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Publications by Shervin Bagheri

Peer reviewed

Articles

[3]
S. Yada et al., "Rapid wetting of shear-thinning fluids," Physical Review Fluids, vol. 8, no. 4, 2023.
[4]
S. Yada et al., "Droplet Impact on Asymmetric Hydrophobic Microstructures," Langmuir, vol. 38, no. 26, pp. 7956-7964, 2022.
[7]
S. Suo et al., "Mobility of trapped droplets within porous surfaces," Chemical Engineering Science, vol. 264, 2022.
[8]
U. Lācis et al., "Nanoscale sheared droplet : volume-of-fluid, phase-field and no-slip molecular dynamics," Journal of Fluid Mechanics, vol. 940, 2022.
[9]
S. M. Habibi Khorasani et al., "Near-wall turbulence alteration with the transpiration-resistance model," Journal of Fluid Mechanics, vol. 942, 2022.
[10]
J. Sundin and S. Bagheri, "Slip of submerged two-dimensional liquid-infused surfaces in the presence of surfactants," Journal of Fluid Mechanics, vol. 950, 2022.
[11]
J. Sundin et al., "A Soft Material Flow Sensor for Micro Air Vehicles," Soft Robotics, vol. 8, no. 2, pp. 119-127, 2021.
[12]
S. Yada et al., "Droplet Impact on Surfaces with Asymmetric Microscopic Features," Langmuir, vol. 37, no. 36, pp. 10849-10858, 2021.
[14]
Y. Sudhakar et al., "Higher-Order Homogenized Boundary Conditions for Flows Over Rough and Porous Surfaces," Transport in Porous Media, vol. 136, no. 1, pp. 1-42, 2021.
[15]
S. Lee et al., "Predicting drag on rough surfaces by transfer learning of empirical correlations," Journal of Fluid Mechanics, vol. 933, 2021.
[16]
J. Sundin, S. Zaleski and S. Bagheri, "Roughness on liquid-infused surfaces induced by capillary waves," Journal of Fluid Mechanics, vol. 915, 2021.
[17]
A. Rinehart et al., "Lift induced by slip inhomogeneities in lubricated contacts," Physical Review Fluids, vol. 5, no. 8, 2020.
[18]
K. Taira et al., "Modal Analysis of Fluid Flows : Applications and Outlook," AIAA Journal, vol. 58, no. 3, pp. 998-1022, 2020.
[20]
U. Lacis et al., "Transfer of mass and momentum at rough and porous surfaces," Journal of Fluid Mechanics, vol. 884, 2020.
[21]
S. Yada et al., "Droplet leaping governs microstructured surface wetting," Soft Matter, vol. 15, no. 46, pp. 9528-9536, 2019.
[22]
G. A. Zampogna et al., "Modeling waves in fluids flowing over and through poroelastic media," International Journal of Multiphase Flow, vol. 110, pp. 148-164, 2019.
[23]
E. Rinaldi, P. Schlatter and S. Bagheri, "Edge state modulation by mean viscosity gradients," Journal of Fluid Mechanics, vol. 838, pp. 379-403, 2018.
[24]
J. Sundin and S. Bagheri, "Interaction between hairy surfaces and turbulence for different surface time scales," Journal of Fluid Mechanics, vol. 861, pp. 556-584, 2018.
[25]
U. Lacis, G. Zampogna and S. Bagheri, "A computational continuum model of poroelastic beds," Proceedings of the Royal Society. Mathematical, Physical and Engineering Sciences, vol. 473, no. 2199, 2017.
[26]
U. Lacis and S. Bagheri, "A framework for computing effective boundary conditions at the interface between free fluid and a porous medium," Journal of Fluid Mechanics, vol. 812, pp. 866-889, 2017.
[27]
N. Fabbiane, S. Bagheri and D. S. Henningson, "Energy efficiency and performance limitations of linear adaptive control for transition delay," Journal of Fluid Mechanics, vol. 810, pp. 60-81, 2017.
[28]
U. Lacis et al., "Passive control of a falling sphere by elliptic-shaped appendages," Physical Review Fluids, vol. 2, 2017.
[29]
U. Lacis, K. Taira and S. Bagheri, "A stable fluid-structure-interaction solver for low-density rigid bodies using the immersed boundary projection method," Journal of Computational Physics, vol. 305, pp. 300-318, 2016.
[31]
D. Natali et al., "Stabilizing effect of porosity on a flapping filament," Journal of Fluids and Structures, vol. 61, pp. 362-375, 2016.
[32]
N. Brosse et al., "Experimental study of a three-dimensional cylinder–filament system," Experiments in Fluids, vol. 56, no. 6, 2015.
[33]
N. Fabbiane et al., "On the role of adaptivity for robust laminar flow control," Journal of Fluid Mechanics, vol. 767, pp. R1-R12, 2015.
[34]
N. Fabbiane et al., "Adaptive and model-based control theory applied to convectively unstable flows," Applied Mechanics Review, vol. 66, no. 6, pp. 060801, 2014.
[35]
R. Dadfar et al., "Centralised Versus Decentralised Active Control of Boundary Layer Instabilities," Flow Turbulence and Combustion, vol. 93, no. 4, pp. 537-553, 2014.
[37]
U. Lacis et al., "Passive appendages generate drift through symmetry breaking," Nature Communications, vol. 5, pp. 5310, 2014.
[38]
S. Bagheri, "Koopman-mode decomposition of the cylinder wake," Journal of Fluid Mechanics, vol. 726, pp. 596-623, 2013.
[39]
O. Semeraro et al., "Transition delay in a boundary layer flow using active control," Journal of Fluid Mechanics, vol. 731, pp. 288-311, 2013.
[41]
S. Bagheri, "Computational Hydrodynamic Stability and Flow Control Based on Spectral Analysis of Linear Operators," Archives of Computational Methods in Engineering, vol. 19, no. 3, pp. 341-379, 2012.
[42]
S. Bagheri, A. Mazzino and A. Bottaro, "Spontaneous symmetry breaking of a hinged flapping filament generates lift," Physical Review Letters, vol. 109, no. 15, pp. 154502, 2012.
[43]
O. Semeraro et al., "Feedback control of three-dimensional optimal disturbances using reduced-order models," Journal of Fluid Mechanics, vol. 677, pp. 63-102, 2011.
[44]
C. Cossu et al., "Secondary threshold amplitudes for sinuous streak breakdown," Physics of fluids, vol. 23, no. 7, pp. 074103, 2011.
[45]
P. Schlatter, S. Bagheri and D. S. Henningson, "Self-sustained global oscillations in a jet in crossflow," Theoretical and Computational Fluid Dynamics, vol. 25, no. 1-4, pp. 129-146, 2011.
[46]
M. Ilak et al., "Stability of a jet in crossflow," Physics of fluids, vol. 23, no. 9, pp. 091113, 2011.
[47]
S. Bagheri and D. S. Henningson, "Transition delay using control theory," Philosophical Transactions. Series A : Mathematical, physical, and engineering science, vol. 369, no. 1940, pp. 1365-1381, 2011.
[48]
M. Ilak et al., "Model Reduction of the Nonlinear Complex Ginzburg-Landau Equation," SIAM Journal on Applied Dynamical Systems, vol. 9, no. 4, pp. 1284-1302, 2010.
[49]
S. Bagheri et al., "Global stability of a jet in crossflow," Journal of Fluid Mechanics, vol. 624, pp. 33-44, 2009.
[50]
[51]
S. Bagheri, L. Brandt and D. Henningson, "Input-output analysis, model reduction and control of the flat-plate boundary layer," Journal of Fluid Mechanics, vol. 620, pp. 263-298, 2009.
[52]
S. Bagheri et al., "Matrix-free methods for the stability and control of boundary layers," AIAA Journal, vol. 47, no. 5, pp. 1057-1068, 2009.
[53]
C. W. Rowley et al., "Spectral analysis of nonlinear flows," Journal of Fluid Mechanics, vol. 641, pp. 115-127, 2009.
[54]
S. Bagheri, J. H. M. Fransson and P. Schlatter, "Research on the interaction between streamwise streaks and Tollmien-Schlichting waves at KTH," ERCOFTAC Bulletin, vol. 74, pp. 37-43, 2007.
[55]
S. Bagheri and A. Hanifi, "The stabilizing effect of streaks on Tollmien-Schlichting and oblique waves : A parametric study," Physics of fluids, vol. 19, no. 7, pp. 078103-1-078103-4, 2007.

Conference papers

[56]
N. Fabbiane, S. Bagheri and D. S. Henningson, "Adaptive control of finite-amplitude 3D disturbances in 2D boundary-layer flows," in 9th International Symposium on Turbulence and Shear Flow Phenomena, TSFP 2015, 2015.
[57]
A. Samanta, S. Bagheri and L. Brandt, "Linear stability of a liquid flow through a poroelastic channel," in Proceedings - 15th European Turbulence Conference, ETC 2015, 2015.
[58]
O. Semeraro et al., "Linear control of 3D disturbances on a flat-plate," in SEVENTH IUTAM SYMPOSIUM ON LAMINAR-TURBULENT TRANSITION, 2010, pp. 373-378.
[59]
C. Rowley et al., "Reduced-order models for flow control : balanced models and Koopman modes," in Seventh IUTAM Symposium on Laminar-Turbulent Transition, 2010, pp. 43-50.
[60]
S. Bagheri et al., "Input-output analysis and control design of spatially developing shear flows," in 5th AIAA Theoretical Fluid Mechanics Conference, 2008.

Non-peer reviewed

Articles

[61]
S. M. Habibi Khorasani, M. Luhar and S. Bagheri, "Turbulent flows over porous lattices: alteration of near-wall turbulence and pore-flow amplitude modulation," Journal of Fluid Mechanics, vol. 984, 2024.

Theses

[62]
S. Bagheri, "Analysis and control of transitional shear flows using global modes," Doctoral thesis Stockholm : KTH, Trita-MEK, 2010:01, 2010.
[63]
S. Bagheri, "Stability analysis and control design of spatially developing flows," Licentiate thesis Stockholm : KTH, Trita-MEK, 2008:04, 2008.

Other

[70]
S. Suo, S. M. Habibi Khorasani and S. Bagheri, "Dewetting of a corner film wrapping a wall-mounted cylinder," (Manuscript).
[77]
S. M. Habibi Khorasani, G. Brethouwer and S. Bagheri, "Turbulent heat transfer in open-channel flows with thermally conductive porous walls," (Manuscript).
[78]
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2024-07-09 00:32:02