author

Jammy, Ramesh Rahul, Annamalai, Kirubakaran, and Das, Chinmay Kumar

Subjects
PULSE width modulation
Abstract

In this paper, a novel seven-level Quasi-Z-Source-based T -type inverter (7L qZST 2 I) is proposed. The proposed inverter is an upgrade of Quasi-Z-source (qZs) network and seven-level T -type inverter. The 7L qZST 2 I comprises of three qZs-based impedance networks, two bidirectional switches and an H -bridge inverter. It owns the advantages of reduced switch count, improved output voltage gain, enhanced reliability and better quality of output voltage and current. The performance of the proposed topology is tested for two different pulse width modulation techniques based on shoot-through control. The first technique offers simple control and operated at a fixed shoot-through duty cycle for realizing output voltage level. The second technique facilitates independent control of each qZs network dc-link voltage and they can be operated at different shoot through duty cycle which overcomes the limitation of first technique with better quality in output voltage. The detailed operation of the proposed topology and control schemes have been elaborated for different switching states for each output voltage level generation. Extensive simulation and experimentation are performed for both the switching schemes to verify their performance under steady state and dynamic conditions. Furthermore, a brief comparison is constructed to highlight the merits of the proposed inverter with conventional topologies. [ABSTRACT FROM AUTHOR]

Published
2020
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45. Branch-point motion in architecturally complex polymers: Estimation of hopping parameters from computer simulations and experiments

Author

European Commission, Ministerio de Ciencia e Innovación (España), Eusko Jaurlaritza, Bačová, Petra, Lentzakis, Helen, Read, Daniel J., Moreno Segurado, Ángel J., Vlassopoulos, Dimitris, Das, Chinmay, European Commission, Ministerio de Ciencia e Innovación (España), Eusko Jaurlaritza, Bačová, Petra, Lentzakis, Helen, Read, Daniel J., Moreno Segurado, Ángel J., Vlassopoulos, Dimitris, and Das, Chinmay

Abstract

Relaxation of branched polymers under tube-based models involves a parameter p2 characterizing the hop size of relaxed side arms. Depending on assumptions made in rheological models (e.g., about the relevant tube diameter for branch-point hops), p2 had been set to values varying from 1 to 1/60 in the literature. From large-scale molecular dynamics simulations of melts of entangled branched polymers of different architectures, and from experimental rheological data on a set of well-characterized comb polymers with many (∼30) side arms, we estimate the values of p2 under different assumptions in the hierarchical relaxation scheme. Both the simulations and the experiments show that including the backbone friction and considering hopping in the dilated tube provides the most consistent set of hopping parameters in different architectures. © 2014 American Chemical Society.

Published
2014

48. Linking models of polymerization and dynamics to predict branched polymer structure and flow

Author

University of Leeds - Department of Physics and Astronomy, Read, Daniel J., Auhl, Dietmar, Das, Chinmay, Den Doelder, Jaap, Kapnistos, Michael, Vittorias, Iakovos, McLeish, Tom C. B., University of Leeds - Department of Physics and Astronomy, Read, Daniel J., Auhl, Dietmar, Das, Chinmay, Den Doelder, Jaap, Kapnistos, Michael, Vittorias, Iakovos, and McLeish, Tom C. B.

Abstract

We present a predictive scheme connecting the topological structure of highly branched entangled polymers, with industrial-level complexity, to the emergent viscoelasticity of the polymer melt. The scheme is able to calculate the linear and nonlinear viscoelasticity of a stochastically branched "high-pressure free radical" polymer melt as a function of the chemical kinetics of its formation. The method combines numerical simulation of polymerization with the tube/entanglement physics of polymer dynamics extended to fully nonlinear response. We compare calculations for a series of low-density polyethylenes with experiments on structural and viscoelastic properties. The method provides a window onto the molecular processes responsible for the optimized rheology of these melts, connecting fundamental science to process in complex flow, and opens up the in silico design of new materials.

Published
2011

49. Readers report.

Author

Gibbons, Robert, Eysenbach, John P., Williams, F. Dennis, Elsbree, John F., Mullen Jr., Thomas J., Biedenkopf, Cynthia H., Francis, Warren T., Kumar, P., Poza, Ernesto J., Hennigar, Ross A., Das, Chinmay, Rosen, Michael W., Pek, Ing Tien, and Thomas, Rex E.

Subjects
LETTERS to the editor, ENERGY policy, PRICE inflation, BOND market, CAPITAL market
Abstract

Several letters to the editor are presented in response to articles in previous issues including "The watering down of energy proposals," which appeared in the February 25, 1980 issue "Shock treatment for inflation," which appeared in the Mar 3, 1980 issue and "The bond market flips its lid," which appeared in the February 18, 1980.

Published
1980

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