Fridlind, Ann M.

  1. Fridlind A, Atlas R, van Diedenhoven B, Um J, McFarquhar G, Ackerman A, Moyer E, Lawson R. DERIVATION OF PHYSICAL AND OPTICAL PROPERTIES OF MID-LATITUDE CIRRUS ICE CRYSTALS FOR A SIZE-RESOLVED CLOUD MICROPHYSICS MODEL. Atmos. Chem. Phys. 2016;16 (11):7251-7283.
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  2. Tao W, Wu D, Lang S, Chern J, Peters-Lidard C, Fridlind A, Matsui T. HIGH-RESOLUTION NU-WRF SIMULATIONS OF A DEEP CONVECTIVE-PRECIPITATION SYSTEM DURING MC3E: FURTHER IMPROVEMENTS AND COMPARISONS BETWEEN GODDARD MICROPHYSICS SCHEMES AND OBSERVATIONS. J GEOPHYS RES-ATMOS. 2016;121 (3):1278-1305.
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  3. van Diedenhoven B, Ackerman A, Fridlind A, Cairns B. ON AVERAGING ASPECT RATIOS AND DISTORTION PARAMETERS OVER ICE CRYSTAL POPULATION ENSEMBLES FOR ESTIMATING EFFECTIVE SCATTERING ASYMMETRY PARAMETERS. J. Atmos. Sci. 2016;73 (2):775-787.
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  4. van Lier-Walqui M, Fridlind A, Ackerman A, Collis S, Helmus J, MacGorman D, North K, Kollias P, Posselt D. ON POLARIMETRIC RADAR SIGNATURES OF DEEP CONVECTION FOR MODEL EVALUATION: COLUMNS OF SPECIFIC DIFFERENTIAL PHASE OBSERVED DURING MC3E. Mon. Weather Rev. 2016;144 (2):737-758.
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  5. Wood R, Jensen M, Wang J, Bretherton C, Burrows S, Del Genio A, Fridlind A, Ghan S, Ghate V, Kollias P, Krueger S, McGraw R, Miller M, Painemal D, Russell L, Yuter S, Zuidema P. PLANNING THE NEXT DECADE OF COORDINATED RESEARCH TO BETTER UNDERSTAND AND SIMULATE MARINE LOW CLOUDS. Bull. Amer. Meteorol. Soc. 2016;97 (9):1699-1702.
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  6. van Diedenhoven B, Fridlind A, Cairns B, Ackerman A, Yorks J. VERTICAL VARIATION OF ICE PARTICLE SIZE IN CONVECTIVE CLOUD TOPS. Geophys. Res. Lett. 2016;43 (9):4586-4593.
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  7. Jackson R, McFarquhar G, Fridlind A, Atlas R. DEPENDENCE OF CIRRUS GAMMA SIZE DISTRIBUTIONS EXPRESSED AS VOLUMES IN N-0-LAMBDA-MU PHASE SPACE AND BULK CLOUD PROPERTIES ON ENVIRONMENTAL CONDITIONS: RESULTS FROM THE SMALL ICE PARTICLES IN CIRRUS EXPERIMENT (SPARTICUS). J. Geophys. Res.-Atmos. 2015;120 (19):27.
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  8. Fridlind A, Ackerman A, Grandin A, Dezitter F, Weber M, Strapp J, Korolev A, Williams C. HIGH ICE WATER CONTENT AT LOW RADAR REFLECTIVITY NEAR DEEP CONVECTION - PART 1: CONSISTENCY OF IN SITU AND REMOTE-SENSING OBSERVATIONS WITH STRATIFORM RAIN COLUMN SIMULATIONS. Atmos. Chem. Phys. 2015;15 (20):11713-11728.
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  9. Ackerman A, Fridlind A, Grandin A, Dezitter F, Weber M, Strapp J, Korolev A. HIGH ICE WATER CONTENT AT LOW RADAR REFLECTIVITY NEAR DEEP CONVECTION - PART 2: EVALUATION OF MICROPHYSICAL PATHWAYS IN UPDRAFT PARCEL SIMULATIONS. Atmos. Chem. Phys. 2015;15 (20):11729-11751.
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  10. Mrowiec A, Pauluis O, Fridlind A, Ackerman A. PROPERTIES OF A MESOSCALE CONVECTIVE SYSTEM IN THE CONTEXT OF AN ISENTROPIC ANALYSIS. J. Atmos. Sci. 2015;72 (5):1945-1962.
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  11. Vogelmann A, Fridlind A, Toto T, Endo S, Lin W, Wang J, Feng S, Zhang Y, Turner D, Liu Y, Li Z, Xie S, Ackerman A, Zhang M, Khairoutdinov M. RACORO CONTINENTAL BOUNDARY LAYER CLOUD INVESTIGATIONS: 1. CASE STUDY DEVELOPMENT AND ENSEMBLE LARGE-SCALE FORCINGS. J. Geophys. Res.-Atmos. 2015;120 (12):5962-5992.
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  12. Endo S, Fridlind A, Lin W, Vogelmann A, Toto T, Ackerman A, McFarquhar G, Jackson R, Jonsson H, Liu Y. RACORO CONTINENTAL BOUNDARY LAYER CLOUD INVESTIGATIONS: 2. LARGE-EDDY SIMULATIONS OF CUMULUS CLOUDS AND EVALUATION WITH IN SITU AND GROUND-BASED OBSERVATIONS. J. Geophys. Res.-Atmos. 2015;120 (12):5993-6014.
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  13. Lin W, Liu Y, Vogelmann A, Fridlind A, Endo S, Song H, Feng S, Toto T, Li Z, Zhang M. RACORO CONTINENTAL BOUNDARY LAYER CLOUD INVESTIGATIONS: 3. SEPARATION OF PARAMETERIZATION BIASES SINGLE-COLUMN MODEL CAM5 SIMULATIONS OF SHALLOW CUMULUS. J. Geophys. Res.-Atmos. 2015;120 (12):6015-6033.
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  14. Wang S, Sobel A, Fridlind A, Feng Z, Comstock J, Minnis P, Nordeen M. SIMULATIONS OF CLOUD-RADIATION INTERACTION USING LARGE-SCALE FORCING DERIVED FROM THE CINDY/DYNAMO NORTHERN SOUNDING ARRAY. J. Adv. Model. Earth Syst. 2015;7 (3):1472-1498.
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  15. Varble A, Zipser E, Fridlind A, Zhu P, Ackerman A, Chaboureau J, Fan J, Hill A, Shipway B, Williams C. EVALUATION OF CLOUD-RESOLVING AND LIMITED AREA MODEL INTERCOMPARISON SIMULATIONS USING TWP-ICE OBSERVATIONS: 2. PRECIPITATION MICROPHYSICS. J. Geophys. Res.-Atmos. 2014;119 (24):13919-13945.
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  16. Varble A, Zipser E, Fridlind A, Zhu P, Ackerman A, Chaboureau J, Collis S, Fan J, Hill A, Shipway B. EVALUATION OF CLOUD-RESOLVING AND LIMITED AREAMODEL INTERCOMPARISON SIMULATIONS USING TWP-ICE OBSERVATIONS: 1. DEEP CONVECTIVE UPDRAFT PROPERTIES. J. Geophys. Res.-Atmos. 2014;119 (24):13891-13918.
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  17. Petch J, Hill A, Davies L, Fridlind A, Jakob C, Lin Y, Xie S, Zhu P. EVALUATION OF INTERCOMPARISONS OF FOUR DIFFERENT TYPES OF MODEL SIMULATING TWP-ICE. Q. J. R. Meteorol. Soc. 2014;140 (680):826-837.
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  18. Ovchinnikov M, Ackerman A, Avramov A, Cheng A, Fan J, Fridlind A, Ghan S, Harrington J, Hoose C, Korolev A, McFarquhar G, Morrison H, Paukert M, Savre J, Shipway B, Shupe M, Solomon A, Sulia K. INTERCOMPARISON OF LARGE-EDDY SIMULATIONS OF ARCTIC MIXED-PHASE CLOUDS: IMPORTANCE OF ICE SIZE DISTRIBUTION ASSUMPTIONS. J. Adv. Model. Earth Syst. 2014;6 (1):223-248.
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  19. van Diedenhoven B, Fridlind A, Cairns B, Ackerman A. VARIATION OF ICE CRYSTAL SIZE, SHAPE, AND ASYMMETRY PARAMETER IN TOPS OF TROPICAL DEEP CONVECTIVE CLOUDS. J. Geophys. Res.-Atmos. 2014;119 (20):11809-11825.
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  20. Rio C, Grandpeix J, Hourdin F, Guichard F, Couvreux F, Lafore J, Fridlind A, Mrowiec A, Roehrig R, Rochetin N, Lefebvre M, Idelkadi A. CONTROL OF DEEP CONVECTION BY SUB-CLOUD LIFTING PROCESSES: THE ALP CLOSURE IN THE LMDZ5B GENERAL CIRCULATION MODEL. Clim. Dyn. 2013;40 (9-10 SI):2271-2292.
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