Publications

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Journal

2023

Lamaakel, O., R. Venters, J. Teixeira, and G. Matheou, 2023: Computational domain size effects on large-eddy simulations of precipitating shallow cumulus convection, Atmosphere 14 (7), 1186

Chinita, M. J., M. Witte, M. J. Kurowski, J. Teixeira, K. Suselj, G. Matheou, P. Bogenschutz, 2023: Improving the representation of shallow cumulus convection with the Simplified Higher-Order Closure Mass-Flux (SHOC+ MF v1. 0) approach, Geoscientific Model Development, 16 (7), 1909–1924.

2022

Matheou, G., 2022: Large-eddy simulation of cumulus clouds, Physical Review Fluids, 7, 110507.

Lamaakel, O. and G. Matheou, 2022: Organization development in precipitating shallow cumulus convection: Evolution turbulence characteristics, Journal of the Atmospheric Sciences, 79, 2419–2433.

Witte, M. K., A. Herrington, J. Teixeira, M. J. Kurowski, M. J. Chinita, R. L. Storer, K. Suselj, G. Matheou, and J. Bacmeister, 2022: Augmenting the double-Gaussian representation of atmospheric turbulence and convection via a coupled stochastic multi-plume mass flux scheme, Monthly Weather Review150, 2339–2355.

Chinita, M. J., G. Matheou, and P. Miranda, 2022: Large-eddy simulation of very stable boundary layers. Part I: Modeling methodology, Quarterly Journal of the Royal Meteorological Society, 148, 1805–1823.

Chinita, M. J., G. Matheou, and P. Miranda, 2022: Large-eddy simulation of very stable boundary layers. Part II: Anisotropic turbulence structure, Quarterly Journal of the Royal Meteorological Society, 148, 1824–1839.

Jongaramrungruang, O., A. K. Thorpe, G. Matheou, and C. Frankenberg, 2022: MethaNet–An AI-driven approach to quantifying methane point-source emission from high-resolution 2-D plume imagery, Remote Sensing of Environment, 269, 112809. https://doi.org/10.1016/j.rse.2021.112809

2021

Jongaramrungruang, O., G. Matheou, A. K. Thorpe, Z. C. Zeng, and C. Frankenberg, 2021: Remote sensing of methane plumes: instrument tradeoff analysis for detecting and quantifying local sources at global scale, Atmospheric Measurement Techniques, 14 (12), 7999-8017. https://doi.org/10.5194/amt-14-7999-2021

Lamaakel, O. and G. Matheou, 2021: Galilean invariance of shallow cumulus convection large-eddy simulations, Journal of Computational Physics, 427, 110012, https://doi.org/10.1016/j.jcp.2020.110012

2020

Matheou, G., A. B. Davis, and J. Teixeira, 2020: The spiderweb structure of stratocumulus clouds, Atmosphere, 11(7), 730, https://doi.org/10.3390/atmos11070730

Couvreux, F., E. Bazile, Q. Rodier, B. Maronga, G. Matheou, M. J. Chinita, J. Edwards, B. J. H. Van Stratum, C. C. Van Heerwaarden, J. Huang, A. F. Moene, A. Cheng, V. Fuka, S. Basu, E. Bou-Zeid, G. Canut, and E. Vignon, 2020: Intercomparison of large-eddy simulations of the antarctic boundary layer challenged by very stable stratification, Boundary Layer Meteorology, 176, 369–400, https://doi.org/10.1007/s10546-020-00539-4

2019

Jongaramrungruang, S., C. Frankenberg, G. Matheou, A. Thorpe, D. R. Thompson, L. Kuai, and R. Duren, 2019: Towards accurate methane point-source quantification from high-resolution 2D plume imagery, Atmospheric Measurement Techniques, in press. doi.org/10.5194/amt-2019-173

Sharan, N., G. Matheou and P. E. Dimotakis, 2019: Turbulent shear-layer mixing: initial conditions, and direct-numerical and large-eddy simulations, Journal of Fluid Mechanics, 877, 35–81.

Matheou, G. and J. Teixeira, 2019: Sensitivity to physical and numerical aspects of large-eddy simulation of stratocumulus, Monthly Weather Review, 47, 2621–2639. doi.org/10.1175/MWR-D-18-0294.1

2018

Matheou, G., 2018: Turbulence structure in a stratocumulus cloud, Atmosphere, 9, 392; doi:10.3390/atmos9100392

Sharan, N., G. Matheou and P. E. Dimotakis, 2018: Mixing, scalar boundedness, and numerical dissipation in large-eddy simulations, Journal of Computational Physics, 369, 148–172.

Chinita, M. J., G. Matheou and J. Teixeira, 2018: A joint probability density-based decomposition of turbulence in the atmospheric boundary layer, Monthly Weather Review, 146, 503–523.

2017

Matheou, G., D. Chung and J. Teixeira, 2017: Large-eddy simulation of a stratocumulus cloud, Physical Review Fluids, 2, 090509.

Gat, I., G. Matheou, D. Chung and P. E. Dimotakis, 2017: Incompressible variable-density turbulence in an external acceleration field, Journal of Fluid Mechanics, 827, 506–535. doi:10.1017/jfm.2017.490

Kahn, B. H., G. Matheou, Q. Yue, T. Fauchez, E. J. Fetzer, M. Lebsock, J. Martins, M. M. Schreier, K. Suzuki and J. Teixeira, 2017: An A-train and MERRA view of cloud, thermodynamic, and dynamic variability within the subtropical marine boundary layer, Atmospheric Chemistry and Physics, 17, 9451–9468. https://doi.org/10.5194/acp-17-9451-2017

2016

Matheou, G., 2016: Numerical discretization and subgrid scale model effects on large-eddy simulations of a stable boundary layer, Quarterly Journal of the Royal Meteorological Society, 42(701), 3050-3062.

Matheou, G. and P. E. Dimotakis, 2016: Scalar excursions in large-eddy simulations, Journal of Computational Physics, 327, 97–120.

Matheou, G. and K. W. Bowman, 2016: A recycling method for the large-eddy simulation of plumes in the atmospheric boundary layer, Environmental Fluid Mechanics, 16, 69–85.

2014

Matheou, G. and D. Chung, 2014: Large-eddy simulation of stratified turbulence. Part II: Application of the stretched-vortex model to the atmospheric boundary layer, Journal of the Atmospheric Sciences, 71, 4439–4460.

Chung, D. and G. Matheou, 2014: Large-eddy simulation of stratified turbulence. Part I: A vortex-based subgrid-scale model, Journal of the Atmospheric Sciences, 71, 1863–1879.

Inoue, M., G. Matheou and J. Teixeira, 2014: LES of a spatially developing atmospheric boundary layer: Application of a fringe method for the stratocumulus to shallow cumulus cloud transition, Monthly Weather Review, 142, 3418–3424.

Matheou, G., 2014: Turbulence, climate and supercomputers, The STEAM Journal: Vol. 1: Iss. 2, Article 32. DOI: 10.5642/steam.20140102.32 
Available at: http://scholarship.claremont.edu/steam/vol1/iss2/32

2012

Matheou, G., and D. Chung, 2012: Direct numerical simulation of stratified turbulence, Physics of Fluids, 24, 091106.

Chung, D., G. Matheou and J. Teixeira, 2012: Steady-state large-eddy simulations to study the stratocumulus to shallow-cumulus cloud transition, Journal of the Atmospheric Sciences, 69, 3264–3276.

Chung, D. and G. Matheou, 2012: Direct numerical simulation of stationary homogeneous stratified sheared turbulence, Journal of Fluid Mechanics, 696, 434–467.

Suselj, K., J. Teixeira and G. Matheou, 2012: Eddy diffusivity/mass flux and shallow cumulus boundary layer: An updraft PDF multiple mass flux scheme, Journal of the Atmospheric Sciences, 69, 1513–1533.

2011

Matheou, G., D. Chung, L. Nuijens, B. Stevens and J. Teixeira, 2011: On the fidelity of large-eddy simulation of shallow cumulus convection, Monthly Weather Review, 139, 2918–2939.

Witek, M., J. Teixeira and G. Matheou, 2011: An integrated TKE based eddy-diffusivity/mass flux boundary layer scheme for the dry convective boundary layer, Journal of the Atmospheric Sciences, 68, 2385–2394.

Witek, M., J. Teixeira and G. Matheou, 2011: An eddy-diffusivity/mass-flux approach to the vertical transport of turbulent kinetic energy in convective boundary layers, Journal of the Atmospheric Sciences, 68, 1526–1540.

Ferrante, A., G. Matheou and P. E. Dimotakis, 2011: LES of an inclined jet into a supersonic turbulent crossflow: Synthetic inflow conditions, Journal of Turbulence, Volume 12, Art. No. N 20.

2010

Matheou, G., A. M. Bonanos, C. Pantano and P. E. Dimotakis, 2010: Large-eddy simulation of mixing in a recirculating shear flow, Journal of Fluid Mechanics,646, 375–414.

2008

Matheou, G., C. Pantano and P. E. Dimotakis, 2008: Verification of a fluid-dynamics solver using correlations with linear stability results, Journal of Computational Physics, 227(11), 5385–5396.

Pantano, C., D. I. Pullin, P. E. Dimotakis and G. Matheou, 2008: LES approach for high Reynolds number wall-bounded flows with application to turbulent channel flow, Journal of Computational Physics, 227(11), 9271–9291.

Book Chapters

Stoica, A., V. Adumitroaie, M. Quadrelli, G. Matheou, M. Witek, M. Cipolato, M. Dolci, J. Roggeveen, K. Petersen, K. Andreyeva, H. Hall, B. Donitz and L. Kim, 2018: WindBots: A Concept for persistent in situ science explorers for gas giants. In: Badescu V., Zacny K. (eds) Outer Solar System. Springer, Cham. https://doi.org/10.1007/978-3-319-73845-1_12.

Teixeira, J., M. Taylor, A. Persson and G. Matheou, 2014: Atmospheric general circulation models, In Encyclopedia of Remote Sensing, 35–37, Springer New York. http://dx.doi.org/10.1007/978-0-387-36699-9_8.

Archival Conference Papers

Thorpe, A. K., C. Frankenberg, R. O. Green, D. R. Thompson, A. D. Aubrey, P. Mouroulis, M. L. Eastwood, G. Matheou, 2016: The Airborne Methane Plume Spectrometer (AMPS): Quantitative imaging of methane plumes in real time, 2016 IEEE Aerospace Conference, Paper number: 2478 (6.0301).

Matheou, G. and P. E. Dimotakis, 2014: Scalar excursions in large-eddy simulations, 7thAIAATheoretical Fluid Mechanics Conference, AIAA-2014-3209.

Ferrante, A., G. Matheou, and P. E. Dimotakis, 2010: On the effects of the inflow conditions on the transition of an inclined jet into a supersonic cross-flow, 48th AIAA Aerospace Sciences Meeting, AIAA-2010-1287.

Ferrante, A., C. Pantano, G. Matheou, and P. E. Dimotakis, 2009: On the effects of upstream conditions on the transition of an inclined jet into a supersonic cross-flow, 47th AIAA Aerospace Sciences Meeting, AIAA-2009-1511.