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Joseph, D.D. (1976). Stability of Fluid Motions Vols. I-II, Springer, Berlin.JosephD.D.1976I-IISpringerBerlinSearch in Google Scholar
Orr, W. McF. (1907). Stability or instability of the steady motions of a perfect liquid. Proceedings of the Royal Irish Academy A 37 9.OrrW. McF.1907Stability or instability of the steady motions of a perfect liquid379Search in Google Scholar
Serrin, J. (1959). On the stability of viscous fluid motions. Archive for Rational Mechanics and Analysis 3, 1.SerrinJ.1959On the stability of viscous fluid motions3110.1007/BF00284160Search in Google Scholar
Joseph, D.D. (1965). On the stability of the Boussinesq equations. Archive for Rational Mechanics and Analysis 20, 59.JosephD.D.1965On the stability of the Boussinesq equations205910.1007/BF00250190Search in Google Scholar
Joseph, D.D. (1966). Nonlinear stability of the Boussinesq equations by the method of energy. Archive for Rational Mechanics and Analysis 22, 163.JosephD.D.1966Nonlinear stability of the Boussinesq equations by the method of energy2216310.1007/BF00266474Search in Google Scholar
Galdi, G.P., Padula, M. (1990). A new approach to energy theory in the stability of fluid motion. Archive for Rational Mechanics and Analysis 110, 187.GaldiG.P.PadulaM.1990A new approach to energy theory in the stability of fluid motion11018710.1007/BF00375129Search in Google Scholar
Straughan, B., Explosive Instabilities in Mechanics, Springer, Berlin, 1998.StraughanB.SpringerBerlin199810.1007/978-3-642-58807-5Search in Google Scholar
Straughan, B. (2004). The Energy Method, Stability, and Nonlinear Convection Springer-Verlag, New York.StraughanB.2004Springer-VerlagNew York10.1007/978-0-387-21740-6Search in Google Scholar
Straughan, B. (2005). A sharp nonlinear stability threshold in rotating porous convection. Proceedings of the Royal Society of London Series A 457, 87.StraughanB.2005A sharp nonlinear stability threshold in rotating porous convection4578710.1098/rspa.2000.0657Search in Google Scholar
Kaloni, P.N., Qiao, Z. (1997). Non-linear stability of convection in a porous medium with inclined temperature gradient. International Journal of Heat and Mass Transfer 40, 1611.KaloniP.N.QiaoZ.1997Non-linear stability of convection in a porous medium with inclined temperature gradient40161110.1016/S0017-9310(96)00204-9Search in Google Scholar
Kaloni, P.N., Qiao, Z. (1997). Nonlinear convection with inclined temperature gradient and horizontal mass flow. International Journal of Engineering Science 35, 299.KaloniP.N.QiaoZ.1997Nonlinear convection with inclined temperature gradient and horizontal mass flow3529910.1016/S0020-7225(96)00111-5Search in Google Scholar
Kaloni, P.N., Qiao Z. (2001). Non-linear convection in a porous medium with inclined temperature gradient and variable gravity effects. International Journal of Heat and Mass Transfer 44, 1585.KaloniP.N.QiaoZ.2001Non-linear convection in a porous medium with inclined temperature gradient and variable gravity effects44158510.1016/S0017-9310(00)00196-4Search in Google Scholar
Guo, J., Kaloni, P.N. (1995). Nonlinear stability problem of a rotating doubly diffusive porous layer. Journal of Mathematical Analysis and Applications 190, 373.GuoJ.KaloniP.N.1995Nonlinear stability problem of a rotating doubly diffusive porous layer19037310.1006/jmaa.1995.1082Search in Google Scholar
Guo, J., Qin, Y., Kaloni, P.N. (1994). Non-linear stability problem of a rotating doubly diffusive fluid layer. International Journal of Engineering Science 32, 1207.GuoJ.QinY.KaloniP.N.1994Non-linear stability problem of a rotating doubly diffusive fluid layer32120710.1016/0020-7225(94)90032-9Search in Google Scholar
Payne, L.E., Straughan, B. (2000). Unconditional nonlinear stability in temperature – dependent viscosity flow in a porous medium. Studies in Applied Mathematics 105, 59.PayneL.E.StraughanB.2000Unconditional nonlinear stability in temperature – dependent viscosity flow in a porous medium1055910.1111/1467-9590.00142Search in Google Scholar
Stokes, V.K. (1966). Couple stresses in fluids. The Physics of Fluids 9, 1709.StokesV.K.1966Couple stresses in fluids9170910.1007/978-3-642-82351-0_4Search in Google Scholar
Ramanaiah, G., Sarkar, P. (1979). Slider bearings lubricated by fluids with couple stress. Wear 52, 27.RamanaiahG.SarkarP.1979Slider bearings lubricated by fluids with couple stress522710.1016/0043-1648(79)90193-5Search in Google Scholar
Sharma R. C., Thakur K. D. (2000). On couple-stress fluid heated from below in porous medium in hydromagnetics. Czechoslovak Journal of Physics 50, 753.SharmaR. C.ThakurK. D.2000On couple-stress fluid heated from below in porous medium in hydromagnetics5075310.1023/A:1022886903213Search in Google Scholar
Sharma R. C., Sunil, Pal M. (2000). On couple-stress fluid heated from below in porous medium in presence of rotation. Applied Mechanical Engineering 5(4), 883.SharmaR. C.SunilPal M.2000On couple-stress fluid heated from below in porous medium in presence of rotation54883Search in Google Scholar
Sunil, Mahajan A. (2008a). A nonlinear stability analysis for magnetized ferrofluid heated from below. Proceedings of the Royal Society A 464, 83.SunilMahajan A.2008aA nonlinear stability analysis for magnetized ferrofluid heated from below4648310.1098/rspa.2007.1906Search in Google Scholar
Sunil, Mahajan A. (2008b). A nonlinear stability analysis for rotating magnetized ferrofluid heated from below. Applied Mathematics and Computation 204, 299.Sunil MahajanA.2008bA nonlinear stability analysis for rotating magnetized ferrofluid heated from below20429910.1016/j.amc.2008.06.043Search in Google Scholar
Sunil, Mahajan A. (2008c). A nonlinear stability analysis of a double-diffusive magnetized ferrofluid. Zeitschrift für Naturforschung 63a 797.Sunil MahajanA.2008cA nonlinear stability analysis of a double-diffusive magnetized ferrofluid63a79710.1515/zna-2008-1207Search in Google Scholar
Sunil, Mahajan A. (2008d). A nonlinear stability analysis in a double-diffusive magnetized ferrofluid layer saturating a porous medium. Journal of Geophysics and Engineering 5(3), 311.SunilMahajan A.2008dA nonlinear stability analysis in a double-diffusive magnetized ferrofluid layer saturating a porous medium5331110.1088/1742-2132/5/3/007Search in Google Scholar
Sunil, Choudhary S., Bharti P. (2013). Global stability for thermal convection in a couple-stress fluid with temperature and pressure dependent viscosity. Studia Geotechnica et Mechanica 35(3), 85.SunilChoudhary S.BhartiP.2013Global stability for thermal convection in a couple-stress fluid with temperature and pressure dependent viscosity3538510.2478/sgem-2013-0032Search in Google Scholar
Sunil, Choudhary S., Bharti P. (2012). Global stability for thermal convection in a couple-stress fluid saturating a porous medium with temperature and pressure dependent-dependent viscosity. International Journal of Applied Mechanics and Engineering 17(2), 583.SunilChoudhary S.BhartiP.2012Global stability for thermal convection in a couple-stress fluid saturating a porous medium with temperature and pressure dependent-dependent viscosity17258310.5829/idosi.ije.2012.25.03a.04Search in Google Scholar
Hsu C. H., Lin J. R., Chiang H.L. (2003). Combined effects of couple stresses and surface roughness on the lubrication of short journal bearings. Industrial Lubrication and Tribology 55, 233.HsuC. H.LinJ. R.ChiangH.L.2003Combined effects of couple stresses and surface roughness on the lubrication of short journal bearings5523310.1108/00368790310488896Search in Google Scholar
Lahmar, M. (2005). Elastohydrodynamic analysis of double-layered journal bearings lubricated with couple-stress fluids. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology 219, 145.LahmarM.2005Elastohydrodynamic analysis of double-layered journal bearings lubricated with couple-stress fluids21914510.1243/135065005X9835Search in Google Scholar
Nield, D.A., Bejan A. (2006). Convection in Porous Media Springer, New York.NieldD.A.BejanA.2006SpringerNew YorkSearch in Google Scholar
Veronis, G. (1968). Effect of a stabilizing gradient of solute on thermal convection. Journal of Fluid Mechanics 34, 315.VeronisG.1968Effect of a stabilizing gradient of solute on thermal convection3431510.1017/S0022112068001916Search in Google Scholar
Banies, P.G., Gill A. E. (1969). On thermohaline convection with linear gradients. Journal of Fluid Mechanics 37, 289.BaniesP.G.GillA. E.1969On thermohaline convection with linear gradients3728910.1017/S0022112069000553Search in Google Scholar
Joseph, D.D. (1970). Global stability of the conduction-diffusion solution. Archive for Rational Mechanics and Analysis 36, 285.JosephD.D.1970Global stability of the conduction-diffusion solution3628510.1007/BF00249516Search in Google Scholar
Griffiths, R.W. (1981). Layered double-diffusive convection in porous media. Journal of Fluid Mechanics 102, 221.GriffithsR.W.1981Layered double-diffusive convection in porous media10222110.1017/S0022112081002619Search in Google Scholar
Sunil, Sharma, D., Sharma, R.C. (2004). Effect of rotation on ferromagnetic fluid heated and soluted from below saturating a porous medium. Journal of Geophysics and Engineering 1, 116.SunilSharma, D.SharmaR.C.2004Effect of rotation on ferromagnetic fluid heated and soluted from below saturating a porous medium111610.1088/1742-2132/1/2/003Search in Google Scholar
Sunil, Sharma, A., Sharma, R.C. (2006). Effect of dust particles on ferrofluid heated and soluted from below. International Journal of Thermal Sciences 45, 347.SunilSharma, A.SharmaR.C.2006Effect of dust particles on ferrofluid heated and soluted from below4534710.1016/j.ijthermalsci.2005.06.003Search in Google Scholar
Sunil, Sharma, A., Bharti, P.K., Shandil, R.G. (2007). Linear stability of double-diffusive convection in a micropolar ferromagnetic fluid saturating a porous medium. International Journal of Mechanical Sciences 49, 1047.SunilSharma, A.BhartiP.K.ShandilR.G.2007Linear stability of double-diffusive convection in a micropolar ferromagnetic fluid saturating a porous medium49104710.1016/j.ijmecsci.2007.01.002Search in Google Scholar
Sunil, Sharma, P., Mahajan, A. (2009). A nonlinear stability analysis of a rotating double-diffusive magnetized ferrofluid saturating a porous medium. Heat Transfer Research 40, 351.SunilSharma, P.MahajanA.2009A nonlinear stability analysis of a rotating double-diffusive magnetized ferrofluid saturating a porous medium4035110.1615/HeatTransRes.v40.i4.60Search in Google Scholar
Sunil, Sharma, P., Mahajan, A. (2010). Onset of Darcy– Brinkman double-diffusive convection in a magnetized ferrofluid layer using a thermal non-equilibrium model: a nonlinear stability analysis. Journal of Geophysics and Engineering 7, 417.SunilSharma, P.MahajanA.2010Onset of Darcy– Brinkman double-diffusive convection in a magnetized ferrofluid layer using a thermal non-equilibrium model: a nonlinear stability analysis741710.1088/1742-2132/7/4/009Search in Google Scholar
Mahajan, A., Nandal, R. (2017). On the stability of penetrative convection in a couple-stress fluid. International Journal of Applied and Computational Mathematics 3(4), 3745-3758.MahajanA.NandalR.2017On the stability of penetrative convection in a couple-stress fluid343745375810.1007/s40819-017-0324-6Search in Google Scholar
Nandal, R., Mahajan, A. (2018). Penetrative convection in couple-stress fluid via internal heat source/sink with the boundary effects. Journal of Non-Newtonian Fluid Mechanics 260, 133-141.NandalR.MahajanA.2018Penetrative convection in couple-stress fluid via internal heat source/sink with the boundary effects26013314110.1016/j.jnnfm.2018.07.004Search in Google Scholar
Qin, Y., Kaloni, P.N. (1995). Nonlinear stability problem of a rotating porous layer. Quarterly of Applied Mathematics 53, 129.QinY.KaloniP.N.1995Nonlinear stability problem of a rotating porous layer5312910.1090/qam/1315452Search in Google Scholar
Finlayson, B.A. (1970). Convective instability of ferromagnetic fluids. Journal of Fluid Mechanics 40, 753.FinlaysonB.A.1970Convective instability of ferromagnetic fluids4075310.1017/S0022112070000423Search in Google Scholar
Chandrasekhar, S. (1981). Hydrodynamic and Hydromagnetic Stability Dover, New York.ChandrasekharS.1981DoverNew YorkSearch in Google Scholar