Profile for Elena Georgieva
|Title:||Associate Research Scientist|
GSFC, bld.33, room D304
Greenbelt, MD 20771
Office Phone: 1 301-614-6523
Fax: 1 301-614-5903
Updates to our publications records have been put on hold until a new storage and delivery system has been put in place. As a result, this information is currently out of date and does not include the most recent publications. For a more complete listing of publications, please visit the Sciences and Exporation Directorate.
Georgieva, E.M., W. S. Heaps, and W. Huang (2011). New Broadband LIDAR for Greenhouse Carbon Dioxide Gas Sensing in the Earth’s Atmosphere”, SPIE, Conference on Lidar Technologies Techniques and Measurements for Atmospheric Remote Sensing, VII(Sept. 19-20)
Wilson, E., M. Neveu, H. Riris, E.M. Georgieva, and W. Heaps (2011). A hollow-waveguide gas correlation radiometer for ultra-precise column measurements of formaldehyde on Mars Meas. Sci. Tech., 22(No. 8).
Georgieva, E.M., W. S. Heaps, and E. L. Wilson (2008). Differential Radiometers using Fabry-Perot Interferometric Technique for Remote Sensing of Greenhouse Gases IEEE Transactions on Geosci. and Remote Sens. (TGARS), 46(10), 3115-3122
Heaps, W. S., E. L. Wilson, and E.M. Georgieva (2008). Precision Measurement of Atmospheric Trace Constituents Using a Compact Fabry-Perot Radiometer Intern'l J. High Speed Electronics and Systems (IJHSES), 18(3), 601-612
Wilson, E. L., E.M. Georgieva, and W. S. Heaps (2007). ‘’Development of a Fabry-Perot interferometer for ultra-precise measurements of column CO2 ‘ Meas. Sci. ec., 18, 1495-1502
Georgieva, E.M., E. L. Wilson, M. Miodek, and W. S. Heaps (2006). Total Column Oxygen Detection Using Fabry-Perot Interferometer Optical Engr., 45(11), 115001
Baskal, S., E.M. Georgieva, Y. S. Kim, and M. E. Noz (2004). Lorentz group in classical ray optics J. of Optics B - Quantum and Semiclassical Optics, 6(6)(6), 455-472
Başkal, Sibel, E.M. Georgieva, and Noz, Marilyn E (2004). Lorentz group in classical ray optics J. of Optics B - Quantum and Semiclassical Optics, 6(6), 455-472
Georgieva, E.M., and Y. S. Kim (2003). Slide-rule-like property of Wigner's little groups and cyclic S matrices for multilayer optics“ Physical Review E, 68(No. 2).
van Keuren, E, E.M. Georgieva, and M. Durst (2003). Kinetics of the Growth of Anthracene Nanoparticles J. of Dispersion Science and Technology, 24(5).
Perez-Salas, U.A., S. Krueger, S. Woodson, P. Rangan, E.M. Georgieva, D. Thirumalal, and R. M. Briber (2002). Folding pathways of RNA by cation binding: Part 2 Biophysical Journal, 82(1), 644
Perez-Salas, U.A., Krueger, S., Woodson, S., Rangan, P., E.M. Georgieva, Thirumalai. D., and Briber, R. M. (2002). Folding pathways of RNA by cation binding: Part 2 Biophysical Journal, 82(1), 644
Briber, R. M., D. Thirumalai, S. A. Woodson, P. Rangan, S. Krueger, U. Perez-Salas, D. A. Newmann, and E.M. Georgieva (2001). Effect of Counterions on Azoarcus Ribozyme Folding NIST, Annual Report
Briber, R. M., D. Thirumalai, S. A. Woodson, P. Rangan, S. Krueger, U. Perez-Salas, and E.M. Georgieva (2001). Effect of Counterions on Tetrahymena and yeast tRNA Ribozyme Folding NIST, Annual Report
Georgieva, E.M., and Y. S. Kim (2001). Iwasawa Effects in Multi-layer Optics Physical Review E, 64, No. 2.
van Keuren, E., E.M. Georgieva, and J. Adrian (2001). Kinetics of the formation of organic molecular nanocrystals Nano Letters, 1, No. 3, 141-144
Georgiev, G., E.M. Georgieva, and L. Konstantinov (1999). Angular and power characteristics of noncollinear acousto-optic tunable filters Optics and Lasers in Engr., 31, No. 1, 1-12
Georgieva, E.M., I. Lalov, and M. Gospodinov (1998). The Mueller reflection matrix of isotropic chiral specimen Optics, 109, No. 4, 173-176
Lalov, L., and E.M. Georgieva (1997). Multibeam interference, total internal reflection and optical activity J. Modern Optics, 44, No. 2, 265-278
Georgieva, E.M. (1995). Integration between science, technology and society in the knowledge of six-grade students Pedagovika, 4, No. 8, 65-73
Georgieva, E.M. (1995). Reflection and refraction at the surface of an isotropic chiral medium: Eigenvalues - eigenvectors solution, using a 4 x 4 matrix method J. Opt. Soc. Am. A, 12, No. 10, 2203-2211
Lalov, L., and E.M. Georgieva (1995). Optically active absorptive Fabry-Perot etalon J. Modern Optics, 42, No. 8, 1713-1723
Georgieva, E.M., and G. Georgiev (1993). Measurement of the 2f signal of electrogyration in centrosymmetric crystals Optics, Communications, 104, No. 12, 57-60
Georgieva, E.M., and G. Georgieva (1993). Method for studying the electro-optic effect of isotropic crystals: Stokes-Mueller analysis of the method - experimental results Review of Scientific Instruments, 64, No. 11, 3206-3208
Georgieva, E.M. (1991). ., Jones and Mueller matrices for specular reflection from a chiral medium: determination of the basic chiral parameters using the elements of the Mueller matrix and experimental configurations to measure the basic chiral parameters Applied Optics, 30, No. 34, 5081-5085
Georgieva, E.M. (1991). Experimental determination of the refractive index of solids by reflection Experimentelle Technik der Physik, 39, No. 2, 111-114