Poster Session 2 |
| | Poster Session 2 |
| | Chair: Martin J. Murphy, Vaisala, Tucson, AZ
|
| | P2.1 | The North Alabama Lightning Mapping Array (LMA): A network overview
Richard J. Blakeslee, NASA/MSFC, Huntsville, AL; and J. C. Bailey, D. E. Buechler, S. J. Goodman, E. W. McCaul, and J. M. Hall |
| | P2.2 | LIGHTNING MEASUREMENTS OVER BRAZIL: ASSEMENT OF DIFFERENT LIGHTNING DETECTION SYSTEMS
Carlos Morales, University of Sao Paolo, Sao Paulo, 05508-900, Sao Paulo, Brazil; and O. Pinto and E. N. Anagnostou |
| | P2.3 | Mapping lightning at White Sands - a first look.
Daniel Breed, NCAR, Boulder, CO; and C. Mueller, T. Saxen, and N. Oien |
| | P2.4 | Installation, Upgrade, and Evaluation of a Short Baseline Cloud-to-Ground Lightning Surveillance System used to Support Space Launch Operations 
Billie F. Boyd, 45th Weather Squadron, Patrick AFB, FL; and W. P. Roeder, D. L. Hajek, and M. B. Wilson |
| | P2.5 | VHF lightning detection and storm tracking from GPS orbit
David M. Suszcynsky, LANL, Los Alamos, NM; and A. R. Jacobson, J. Linford, T. E. Light, and A. Musfeldt |
| | P2.6 | The United States Precision Lightning Network:A new era in lightning detection technologies
Rodney B. Bent, TOA Systems, Inc., Melbourne, FL; and M. D. Eilts |
| | P2.7 | Idealized Numerical Simulation of the Evolution of Tropical Cyclone Electrification, Lightning, Microphysics, and Kinematics at Landfall
Alexandre O. Fierro, Univ. of Oklahoma, Norman, OK; and L. M. Leslie, E. R. Mansell, and J. Straka |
| | P2.8 | Long-Range lightning applications for hurricane intensity
Nicholas W. S. Demetriades, Vaisala, Inc., Tucson, AZ; and R. L. Holle |
| | P2.9 | Re-construction of historical extreme precipitation events using radar, cloud-to-ground lightning and conventional observations
John F. Henz, HDR Engineering, Inc; Denver, Colorado, Denver, CO |
| | P2.10 | Incorporating lightning data into a real-time infrared/microwave satellite precipitation algorithm
Robert J. Kuligowski, NOAA/NESDIS, Camp Springs, MD; and J. S. Im |
| | P2.11 | Convective Precipitation and Cloud-to-Ground Lightning Relationships in Canada
B. Kochtubajda, MSC, Edmonton, AB, Canada; and W. R. Burrows and M. Lapalme |
| | P2.12 | The Influence of the El Niņo -Southern Oscillation on Cloud-to-Ground Lightning Activity along the Gulf Coast of the United States
Mark LaJoie, NPS, Monterey, CA; and A. Laing, S. Reader, and K. Pfeiffer |
| | P2.13 | Examination of thundersnow cases in the United States utilizing NLDN data
Larry Smith, University of Missouri, Columbia, MO; and C. J. Melick and P. S. Market |
| | P2.14 | Alaska lightning climatology and application to wildfire science
Elaine McGuiney, Penn State University, State College, PA; and M. Shulski and G. Wendler |
| | P2.15 | The impact of lightning NOx production on atmospheric chemistry in a CRYSTAL-FACE thunderstorm simulated using a 3-D cloud-scale chemical transport model
L. Ott, Department of Meteorology, University of Maryland, College Park, MD; and K. Pickering, G. Stenchikov, R. -. F. Lin, B. Ridley, M. Loewenstein, J. Lopez, and E. Richard |
| | P2.16 | Lightning characteristics of the Aurora, NE record hail stone producing supercell of 22-23 June 2003 during BAMEX
Walter A. Lyons, FMA Research, Inc., Fort Collins, CO; and S. A. Cummer |
| | P2.17 | Cloud-to-ground lightning behavior of convective cells observed during STEPS
Sarah A. Tessendorf, Colorado State University, Fort Collins, CO; and S. A. Rutledge |