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165 results on '"Banerjee, Tirthankar"'

1. Hydrodynamics of pulsating active liquids

Author

Banerjee, Tirthankar, Desaleux, Thibault, Ranft, Jonas, and Fodor, Étienne

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

Inspired by dense contractile tissues, where cells are subject to periodic deformation, we formulate and study a generic hydrodynamic theory of pulsating active liquids. Combining mechanical and phenomenological arguments, we postulate that the mechanochemical feedback between the local phase, which describes how cells deform due to autonomous driving, and the local density can be described in terms of a free energy. We argue that such a feedback is consistent with the coarse-graining of a broad class of microscopic models. Our hydrodynamics captures the three main states emerging in its particle-based counterparts: a globally cycling state, a homogeneous arrested state with constant phase, and a state with propagating radial waves. Remarkably, we show that the competition between these states can be rationalized intuitively in terms of an effective landscape, and argue that waves can be regarded as secondary instabilities. Linear stability analysis of the arrested and cycling states, including the role of fluctuations, leads to predictions for the phase boundaries. Overall, our results demonstrate that our minimal, yet non-trivial model provides a relevant platform to study the rich phenomenology of pulsating liquids., Comment: 18 pages, 7 figures

Published
2024

2. Role of initial conditions in $1D$ diffusive systems: compressibility, hyperuniformity and long-term memory

Author

Banerjee, Tirthankar, Jack, Robert L., and Cates, Michael E.

Subjects
Condensed Matter - Statistical Mechanics
Abstract

We analyse the long-lasting effects of initial conditions on fluctuations in one-dimensional diffusive systems. We consider both the fluctuations of current for non-interacting diffusive particles starting from a step-like initial density profile, and the mean-square displacement of tracers in homogeneous systems with single-file diffusion. For these two cases, we show analytically (via the propagator and Macroscopic Fluctuation Theory, respectively) that the long-term memory of initial conditions is mediated by a single static quantity: a generalized compressibility that quantifies the density fluctuations of the initial state. We thereby identify a universality class of hyperuniform initial states whose dynamical variances coincide with the `quenched' cases studied previously; we also describe a continuous family of other classes among which equilibrated (or `annealed') initial conditions are but one family member. We verify our predictions through extensive Monte Carlo simulations., Comment: accepted in Physical Review E (Letter)

Published
2022
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4. Tracer dynamics in one dimensional gases of active or passive particles

Author

Banerjee, Tirthankar, Jack, Robert L., and Cates, Michael E.

Subjects
Condensed Matter - Statistical Mechanics
Abstract

We consider one-dimensional systems comprising either active run-and-tumble particles (RTPs) or passive Brownian random walkers. These particles are either noninteracting or have hardcore exclusions. We study the dynamics of a single tracer particle embedded in such a system - this tracer may be either active or passive, with hardcore exclusion from environmental particles. In an active hardcore environment, both active and passive tracers show long-time subdiffusion: displacements scale as $t^{1/4}$ with a density-dependent prefactor that is independent of tracer type, and differs from the corresponding result for passive-in-passive subdiffusion. In an environment of noninteracting active particles, the passive-in-passive results are recovered at low densities for both active and passive tracers, but transient caging effects slow the tracer motion at higher densities, delaying the onset of any $t^{1/4}$ regime. For an active tracer in a passive environment, we find more complex outcomes, which depend on details of the dynamical discretization scheme. We interpret these results by studying the density distribution of environmental particles around the tracer. In particular, sticking of environment particles to the tracer cause it to move more slowly in noninteracting than in interacting active environments, while the anomalous behaviour of the active-in-passive cases stems from a `snowplough' effect whereby a large pile of diffusive environmental particles accumulates in front of a RTP tracer during a ballistic run., Comment: 32 pages, 26 figures

Published
2021
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8. Active gating: rocking diffusion channels

Author

Banerjee, Tirthankar and Maes, Christian

Subjects
Condensed Matter - Statistical Mechanics
Abstract

When the contacts of an open system flip between different reservoirs, the resulting nonequilibrium shows increased dynamical activity. We investigate such active gating for one-dimensional symmetric (SEP) and asymmetric (ASEP) exclusion models where the left/right boundary rates for entrance and exit of particles are exchanged at random times. Such rocking makes SEP spatially symmetric and on average there is no boundary driving; yet the entropy production increases in the rocking rate. For ASEP a non-monotone density profile can be obtained with particles clustering at the edges. In the totally asymmetric case, there is a bulk transition to a maximal current phase as the rocking exceeds a finite threshold, depending on the boundary rates. We study the resulting density profiles and current as functions of the rocking rate., Comment: 21 pages, 13 figures

Published
2020
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9. Current fluctuations in non-interacting run-and-tumble particles in one-dimension

Author

Banerjee, Tirthankar, Majumdar, Satya N., Rosso, Alberto, and Schehr, Gregory

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

We present a general framework to study the distribution of the flux through the origin up to time $t$, in a non-interacting one-dimensional system of particles with a step initial condition with a fixed density $\rho$ of particles to the left of the origin. We focus principally on two cases: (i) when the particles undergo diffusive dynamics (passive case) and (ii) run-and-tumble dynamics for each particle (active case). In analogy with disordered systems, we consider the flux distribution both for the annealed and the quenched initial conditions, for the passive and active particles. In the annealed case, we show that, for arbitrary particle dynamics, the flux distribution is a Poissonian with a mean $\mu(t)$ that we compute exactly in terms of the Green's function of the single particle dynamics. For the quenched case, we show that, for the run-and-tumble dynamics, the quenched flux distribution takes an anomalous large deviation form at large times $P_{\rm qu}(Q,t) \sim \exp\left[-\rho\, v_0\, \gamma \, t^2 \psi_{\rm RTP}\left(\frac{Q}{\rho v_0\,t} \right) \right]$, where $\gamma$ is the rate of tumbling and $v_0$ is the ballistic speed between two successive tumblings. In this paper, we compute the rate function $\psi_{\rm RTP}(q)$ and show that it is nontrivial. Our method also gives access to the probability of the rare event that, at time $t$, there is no particle to the right of the origin. For diffusive and run-and-tumble dynamics, we find that this probability decays with time as a stretched exponential, $\sim \exp(-c\, \sqrt{t})$ where the constant $c$ can be computed exactly. We verify our results for these large deviations by using an importance sampling Monte-Carlo method., Comment: 22 pages, 9 figures. To appear in Physical Review E

Published
2020
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11. Active velocity processes with suprathermal stationary distributions and long-time tails

Author

Banerjee, Tirthankar, Basu, Urna, and Maes, Christian

Subjects
Condensed Matter - Statistical Mechanics
Abstract

When a particle moves through a spatially-random force field, its momentum may change at a rate which grows with its speed. Suppose moreover that a thermal bath provides friction which gets weaker for large speeds, enabling high-energy localization. The result is a unifying framework for the emergence of heavy tails in the velocity distribution, relevant for understanding the power-law decay in the electron velocity distribution of space plasma or more generally for explaining non-Maxwellian behavior of driven gases. We also find long-time tails in the velocity autocorrelation, indicating persistence at large speeds for a wide range of parameters and implying superdiffusion of the position variable., Comment: 20 pages, 7 figures

Published
2019
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15. Statistical mechanics of asymmetric tethered membranes: spiral and crumpled phases

Author

Banerjee, Tirthankar, Sarkar, Niladri, Toner, John, and Basu, Abhik

Subjects
Condensed Matter - Statistical Mechanics
Abstract

We develop the elastic theory for inversion-asymmetric tethered membranes and use it to identify and study their possible phases. Asymmetry in a tethered membrane causes spontaneous curvature, which in general depends upon the local in-plane dilation of the tethered network. This in turn leads to long-ranged interactions between the local mean and Gaussian curvatures, which is not present in symmetric tethered membranes. This interplay between asymmetry and Gaussian curvature leads to a new {\em double-spiral} phase not found in symmetric tethered membranes. At temperature $T=0$, tethered membranes of arbitrarily large size are always rolled up tightly into a conjoined pair of Archimedes' spirals. At finite $T$ this spiral structure swells up significantly into algebraic spirals characterized by universal exponents which we calculate. These spirals have long range orientational order, and are the asymmetric analogs of statistically flat symmetric tethered membranes. We also find that sufficiently strong asymmetry can trigger a structural instability leading to crumpling of these membranes as well. This provides a new route to crumpling for asymmetric tethered membranes. We calculate the maximum linear extent $L_c$ beyond which the membrane crumples, and calculate the universal dependence of $L_c$ on the membrane parameters. By tuning the asymmetry parameter, $L_c$ can be continuously varied, implying a {\em scale-dependent} crumpling. Our theory can be tested on controlled experiments on lipids with artificial deposits of spectrin filaments, in-vitro experiments on %\sout{artificial deposition of spectrin filaments on} red blood cell membrane extracts, %\sout{after %depletion of adenosine-tri-phosphate molecules} and on graphene coated on one side., Comment: 28 pages, 12 captioned figures. This is an accompanying longer version of our already submitted work, arXiv:1811.12440, containing all the technical details required for a thorough reading of arXiv:1811.12440

Published
2019
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17. Rolled up or crumpled: phases of asymmetric tethered membranes

Author

Banerjee, Tirthankar, Sarkar, Niladri, Toner, John, and Basu, Abhik

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

We show that inversion-asymmetric tethered membranes exhibit a new double-spiral phase with long range orientational order not present in symmetric membranes. We calculate the universal algebraic spiral shapes of these membranes in this phase. Asymmetry can trigger the crumpling of these membranes as well. In-vitro experiments on lipid, red blood cell membrane extracts, and on graphene coated on one side, could test these predictions., Comment: Significant modification on arXiv:1610.01992 and new results added

Published
2018
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18. Smooth or shock: universality in closed inhomogeneous driven single file motions

Author

Banerjee, Tirthankar and Basu, Abhik

Subjects
Condensed Matter - Statistical Mechanics
Abstract

We study the nonequilibrum steady states in a unidirectional {or driven} single file motion (DSFM) of a collection of particles with hard-core repulsion in a closed system. For driven propulsion that is {spatially} smoothly varying with a few discontinuities, we show that the steady states are broadly classified into two classes, independent of any system detail: (i) when the steady state current depends explicitly on the {conserved} number density $n$, and (ii) when it is independent of $n$. This manifests itself in the universal topology of the phase diagrams {and fundamental diagrams (i.e., the current versus density curves) } for DSFM, which are determined solely by the interplay between {two control parameters} $n$ and the minimum propulsion speed along the chain. Our theory can be tested in laboratory experiments on driven particles in a closed geometry., Comment: 21 pages, 11 figures

Published
2018
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19. Perspectives on scaling and multiscaling in passive scalar turbulence

Author

Banerjee, Tirthankar and Basu, Abhik

Subjects
Condensed Matter - Statistical Mechanics
Abstract

We revisit the well-known problem of multiscaling in substances passively advected by homogeneous and isotropic turbulent flows or passive scalar turbulence. To that end we propose a two-parameter continuum hydrodynamic model for an advected substance concentration $\theta$, parametrised jointly by $y$ and $\overline y$, that characterise the spatial scaling behaviour of the variances of the advecting stochastic velocity and the stochastic additive driving force, respectively. We analyse it within a one-loop dynamic renormalisation group method to calculate the multiscaling exponents of the equal-time structure functions of $\theta$. We show how the interplay between the advective velocity and the additive force may lead to simple scaling or multiscaling. In one limit, our results reduce to the well-known results from the Kraichnan model for passive scalar. Our framework of analysis should be of help for analytical approaches for the still intractable problem of fluid turbulence itself., Comment: Modified version, accepted in Physical Review E

Published
2018
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21. Symmetries and scaling in generalised coupled conserved Kardar-Parisi-Zhang equations

Author

Banerjee, Tirthankar and Basu, Abhik

Subjects
Condensed Matter - Statistical Mechanics
Abstract

We study the noisy nonequilibrium dynamics of a conserved density that is driven by a fluctuating surface governed by the conserved Kardar-Parisi-Zhang equation. We uncover the universal scaling properties of the conserved density. We consider two separate minimal models where the surface fluctuations couple (i) with the spatial variation of the conserved density, and (ii) directly with the magnitude of the conserved density. Both these two models conserve the density, but differ from symmetry stand point. We use our result to highlight the dependence of nonequilibrium universality classes on the interplay between symmetries and conservation laws., Comment: accepted in JSTAT. Mech : Theory and Experiments (2017)

Published
2017
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23. Tethered membranes do not remain flat for strong structural asymmetry

Author

Banerjee, Tirthankar, Sarkar, Niladri, and Basu, Abhik

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

We set up the statistical mechanics for a nearly flat, thermally equilibrated fluid membrane, attached to an elastic network through one of its sides. We predict that the resulting structural (inversion) asymmetry of the membrane, notably due to the elastic network attached to one of its sides, can generate a local spontaneous curvature $C_0$, that may in turn destabilize the otherwise flat membrane. As $C_0$ rises above a threshold at a fixed temperature, a flat tethered membrane in the thermodynamic limit becomes structurally unstable, signaling {\em crumpling} of the flat membrane. In-vitro experiments on red blood cell membranes after depletion of adenosine-tri-phosphate molecules and artificial deposition of spectrin filaments on lipid bilayers may be used to verify our results., Comment: 14 pages, 9 figures

Published
2016

24. Nonequilibrium steady states in a closed inhomogeneous asymmetric exclusion process with particle nonconservation

Author

Daga, Bijoy, Mondal, Souvik, Chandra, Anjan Kumar, Banerjee, Tirthankar, and Basu, Abhik

Subjects
Condensed Matter - Statistical Mechanics
Abstract

We study asymmetric exclusion processes (TASEP) on a nonuniform one-dimensional ring consisting of two segments having unequal hopping rates, or {\em defects}. We allow weak particle nonconservation via Langmuir kinetics (LK), that are parameterised by generic unequal attachment and detachment rates. For an extended defect, in the thermodynamic limit the system generically displays inhomogeneous density profiles in the steady state - the faster segment is either in a phase with spatially varying density having no density discontinuity, or a phase with a discontinuous density changes. Nonequilibrium phase transitions between them are controlled by the inhomogeneity and LK. The slower segment displays only macroscopically uniform bulk density profiles in the steady states, reminiscent of the maximal current phase of TASEP but with a bulk density generally different from half. With a point defect, there are low and high density spatially uniform phases as well, in addition to the inhomogeneous density profiles observed for an extended defect. In all the cases, it is argued that the the mean particle density in the steady state is controlled only by the ratio of the LK attachment and detachment rates., Comment: 10 pages, 14 figures

Published
2016
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25. Active hydrodynamics of synchronization and ordering in moving oscillators

Author

Banerjee, Tirthankar and Basu, Abhik

Subjects
Condensed Matter - Statistical Mechanics
Abstract

The nature of emergent collective behaviors of moving physical agents interacting with their neighborhood is a long-standing open issue in physical and biological systems alike. This calls for studies on the control of synchronization and the degree of order in a collection of diffusively moving noisy oscillators. We address this by constructing a generic hydrodynamic theory for active phase fluctuations in a collection of large number of nearly phase-coherent moving oscillators in two dimensions. Our theory describes the general situation where phase fluctuations and oscillator mobility mutually affect each other. We show that the interplay between the active effects and the mobility of the oscillators leads to a variety of phenomena, ranging from synchronization with long range, nearly long range and quasi long range orders to instabilities and desynchronization with short range order of the oscillator phases. We highlight the complex dependences of synchronization on the active effects. These should be testable in wide ranging systems, e.g., oscillating chemical reactions in the presence of different reaction inhibitors/facilitators, live oriented cytoskeletal extracts, or vertebrate segmentation clocks.

Published
2016
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26. Active processes make mixed lipid membranes either flat or crumpled

Author

Banerjee, Tirthankar and Basu, Abhik

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

Whether live cell membranes show miscibility phase transitions (MPTs), and if so, how they fluctuate near the transitions remain outstanding unresolved issues in physics and biology alike. Motivated by these questions we construct a generic hydrodynamic theory for lipid membranes {{that are active, due for instance, to the molecular motors in the surrounding cytoskeleton, or active protein components in the membrane itself}}. We use this to uncover a direct correspondence between membrane fluctuations and MPTs. Several testable predictions are made: (i) generic {\em active stiffening} with orientational long range order (flat membrane) or {\em softening} with crumpling of the membrane, controlled by the {\em active tension} and (ii) for mixed lipid membranes, capturing the nature of putative MPTs by measuring the membrane conformation fluctuations. Possibilities of both first and second order MPTs in mixed active membranes are argued for. Near second order MPTs, active stiffening (softening) manifests as a {\em super-stiff (super-soft) membrane}. Our predictions are testable in a variety of {\em in-vitro} systems, e.g., live cytoskeletal extracts deposited on liposomes and lipid membranes containing active proteins embedded in a passive fluid., Comment: accepted in New Journal of Physics (2017)

Published
2015

28. Phase transitions and order in two-dimensional generalized nonlinear $\sigma$-models

Author

Banerjee, Tirthankar, Sarkar, Niladri, and Basu, Abhik

Subjects
Condensed Matter - Statistical Mechanics
Abstract

We study phase transitions and the nature of order in a class of classical generalized $O(N)$ nonlinear $\sigma$-models (NLS) constructed by minimally coupling pure NLS with additional degrees of freedom in the form of (i) Ising ferromagnetic spins, (ii) an advective Stokesian velocity and (iii) multiplicative noises. In examples (i) and (ii), and also (iii) with the associated multiplicative noise being not sufficiently long-ranged, we show that the models may display a class of unusual phase transitions between {\em stiff} and {\em soft phases}, where the effective spin stiffness, respectively, diverges and vanishes in the long wavelength limit at two dimensions ($2d$), unlike in pure NLS. In the stiff phase, in the thermodynamic limit the variance of the transverse spin (or, the Goldstone mode) fluctuations are found to scale with the system size $L$ in $2d$ as $\ln\ln L$ with a model-dependent amplitude, that is markedly weaker than the well-known $\ln L$-dependence of the variance of the broken symmetry modes in models that display quasi-long range order in $2d$. Equivalently, for $N=2$ at $2d$ the equal-time spin-spin correlations decay in powers of inverse logarithm of the spatial separation with model-dependent exponents. These transitions are controlled by the model parameters those couple the $O(N)$ spins with the additional variables. In the presence of long-range noises in example (iii), true long-range order may set in $2d$, depending upon the specific details of the underlying dynamics. Our results should be useful in understanding phase transitions in equilibrium and nonequilibrium low-dimensional systems with continuous symmetries in general., Comment: 20 pages, 13 figures, accepted for publication in Physical Review E

Published
2015
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29. Phase coexistences and particle non-conservation in a closed asymmetric exclusion process with inhomogeneities

Author

Banerjee, Tirthankar, Chandra, Anjan Kumar, and Basu, Abhik

Subjects
Condensed Matter - Statistical Mechanics
Abstract

We construct a one-dimensional totally asymmetric simple exclusion process (TASEP) on a ring with two segments having unequal hopping rates, coupled to particle non-conserving Langmuir kinetics (LK) characterized by equal attachment and detachment rates. In the steady state, in the limit of competing LK and TASEP, the model is always found in states of phase coexistence. We uncover a nonequilibrium phase transition between a three-phase and a two-phase coexistence in the faster segment, controlled by the underlying inhomogeneity configurations and LK. The model is always found to be half-filled on average in the steady state, regardless of the hopping rates and the attachment/detachment rate., Comment: 10 pages, 12 figures, accepted in Physical Review E (2015)

Published
2015
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30. Thermal fluctuations and stiffening of heterogeneous fluid membranes

Author

Banerjee, Tirthankar and Basu, Abhik

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

We study the effects of thermal fluctuations on symmetric tensionless heterogeneous (two-component) fluid membranes in a simple minimal model. Close to the critical point $T_c$ of the associated miscibility phase transition of the composition and for sufficiently strong curvature-composition interactions, mediated through a composition-dependent bending modulus, thermal fluctuations lead to enhancement of the effective bending modulus. Thus, the membrane conformation fluctuations will be {\em suppressed} near $T_c$, in comparison with a pure fluid membrane, for which thermal fluctuations are known to reduce the effective bending modulus at all non-zero temperatures., Comment: 8 pages, 5 figures, accepted in Physical Review E

Published
2014
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31. Lippia alba--a potential bioresource for the management of Spodoptera frugiperda (Lepidoptera: Noctuidae).

Author

Biswas, Shreosi, Kundu, Aditi, Suby, S. B., Kushwah, Abran Singh, Patanjali, Neeraj, Shasany, Ajit Kumar, Verma, Rajesh, Saha, Supradip, Mandal, Abhishek, Banerjee, Tirthankar, Kumar, Anil, and Singh, Anupama

Subjects
FALL armyworm, RYANODINE receptors, SPODOPTERA, NOCTUIDAE, LIPPIA (Genus)
Abstract

Fall armyworm (FAW), Spodoptera frugiperda (J.E. Smith), a threat to maize production systems, is a polyphagous pest of global significance. There is no registered bioinsecticide of botanical origin to provide green remedy against this pest of concern. The present study reports for the first time the potency of the polar and non-polar bioinsecticidal leads sourced from Lippia alba (Mill.) N.E. Br. leaves. Shade-dried leaves of L. alba were extracted and evaluated; based on preliminary bioassay, the ethyl acetate leaf extract of L. alba (LEAE) was found to be the most potent against FAW in the in vitro and in vivo studies. Ultraperformance liquid chromatography-quadrupole time-of-flight-mass spectrometric (UPLCQToF-MS) analysis of LEAE revealed the rich chemical profile of 28 compounds, dominated by flavones, namely, naringenin, trihydroxy-dimethoxy flavone, and dihydroxy-trimethoxy flavone. Among others, glycosides, such as clerodendrin, calceolarioside E, forsythoside B, geniposide, and martynoside, and glucuronides, such as luteolin-7-diglucuronide, tricin-7-O-glucuronide, and luteolin-7-Oglucuronide, were also identified. LEAE exhibited exceptionally high in vitro [LC50 = 6,900 parts per million (ppm)] and in vivo (computed as damage score on a scale of 1-9) insecticidal activity against S. frugiperda, with no phytotoxicity at a dose as high as 20 times of LC50. LEAE also exhibited significant antifeedant, ovicidal, and growth regulatory activity at the 70-16,000 ppm (w/v) concentration range. In silico assessment revealed strong binding of martynoside, calceolarioside E, and forsythoside B with acetylcholinesterase-, sodium-, and chloride-dependent gaminobutyric acid (GABA) receptor and ryanodine receptor, respectively, facilitated by hydrogen bonds (conventional and C-H bonds) stabilized by hydrophobic pi-sigma, pi-pi stacked, pi-alkyl, and alkyl interactions. The present study established L. alba as a potential bioresource and secondary metabolite enriched LEAE as bioinsecticide for further product development. [ABSTRACT FROM AUTHOR]

Published
2024
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32. Generic nonequilibrium steady states in an exclusion process on an inhomogeneous ring

Author

Banerjee, Tirthankar, Sarkar, Niladri, and Basu, Abhik

Subjects
Condensed Matter - Statistical Mechanics
Abstract

We consider a one-dimensional totally asymmetric exclusion process on a ring with extended inhomogeneities, consisting of several segments with different hopping rates. Depending upon the underlying inhomogeneity configurations and for moderate densities, our model displays both localised (LDW) and delocalised (DDW) domain walls and delocalisation transitions of LDWs in the steady states. Our results allow us to construct the possible steady state density profiles for an arbitrary number of segments with unequal hopping rates. We explore the scaling properties of the fluctuations of LDWs and DDWs.

Published
2014
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33. Ambient air pollution and daily mortality in ten cities of India: a causal modelling study

Author

de Bont, Jeroen, Krishna, Bhargav, Stafoggia, Massimo, Banerjee, Tirthankar, Dholakia, Hem, Garg, Amit, Ingole, Vijendra, Jaganathan, Suganthi, Kloog, Itai, Lane, Kevin, Mall, Rajesh Kumar, Mandal, Siddhartha, Nori-Sarma, Amruta, Prabhakaran, Dorairaj, Rajiva, Ajit, Tiwari, Abhiyant Suresh, Wei, Yaguang, Wellenius, Gregory A, Schwartz, Joel, Prabhakaran, Poornima, and Ljungman, Petter

Abstract

The evidence for acute effects of air pollution on mortality in India is scarce, despite the extreme concentrations of air pollution observed. This is the first multi-city study in India that examines the association between short-term exposure to PM2·5and daily mortality using causal methods that highlight the importance of locally generated air pollution.

Published
2024
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38. Variations in particulate matter over Indo-Gangetic Plains and Indo-Himalayan Range during four field campaigns in winter monsoon and summer monsoon: Role of pollution pathways

Author

Sen, A., Abdelmaksoud, A.S., Nazeer Ahammed, Y., Alghamdi, Mansour ِA., Banerjee, Tirthankar, Bhat, Mudasir Ahmad, Chatterjee, A., Choudhuri, Anil K., Das, Trupti, Dhir, Amit, Dhyani, Pitamber Prasad, Gadi, Ranu, Ghosh, Sanjay, Kumar, Kireet, Khan, A.H., Khoder, M., Maharaj Kumari, K., Kuniyal, Jagdish Chandra, Kumar, Manish, Lakhani, Anita, Mahapatra, Parth Sarathi, Naja, Manish, Pal, Dharam, Pal, S., Rafiq, Mohammd, Romshoo, Shakil Ahmad, Rashid, Irfan, Saikia, Prasenjit, Shenoy, D.M., Sridhar, Vijay, Verma, Nidhi, Vyas, B.M., Saxena, Mohit, Sharma, A., Sharma, S.K., and Mandal, T.K.

Published
2017
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50. Aerosol characteristics from earth observation systems : A comprehensive investigation over South Asia (2000?2019)

Author

Mhawish, Alaa, Sorek-Hamer, Meytar, Chatfield, Robert, Banerjee, Tirthankar, Bilal, Muhammad, Kumar, Manish, Sarangi, Chandan, Franklin, Meredith, Chau, Khang, Garay, Michael, Kalashnikova, Olga, Mhawish, Alaa, Sorek-Hamer, Meytar, Chatfield, Robert, Banerjee, Tirthankar, Bilal, Muhammad, Kumar, Manish, Sarangi, Chandan, Franklin, Meredith, Chau, Khang, Garay, Michael, and Kalashnikova, Olga

Abstract

The present study summarizes two decades (2000–2019) of climatology and trends in aerosol loading and optical properties using a high spatial resolution data obtained from NASA's MODIS MAIAC and MISR aerosol products supplemented by moderate resolution aerosol data from OMI sensor over South Asia (SA). MISR AOD showed good agreement against AERONET AOD with 68.68% of the retrievals falling within the expected error and high Pearson's correlation coefficient (R = 0.83). The 20 years geometric mean of MAIAC and MISR AOD revealed higher loading of aerosols over the Indo-Gangetic Plain (IGP) and Eastern coast of India by 30% to 44% compared to the mean AOD over the entire SA. The highest mean AOD under cloud-free conditions was noted during monsoon season, followed by pre-monsoon, post-monsoon, and winter. The high contribution of coarse-mode AOD (cAOD) mainly from natural aerosol emission and small-mode AOD (sAOD) from local anthropogenic emissions are the main driver to high AOD in monsoon and pre-monsoon seasons. Besides, the presence of high humidity during the monsoon season favors the hygroscopic growth of the particles and leads to higher AOD values over SA. The high spatial resolutions of MODIS/MAIAC and MISR aerosol products enabled the identification of previously unobserved aerosol hotspots over Bihar, West Bengal, and the eastern Indian coastal state of Odisha, which is mainly dominated by small aerosol particles. The contributions of smaller aerosol particles to the total aerosol loading were found to be higher during post-monsoon and winter over most states in India, Nepal, and Bangladesh. In contrast, the contribution of coarser particles was higher over Pakistan during pre-monsoon and monsoon seasons. Smaller particles were predominantly retrieved over the Indian states dominated by mining industries, including Jharkhand and Odisha. A typical dominance of absorbing carbonaceous aerosols was also noted over the northwestern region of IGP during post-monso

Published
2021
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