Publications

LIST OF PUBLICATIONS:

M.P.Singh, K.Khetrapal and Maithili Sharan, A theoretical model for studying the rate of oxygenation of blood in pulmonary capillaries. J. Math. Biol. 9, 305-330 (1980).
S.B.Verma and Maithili Sharan, Multiple-precision floating point computation in FORTRAN. Software Practice and Experience. 10 163-173 (1980).
Yves Malpiece, Maithili Sharan, J.N.Barbotin, P.Personne and D.Thomas, Theoretical and experimental study of an immobilized bienzyme system. Computer calculations and electron microscopy visualisation of local concentration profiles. J.Biol.Chem., 255,6883-6890 (1980).
Yves Malpiece, Maithili Sharan, J.N.Barbotin, P.Perssone and D.Thomas, A histochemical model dealing with an immobilized glucose oxidase-peroxidase system. The influence of diffusion limitations on histochemical results. J.Histochem.Cytochem. 28, 961-968 (1980).
Maithili Sharan and M.P.Singh, Blood oxygenation in pulmonary capillaries - a review. Medical and Life Sciences Eng. 7, 83-98 (1981).
Khetrapal, M.P.Singh and Maithili Sharan, Applied aspects of theoretical analysis of pulmonary gas exchange. Ind. J. Physio.Pharm. 25, 131-143 (1981).
Y.Malpiece, Maithili Sharan, J.N.Barbotin, P.Personne, and D.Thomas, Kinetic,computer and electron microscopic studies dealing with an artificial enzyme membrane - Theoretical and experimental evaluation of the cytochemical demonstration of acetyle cholinesterase. J.Histochem. Cytochem. 29, 633-643 (1981).
M.P.Singh, Maithili Sharan and S.B.Verma, Transport of gases in pulmonary capillaries - a computation of equilibruim constants arising in the oxygen dissociation curve. J.Biomed.Eng.4, 279-284 (1982).
J.P.Kernevez, G.Jolly and Maithili Sharan, Control and optimization of systems with multiple steady states. Computing Methods in Applied Sciences and Engineering.V, 635-649 (1982).
S.Pulvin, Maithili Sharan and D.Thomas, Enzyme gas chromatography: theoretical and experimental results. Analytical Biochemistry, 124, 258-263 (1982).
G.Jolly, J.P.Kernevez and Maithili Sharan, Continuation of Galerkin approximation for reaction diffusion problems. Acta Applicandae Mathematical 1, 263-279 (1983).
Maithili Sharan and M.P.Singh, Equivalence between one step kinetics and Hill's equation. J.Biomed.Eng.6, 297-301 (1984).
Maithili Sharan and M.P.Singh, Numerical simulation of pulmonary O₂ and CO₂ exchange. Int. J. Biomedical Computing 16, 59-80 (1985).
A.Aminataei, Maithili Sharan and M.P.Singh, A numerical solution for the nonlinear convective facilitated diffusion reaction problem for the process of blood oxygenation in the lungs. J.Nat.Acad.Math.3, 182-197 (1985).
Maithili Sharan and M.P.Singh, Physio mathematical aspects of blood oxygenation in pulmonary capillaries. Ind. J. Pure and Applied Maths.17, 541-552 (1986).
Maithili Sharan, M.P.Singh and A.Aminataei, Numerical model for the blood oxygenation in the pulmonary capillaries - effect of pumonary membrane resistance. BioSystems, 20, 355-364 (1987).
Maithili Sharan, A.Aminataei and M.P.Singh, The Process of gas exchange in the pulmonary circulation incorporating the contribution of axial diffusion. Int. J. Biomed. Computing, 20, 191-209 (1987).
A.Aminataei, Maithili Sharan and M.P.Singh, A numerical model for the process of gas exchange in the pulmonary apillaries. Ind J. Pure & Appl. Maths 18, 1040-1060 (1987).
Maithili Sharan, A.Aminataei and M.P.Singh, A numerical study of the nonsteady transport of gases in the pulmonary capillaries. J.Math.Biol.25, 433-452 (1987).
Maithili Sharan, M.P.Singh and Balbir Singh, A mathematical model for the process of gas exchange in lung capillaries using nth order one-step kinetics of oxygen uptake by haemoglobin. Aust. J. Math. Soc.Series B.30, 203-213 (1988).
A.Aminataei, Maithili Sharan and M.P.Singh, Two layer model for the process of blood oxygenation in the pulmonary capillaries - parabolic profiles in the core as well as in the plasma layer. Applied Mathematical Modelling 12, 601-609 (1988).
Maithili Sharan and A.S.Popel, A mathematical model of countercurrent exchange of oxygen between paired arterioles and venules. Math.Biosci 91, 17-34 (1988).
M.P.Singh, Maithili Sharan and Indu Sud, The process of gas exchange in the systemic circulation in hyperbaric environment - an analytical approach. IMA J.of Mathematics Applied to Medicine and Biology 5, 281-301 (1988).
Maithili Sharan, M.D.Jones, R.C.Koehler, R.J.Traystman and A.S.Popel. A compartmental model for oxygen transport in brain microcirculation, Ann. Biomed. Eng.17, 13-38 (1989).
M.P.Singh, Maithili Sharan and A.Aminataei, Development of mathematical formulae for oxygen and carbon dioxide dissociation curves in the blood. IMA J. Mathematics Applied to Medicine & Biology 6, 25-46 (1989).
Maithili Sharan, M.P.Singh and A.Aminataei, A mathematical formulation for the computation of oxygen dissociation curve in the human blood. BioSystems 22, 249-260 (1989).
Maithili Sharan and A.S.Popel, An algorithm for computing the oxygen dissociation curve with pH, PCO₂ and CO in sheep blood. J.Biomed.Engg.11, 48 5-2(1989).
Maithili Sharan, M.P.Singh, R.K.Saxena and Indu Sud, Numerical simulation of systemic O₂ and CO₂ exchange in hyperbaric enviroment. BioSystems, 23, 21-30 (1989).
Maithili Sharan, S.Selvakumar and M.P.Singh, A mathematical model for the computation of alveolar partial pressure of carbon monoxide, Int. J. Biomed. Computing, 26, 135-147 (1990).
Maithili Sharan, M.P.Singh and A.Aminataei, A numerical model for studying the effect of cell depleted layer on blood oxygenation in the pulmonary capillaries. Trans of ASME J. of Biomechanical Eng.112, 457-463 (1990).
Maithili Sharan and Balbir Singh, A numerical model for the gas exchange in lung capillaries - effect of nth order one step kinetics of oxygen with haemoglobin, BioSystems 24, 209-214 (1990).
Maithili Sharan, M.P.Singh and Indu Sud, Mathematical modelling of oxygen transport in the systemic circulation in hyperbaric environment. Frontiers Med. Biol.Eng, 3, 27-44 (1991).
M.P.Singh, Maithili Sharan and S.Selvakumar, A mathematical model for the computation of carboxyhaemoglobin in human blood as a function of exposure time. Phil. Trans. of Royal Soc (London) series B, 334, 135-147 (1991).
Maithili Sharan, M.P.Singh and Balbir Singh, A mathematical model for the rate of oxygenation of blood in pulmonary capillaries using nth order one step kinetics of oxygen uptake by haemoglobin. IMA J Mathematics Applied to Medicine & Biology 8, 125-140 (1991).
Maithili Sharan, Balbir Singh, M.P.Singh and P.Kumar, Finite element analysis of oxygen transport in the systemic capillaries. IMA Journal of Mathematics Applied to medicine & Biology 8, 107-123 (1991).
Maithili Sharan and S.Selvakumar, A note on Gutierrez's kinetics model for oxygen. BioSystems 26, 171-176 (1992).
Maithili Sharan and S.Selvakumar, The effect of nonequilibrium chemical kinetics on the delivery of oxygen to tissue. Math. Biosci., 108, 253-277 (1992).
S.Selvakumar, Maithili Sharan and M.P.Singh, A mathematical model for the gas exchange in the lungs with special reference to carbon monoxide. Med Biol Eng & Computing, 30, 525-532 (1992).
S.Selvakumar, Maithili Sharan and M.P.Singh, A mathematical model for the elimination of carbon monoxide in human beings. Journal of Theoretical Biology, 162, 321-336 (1993).
Maithili Sharan, M.P.Singh and Balbir Singh, A mathematical model for the simultaneous transport of oxygen and carbon dioxide in the systemic capillaries and surrounding tissue in a hyperbaric environment with first order metabolism. Nonlinear World, 1, 255-276 (1994).
S.Yamamoto, H.Kondo, N.Kaneyasu, M.P.Singh, P.Agarwal, P.Goyal and Maithili Sharan, Atmospheric diffusion characteristics in northwest part of India during the dry season. Japanese J Pollution Control, 3, 327-334 (1994).
Maithili Sharan, M.P.Singh and Balbir Singh, An analytical model for oxygen transport in tissue capillaries in a hyperbaric environment with first order metabolic consumption. Mathematics and Computer Modeling, 22, 99-111 (1995).
Maithili Sharan, R.T.McNider, S.G.Gopalakrishnan and M.P.Singh, Bhopal gas leak: a numerical simulation of episodic dispersion. Atmospheric Environment, 29, 2061-74 (1995).
Maithili Sharan, A.K.Yadav and M.P.Singh, Comparison of various sigma schemes for estimating dispersion of air pollutants in low winds. Atmospheric Environment,29, 2051-59 (1995).
Maithili Sharan, M.P.Singh, A.K.Yadav, P.Aggarwal & S.Nigam, A mathematical model for the dispersion of pollutants in low wind conditions. Atmospheric Envirnment, 30, 1209-20 (1996).
Maithili Sharan, M.P.Singh and A.K.Yadav, A mathematical model for the atmospheric dispersion in low winds with eddy diffusivities as linear functions of downwind distance. Atmospheric Environment, 30, 1137-45(1996).
A.K.Yadav and Maithili Sharan, Statistical evaluation of sigma schemes for estimating dispersion in wind conditions., Atmospheric Environment, 30, 2595-2606 (1996).
Maithili Sharan, S.G.Gopalakrishnan, R.T.McNider and M.P.Singh, Bhopal gas leak: a numerical investigation of the prevailing meteorological conditions. J. Applied Meteor 35, 1637-1657 (1996).
Maithili Sharan, A.K.Yadav and M.P.Singh, A time dependent mathematical model using coupled puff and segmented approaches. J Applied Meteor, 35, 1625-1631 (1996).
A.K.Yadav, Sethuraman and Maithili Sharan, Surface layer turbulence spectra and eddy dissipation during low winds in tropics. Boundary Layer Meteorology, 79, 205-224 (1996).
Maithili Sharan, E.J.Kansa and Suman Gupta, Application of multiquadric method for numerical solution of elliptic partial differential equations. Applied Mathematics & Computation, 84, 275-302 (1997).
Maithili Sharan and S.G.Gopalakrishnan, Comparative evaluation of turbulent exchange coefficients for strong and weak wind stable boundary layer modelling. J. Applied Meteor 36, 545 (1997).
S.G.Gopalakrishnan and Maithili Sharan, A Lagrangian particle model for marginally heavy gas dispersion. Atmospheric Environment., 31, 3369-3382 (1997).
Maithili Sharan, Balbir Singh and Pawan Kumar. A two layer model for studying the effect of cell free plasma layer on the delivery of oxygen to tissue using finite element method. Appl Math Modelling, 21, 419-426 (1997).
Maithili Sharan and S.G.Gopalakrishnan, Bhopal gas accident: a numerical simulation of the gas dispersion event, Environmental Software, 12, 135-141 (1997).
Maithili Sharan, A.S.Popel, M.L.Hudak, R.C.Koehler, R.J.Traystman and M.D.Jones, An analysis of hypoxia in sheep brain using a mathematical model. Ann Biomed Eng, 26, 48-59 (1998).
S.G.Gopalakrishnan, Maithili Sharan, R.T.McNider and M.P.Singh, Study of radiative and turbulent processes in the stable boundary layer under weak wind conditions. J. Atmos. Sc. 55, 954-960 (1998).
Maithili Sharan and A.K.Yadav, Simulation of diffusion experiments under light wind stable conditions by a variable K-theory model, Atmospheric Environment, 32, 3481-92 (1998).
Maithili Sharan, Suman Gupta and A.S.Popel. Parametric Analysis of the relationship between end capillary and mean tissue PO₂ as predicted by a mathematical model. J. Theor. Biol. 195, 439-449 (1998).
Maithili Sharan, A.K.Yadav, M.P.Singh and Suman Gupta. Accounting for the source strength in the solution of diffusion equation: alternative mathematical formulations. Atmospheric Environment, 33, 1327-1330 (1999).
Maithili Sharan and S.Selvakumar. A mathematical model for the simultaneous transport of gases to compute blood COHb build-up due to CO exposures. Environmental Pollution 105, 231-242 (1999).
Maithili Sharan, S.G.Gopalakrishnan and R.T.McNider. A local parameterization scheme for sigma-w under stable conditions, J Applied Meteorology, 38, 617-622 (1999).
Maithili Sharan, S.G.Gopalakrishnan, R.T.McNider and M.P.Singh. Bhopal gas leak: a numerical investigation on the possible influence of urban effects on the prevailing meteorological conditions. Atmospheric Environment, 34, 539-552 (2000).
Maithili Sharan and A.S.Popel. A two-phase model for flow of blood in narrow tubes with increased effective viscosity near the wall. Biorheology, 38, 415-428 (2001).
Maithili Sharan and Suman Gupta. Two-dimensional analytical model for estimating crosswind integrated concentration in a capping inversion: eddy diffusivity as a function of downwind distance from the source. Atmospheric Environment, 36, 97-105 (2002).
Maithili Sharan, A.K.Yadav and Manish Modani. Simulation of diffusion test in low wind convective conditions. Atmospheric Environment, 36, 1901-1906 (2002).
Maithili Sharan and A.S.Popel. A compartmental model for oxygen transport in brain microcirculation in the presence of blood substitutes. J. Theor. Biol., 216, 475-500 (2002).
Maithili Sharan and S.G.Gopalakrishnan, Mathematical modeling of diffusion and transport of pollutants in the atmospheric boundary layer, Pure and Applied Geophysics, 160, 357-394 (2003).
Maithili Sharan, T.V.P.B.S.Ramakrishna and Aditi, Surface Layer Characteristics in Strong and Weak Wind Stable Boundary Layers. Boundary Layer Meteorology, 108, 257-288 (2003).
T.V.B.P.S.Ramakrishna, Maithili Sharan, S.G.Gopalakrishnan and Aditi. Mean Structure of the Nocturnal Boundary Layer under Strong and Weak Wind Conditions: EPRI Case Study. Journal of Applied Meteorology, 42, 952-969 (2003).
Maithili Sharan, T.V.B.P.S.Ramakrishna and Aditi, On the bulk Richardson number and flux profile relations in an atmospheric surface layer under weak wind stable conditions. Atmospheric Environment, 37, 3681-3691 (2003).
S.G.Gopalakrishnan, T.V.P.B.S.Ramakrishna and Maithili Sharan. Some signatures of urban heat patches in southern India. Proc Indian National Science Academy Part A Physical Sciences, 69, 603-614 (2003).
Maithili Sharan, Manish Modani and A.K.Yadav. Atmospheric dispersion: an overview of mathematical modeling framework. Proc Indian National Science Academy Part A Physical Sciences, 69, 725-744 (2003).
S.G.Gopalakrishnan, Frank Freedman, Maithili Sharan and T.V.P.B.S.Ramakrishna. A model study of the strong and weak wind, stably stratified nocturnal boundary layer: Influence of gentle slopes. Pure and Applied Geophysics, 162, 1795-1809 (2005).
Maithili Sharan and Manish Modani. An analytical study for the dispersion of pollutants in a finite layer under low wind conditions. Pure and Applied Geophysics, 162, 1861-1892 (2005).
Maithili Sharan, T.V.B.P.S.Ramakrishna and Jagabandhu Panda, Relations among stability parameters in the stable surface layer: Golder curves revisited. Atmospheric Environment, 39, 5619-5623 (2005).
Maithili Sharan and Manish Modani. A two-dimensional analytical model for the dispersion of air-pollutants in the atmosphere with a capping inversion. Atmospheric Environment, 40, 3479-3489 (2006).
Maithili Sharan and S.Selvakumar. A numerical model for the simultaneous transport of oxygen and carbon dioxide in the systemic capillaries and surrounding tissue. Journal of Computational Methods in Sciences and Engineering, 6, 87-104 (2006).
Aditi and Maithili Sharan, Analysis of weak wind stable conditions from the observations of the Land Surface Processes Experiment at Anand in India. Pure and Applied Geophysics, 164, 1811-1837 (2007).
T.V.B.P.S.Ramakrishna and Maithili Sharan, Simulation of Atmospheric Boundary Layer Characteristics during Indian Summer Monsoon using Observations from Monsoon Trough Boundary Layer Experiment at Jodhpur, India. Pure and Applied Geophysics, 164, 1839-1859 (2007).
Maithili Sharan, D.R.Sikka and U.C.Mohanty. Mesoscale processes in atmosphere, ocean and environmental systems. Bull. Amer. Meteor. Soc., 88, 1435-1439 (2007).
Maithili Sharan and Manish Modani, Variable K-theory model for the dispersion of air pollutants in low wind conditions in the surface based inversion. Atmospheric Environment, 41,6951-6963 (2007).
J.P.Issartel, Maithili Sharan and Manish Modani, An inversion technique to retrieve the source of a tracer with an application to synthetic satellite measurements. Proc Royal Society A, 463, 2863-2886 (2007).
Manish Modani, Maithili Sharan and S.C.Rao, Numerical solution of elliptic partial differential equations on parallel systems. Applied Mathematics and Computation, 195, 162-182 (2008).
Maithili Sharan, E.P.Vovenko, A. Vadapalli, A.S.Popel and R.N.Pittman, Experimental and theoretical studies of oxygen gradients in rat pial microvessels. J. Cerebral Blood Flow and Metabolism, 28, 1597-1604 (2008).
Maithili Sharan and Pramod Kumar, An analysis for the extent of applicability of the Webb's formulation for non-dimensional wind and temperature profiles in the surface layer in weak wind stable conditions. Atmospheric Research, 88, 168-173 (2008).
Maithili Sharan and Pramod Kumar, An analytical model for cross wind integrated concentrations released from a continuous source in a finite atmospheric boundary layer. Atmospheric Environment, 43, 2268-2277 (2009).
Maithili Sharan, J.P. Issartel, Sarvesh K. Singh and Pramod Kumar, An inversion technique for the retrieval of single-point emissions from atmospheric concentration measurements. Proc Royal Society A, 465, 2069-2088 (2009).
Panda J., Maithili Sharan and S.G. Gopalakrishnan, Study of regional-scale boundary layer characteristics over northen India with a special refrence to the role of Thar desert in regional-scale transport. J Applied Meteorology and Climatology, 48, 2377-2402 (2009).
Maithili Sharan and Aditi, Performance of various similarity functions for non-dimensional wind and temperature profiles in the surface layer in stable conditions. Atmospheric Research, 94, 246-253 (2009).
Pramod Kumar and Maithili Sharan, Analytical models for the dispersion of pollutants in low wind conditions. In: Air Pollution and Turulence: Modelling and Applications. Eds D Moreira and M. Vilhena, CRC Press Boca Raton, 157-178 (2009).
Pramod Kumar and Maithili Sharan, An analytical model for dispersion of pollutants from a continuous source in the atmospheric boundary layer. Proc. Royal Society A, 466, 383-406 (2010).
Maithili Sharan and Pramod Kumar, Estimation of upper bounds for the applicability of nonlinear similarity functions in the atmospheric surface layer in very stable conditions. Proc. Royal Society A, 467, 473-494 (2011).
Pramod Kumar and Maithili Sharan,Parameterization of the eddy diffusivity in a dispersion model over homogeneous terrain in the atmospheric boundary layer.Atmospheric Research, 106, 30-43 (2012) .
J.P.Issartel, Maithili Sharan and S.K.Singh, Identification of a point release by use of optimally weighted least squares, Pure and Applied Geophysics, 169, 467-482 (2012).
Maithili Sharan, S.K.Singh and J.P.Issartel, Least square data assimilation for identification of the point-source emissions, Pure and Applied Geophysics, 169, 483-497 (2012).
Panda J., and Maithili Sharan,Influence of land-surface and turbulent parameterization schemes on regional-scale boundary layer characteristics over northern India.Atmospheric Research, 112, 89-111 (2012) .
Pramod Kumar and Maithili Sharan, An analysis for the applicability of Monin-Obukhov similarity theory in stable conditions. J.Atmos.Sci., 69, 1910-15 (2012) .
Maithili Sharan, J.P.Issartel and S.K.Singh, A point-source reconstruction from concentration measurements in low wind stable conditions, Q.J.Roy.Meteorol. Soc.,138, 1884-1894 (2012).
S.K.Singh, Maithili Sharan and J.P.Issartel, Inverse Modelling for Identification of Multiple-Point Releases from Atmospheric Concentration Measurements , Boundary Layer Meteorology 146, 277-295 (2013).
S.K.Singh and Maithili Sharan,Simulation of Plume Dispersion from Single release in Fusion Field Trial-07 Experiment. Atmospheric Environment, 47, 50-57 (2013).
Pramod Kumar and Maithili Sharan, A generalized analytical model for Crosswind integrated concentrations with ground level deposition in the atmospheric boundary layer. Environmental Modeling & Assessment 19,487-501 (2014) DOI 10.1007/s10666-014-9405-7.
Maithili Sharan and Piyush Srivastava, A semi-analytical approach for parametrization of the Obukhov stability parameter in the unstable atmospheric surface layer. Boundary Layer Meteorology, 153, 339-353, (2014) DOI 10.1007/s10546-014-9948-9.
S.K.Singh, Maithili Sharan and Amit Kumar Singh, Reconstructing Height of an Unknown Point Release using Least-squares Data Assimilation. Q. J. Roy. Meteorol. Soc. 141, 1376-1388 (2015) doi: 10.1002/pi.2446.
S.K.Singh, Maithili Sharan and J.P.Issartel, Inverse Modelling Methods for Identifying Unknown Releases in Emergency Scenarios: an Overview, Int. J. Environment and Pollution, 57, 68-91 (2015).
Pandey Gavendra and Maithili Sharan,Simulation of Plume Dispersion of multiple releases in Fusion Field Trial-07 Experiment. Atmospheric Environment,122, 672-685 (2015).
Piyush Srivastava and Maithili Sharan, Characteristics of Drag coefficient Over a Tropical Environment in Convective Conditions. J.Atmos.Sci.,72, 4903-4913 (2015) doi: http://dx.doi.org/10.1175/JAS-D-14-0383.1 .
Pramod Kumar and Maithili Sharan, An analytical dispersion model for sources in the atmospheric surface layer with dry deposition to the ground surface. Aerosol and Air Quality Research, 16, 1284-1294 (2016)..
Maithili Sharan and Piyush Srivastava, Characteristics of heat flux in unstable atmospheric surface layer. J.Atmos.Sci.73, 4519-4529 (2016) d oi:http://dx.doi.org/10.1175/JAS-D-15-0291.1 .
Piyush Srivastava and Maithili Sharan, An analytical formulation of the Monin-Obukhov stability parameter in the atmospheric surface layer under unstable conditions. Boundary Layer Meteorology, 165, 371-384 (2017).
A.R.Ragi, Maithili Sharan and Z.S. Haddad, Objective Detection of Indian Summer Monsoon onset using QuickSCAT Seawinds Scatterometer. IEEE Transactions on Geosciences and Remote Sensing ,55,3466-3474 (2017).
Maithili Sharan, Amit K. Singh and S.K.Singh, Minimization of model representativity errors in identification of the point-source emission from atmospheric concentration measurements, Atmospheric Environment, 169C, 267-277 (2017).
Pandey Gavendra and Maithili Sharan,Performance evaluation of dispersion parameterization schemes in the pl ume simulation of FFT07 diffusion experiment. Atmospheric Environment,172, 32-46 (2018).
Pandey Gavendra and Maithili Sharan, Accountability of wind variability for computing concentrations in low wind conditions. Atmospheric Environment,202, 105-116 (2019).
Piyush Srivastava and Maithili Sharan, Analysis of Dual Nature of Heat Flux Predicted by Monin-Obukhov Similarity Theory: An Impact of Empirical Forms of Stability Correction Functions. J. Geophysical Research- Atmosphere. 124, 3627-3646 (2019).
S.K.Singh and Maithili Sharan,Retrieval of Unknown Number of Source Terms in Dispersion Events Involving Multiple Point Sources. Earth and Space Science, 6, 1710-1729 (2019).
Piyush Srivastava, Maithili Sharan and Manoj Kumar, Development of observation-based parameterizations of standard deviations of wind velocity fluctuations over an Indian region. Theor. Appl. Climatol.�(2019) doi:10.1007/s00704-019-02999-2..
J.P.Issartel,X.Busch and Maithili Sharan, Theoretical issues in the application of Bayesian data assimilation in context of Meteorology, Part 1: Bayesian assimilation as a Tikhonov regularzation. https://hal.archives-ouvertes.fr/hal-02434497 (2020).
J.P.Issartel,X.Busch and Maithili Sharan, Theoretical issues in the application of Bayesi an data assimilation in context of Meteorology, Part 2: Stability and convergence.https://hal.archives-ouvertes.fr/hal-02434502 (2020).
Piyush Srivastava and Maithili Sharan,Manoj Kumar and Aditiya Kumar Dhuria, On stability correction functions over the Indian region under stable conditions. Meteorological Applications. (2020) https://doi.org/10.1002/met.1880.
A.R.Ragi, Maithili Sharan and Z.S. Haddad,Investigation of WRF's ability to simulate monsoon-related seasonal variability in the thermodynamics and precipitation over southern peninusular India.Theor. Appl. Climatol. 141, 1025-1043 (2020) doi:10.1007/s00704-020-03240-1.
Pandey Gavendra and Maithili Sharan, Application of AERMOD for identification of a point-source release in FFT-07 experiment. Air Quality, Atmosphere and Health 14, 679-690 (2021).
Piyush Srivastava and Maithili Sharan, Uncertainity in the parameterization of surface fluxes under unstable conditions.J.Atmos.Sci. (2021), 78, 2237-2247.DOI: https://doi.org/10.1175/JAS-D-20-0350.
Piyush Srivastava, Maithili Sharan,Manoj Kumar, A note on Surface Layer Parameterizations in the Weather Research and Forecast Model. Dynamics of Atmospheres and Oceans. (2021), 96, 1-10 https://doi.org/10.1016/j.dynatmoce.(2021).101259.
Aditya Dhuria and Maithili Sharan.Analysis of observational characteristic Features of the Eulerian Autocorrelation Function in low and moderate wind conditions. Boundary Layer Meteorology, 184.1-19 (2022).
Prabhakar Namdev, Maithili Sharan and SK Mishra, Impact of the similarity functions of surface layer parametrization in a climate model over the Indian region. Q. J. Roy. Meteorol. Soc. 149, 152-170 (2023).
Prabhakar Namdev,Piyush Srivastava, Maithili Sharan and SK Mishra,An update to WRF surface layer parametrization over an Indian region. Dynamics of Atmospheres and Oceans (2024), 105, 1-15 https://doi.org/10.1016/j.dynatmoce.2023.101414.

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