* Papers involved in developing methodology and/or techniques geared toward ELDORA applications.
1991:
[1] Girardin-Gondeau, J., F. Baudin, and J. Testud, 1991: Comparison of various coded waveforms for an airborne meteorological Doppler radar, J. Atmos. Oceanic Technol., 8, 234-246.
1994:
[2] Hildebrand, P. H., C. L. Frush, and C. Walther, 1994: Design of the ELDORA/ASTRAIA airborne Doppler weather radar: Goals, design, and first field test. Proc. IEEE, 82, 1873-1890.
[3] Lee, W.-C., P. Dodge, F. D. Marks, and P. H. Hildebrand, 1994: Mapping of the airborne Doppler radar data. J. Atmos. Oceanic Technol., 11, 572-578.
1995:
[4] *Kabèche, A., and J. Testud, 1995: Stereoradar meteorology : a new unified approach to process data from airborne or ground-based meteorological radars, J. Atmos. Oceanic, Technol. 12,, 783-799.
[5] *Testud, J., P. H. Hildebrand, and W.-C. Lee, 1995: A procedure to correct airborne Doppler radar data for navigation errors, using the echo returned from the earth surface. J. Atmos. Oceanic Technol., 12, 800-820.
1996:
[6] *Chong, M., C. Campos, 1996: Extended over-determined dual-Doppler formalism in synthesizing airborne Doppler radar data. J. Atmos. Ocean. Technol., 13, 581-597.
[7] *Chong, M., and J. Testud, 1996: Three-dimensional air circulation in a squall line from airborne dual-beam Doppler radar : a test of coplan methodology software, J. Atmos. Oceanic Technol. 13, 36-53.
[8] Hildebrand, P. H., W.-C. Lee, C. A. Walther, C. Frush, M. Randall, E. Loew, R. Neitzel, R. Parsons, J. Testud, F. Baudin, and A. LeCornec, 1996: The ELDORA/ASTRAIA airborne Doppler weather radar: High resolution observations from TOGA COARE. Bull. Amer. Metoro. Soc., 77, 213-232.
[9] Hildebrand, P. H., and W.-C. Lee, 1996: Reply to Comments on “The ELDORA/ASTRAIA airborne Doppler weather radar: High resolution observations from TOGA COARE,” Bull. Amer. Metoro. Soc., 77, 2950-2952.
[10] Vonnegut, B., and J. E. Molinari, 1996: Comments on “The ELDORA/ASTRAIA airborne Doppler weather radar: High resolution observations from TOGA COARE,” Bull. Amer. Metoro. Soc., 77, 2949-2950.
[11] Wakimoto, R. M., W.-C. Lee, H. B. Bluestein, C.-H. Liu, P. H. Hildebrand, 1996: ELDORA observations during VORTEX 95. Bull. Amer. Metoro. Soc., 77, 2949-2950.
1997:
[12] Bluestein, H. B., S. G. Gaddy, D. C. Dowell, A. L. Pazmany, J. C. Galloway, and R. E. McIntosh, 1997: Doppler radar observations of substorm-scale vortices in a supercell. Mon. Wea. Rev., 125, 1046-1059.
[13] *Testud J. et S. Oury: 1997: Algorithme de correction d'atténuation pour radar météorologique, C.R.Acad.Sci.Paris, t324, série2a, p. 705-710.
[14] Verlinde, J., 1997: Airborne Doppler radar analysis of a TOGA COARE waterspout storm. Mon. Wea. Rev., 125, 3008-3017.
1998:
[15] Atkins, N. T., R. M. Wakimoto, and C. L. Ziegler, 1998: Observations of the finescale structure of a dryline during VORTEX 95. Mon. Wea. Rev., 126, 525-550.
[16] *Bousquet, O., M. Chong, 1998: A multiple-Doppler synthesis and continuity adjustment technique (MUSCAT) to recover wind components from Doppler radar mesaurements. J. Atmos. Ocean. Technol., 15, 343-359.
[17] Hildebrand, P. H., 1998: Shear-parallel moist convection over the tropical ocean. Mon. Wea. Rev., 126, 1952-1976.
[18] Roux, F., 1998: The oceanic mesoscale convective system observed with airborne Doppler radars on 9 February 1993 during TOGA-COARE: Structure, evolution, heat and momentum budgets. Quart. J. Roy. Meteor. Soc., 124, 585-614.
[19] Wakimoto, R. M., C.-H. Liu, and H.-Q. Cai, 1998: The Garden City, Kansas, storm during VORTEX 95, Part I: Overview of the storm’s life cycle and mesocyclogenesis. Mon. Wea. Rev., 126, 372-392.
[20] Wakimoto, R. M., and C.-H. Liu, 1998: The Garden City, Kansas, storm during VORTEX 95, Part II: The wall cloud and tornado. Mon. Wea. Rev., 126, 393-403.
1999:
[21] Bielli, S., and F. Roux, 1999: Initialization of a non-hydrostatic cloud model with wind and reflectivity fields derived from airborne Doppler radar data. Mon. Wea. Rev., 127, 1038-1055.
[22] Neiman, P. J., and R. M. Wakimoto, 1999: The interaction of a pacific cold front with shallow air masses east of the Rocky Mountains. Mon. Wea. Rev., 127, 2102-2127.
[23] Oury S., J. Testud et V. Marécal, 1999: Estimate of precipitation from the dual beam airborne radar in TOGA-COARE. Part 1: The K-Z relationships derived from the Stereo- and Quad beam analysis. J. Appl. Meteoro., 38, 156-174.
2000:
[24] Atlas, D., C.W. Ulbrich, F.D. Marks, R.A. Black, P.T. Willis, and C. E. Samsury, 2000: Partitioning tropical oceanic convective and stratiform rains by draft strength. J. Geophys. Res., 105, 2259-2267.
[25] *Georgis, J.-F., F. Roux, and P. H. Hildebrand, 2000: Observation of precipitating systems over complex orography with meteorological Doppler radars: A feasibility study. Meteor. Atmos. Phys., 72, 185-202.
[26] *Oury S., J. Testud and X.-K. Dou, 2000: Estimate of Precipitation from the Dual Beam Airborne Radars in Toga-Coare. Part 2: Precipitation Efficiency in Convective Cells. Case Study of 9Th. February 1993, J. Appl. Meteor. 39, 2371-2384.
[27] Wakimoto, R. M., and H.-Q. Cai, 2000: Analysis of a nontornadic storm during VORTEX 95. Mon. Wea. Rev., 128, 565-592.
[28] Wakimoto, R. M., and B. L. Bosart, 2000: Airborne radar observations of a cold front during FASTEX. Mon. Wea. Rev., 128, 2447-2470.
2001:
[29] Bluestein, H. B., and S. G. Gaddy, 2001: Airborne pseudo-dual-Doppler analysis of a rear-inflow jet and deep convergence zone within a supercell. Mon. Wea. Rev., 129, 2270-2289.
[30] Cai, H.-C., and R. M. Wakimoto, 2001: Retrieved pressure field and its influence on the propagation of a supercell thunderstorm. Mon. Wea. Rev., 129, 2695-2713.
[31] Wakimoto, R. M., B. L. Bosart, 2001: Airborne radar observations of a warm front during FASTEX. Mon. Wea. Rev., 129, 254-274.
[32] Winstead, N. S., J. Verlinde, S. T. Arthur, F. Jaskiewicz, M. Jensen, N. Miles, and D. Nicosia, 2001: High-resolution airborne radar observations of mammatus. Mon. Wea. Rev., 129, 159-166
2002:
[33] *Bosart, B. L., W.-C. Lee, and R. M. Wakimoto, 2001: Procedures to improve the accuracy of airborne Doppler radar data. J. Atmos. Oceanic Technol., 19, 322-339.
[34] Wakimoto, R. M., H. Q. Cai, 2002: Airborne Observations of a Front near a Col during FASTEX. Mon. Wea. Rev., 130, 1898-1912.
[35] Weiss, C. C., and H. B. Bluestein, 2002: Airborne Pseudo–Dual
Doppler Analysis of a Dryline–Outflow Boundary Intersection.
Mon. Wea. Rev., 130, 1207-1226.
[36] Bluestein, Howard B., Wakimoto, Roger M. 2003:
Mobile Radar Observations of Severe Convective Storms. Meteorological
Monographs, 30, 105–105.
2003:
[37] Bousquet, Olivier, Smull, Bradley F. 2003:
Airflow and
Precipitation
Fields within Deep Alpine Valleys Observed by Airborne Doppler Radar.
J. App. Met., 42, 1497–1513.
[38] Kristovich, David A. R., Laird, Neil F., Hjelmfelt, Mark R. 2003: Convective Evolution across Lake Michigan during a Widespread Lake-Effect Snow Event. Mon. Wea. Rev., 131, 643–655.
[39] Scialom, G., Protat, A., Lemaître, Y. 2003: Retrieval of Kinematic Fields from Dual-Beam Airborne Radar Data Gathered in Circular Trajectories during the FASTEX Experiment J. Atmos. Ocean. Technol.,20, 630–646.
[40]
Wakimoto, Roger M., Murphey, Hanne V., Dowell, David C.,
Bluestein,
Howard B. 2003:
The Kellerville Tornado during VORTEX: Damage Survey and Doppler Radar
Analyses.
Mon. Wea. Rev., 131, 2197–2221.
2004:
[41] Davis, C. N. Atkins, D. Bartels, L. Bosart, M. Coniglio, G. Bryan, W. Cotton, D. Dowell, B. Jewett, R. Johns, D. Jorgensen, J. Knievel, K. Knupp, W.-C. Lee, G. Mcfarquhar, J. Moore, R. Przybylinski, R. Rauber, B. Smull, R. Trapp, S. Trier, R. Wakimoto, M. Weisman and C. Ziegler. 2004: The Bow Echo and MCV Experiment: Observations and Opportunities. Bull. Amer. Meteor. Soc., 85, 1075–1093.
[42] Wakimoto, R. M., H. Cai and H. V. Murphey. 2004: The Superior, Nebraska, Supercell During BAMEX. Bull. Amer. Meteor. Soc., 85, 1095–1106.
[43] Wakimoto, R. M., H. V. Murphy and H. Cai. 2004: The San Angelo, Texas, Supercell of 31 May 1995: Visual Observations and Tornadogenesis. Mon. Wea. Rev., 132, 1269–1293.
[44] Wakimoto, R. M., H. V. Murphey, R. G. Fovell and W.-C. Lee. 2004: Mantle Echoes Associated with Deep Convection: Observations and Numerical Simulations. Mon. Wea. Rev., 132, 1701–1720.
2005:
[45] Cai, H. 2005: Comparison between Tornadic and Nontornadic Mesocyclones Using the Vorticity (Pseudovorticity) Line Technique. Mon. Wea. Rev., 133, 2535–2551.
2006:
[46] Cai, H., W.-C. Lee, T. M. Weckwerth, C. Flamant and H. V. Murphey. 2006: Observations of the 11 June Dryline during IHOP_2002ŅA Null Case for Convection Initiation.Mon. Wea. Rev., 134,336–354.
[47] Murphey, H. V., R. M. Wakimoto, C. Flamant and D. E. Kingsmill. 2006: Dryline on 19 June 2002 during IHOP. Part I: Airborne Doppler and LEANDRE II Analyses of the Thin Line Structure and Convection Initiation. Mon. Wea. Rev., 134, 406–430.
[48] Wakimoto, R.M., H. V. Murphey, E. V. Browell and S. Ismail. 2006: The "Triple Point" on 24 May 2002 during IHOP. Part I: Airborne Doppler and LASE Analyses of the Frontal Boundaries and Convection Initiation. Mon. Wea. Rev., 134, 231–250.