Burke, E. R., R. D. Gomez, A. A. Adly, and I. D. Mayergoyz,
"Tunneling magnetic force microscopy",
Technology 2002: The Third National Technology Transfer Conference and Exposition, Volume 2, vol. 2, pp. 429–438, 1993.
Abstractn/a
Meselhy, M. R., S. KADOTA, Y. Momose, N. HATAKEYAMA, A. KUSAI, M. Hattori, and T. NAMBA,
"Two new quinochalcone yellow pigments from Carthamus tinctorius and Ca2+ antagonistic activity of tinctormine",
Chemical and pharmaceutical bulletin, vol. 41, issue 10: The Pharmaceutical Society of Japan, pp. 1796-1802, 1993.
Abstractn/a
Elnagar, S., M. A. K. El-Sheikh, A. S. Ela, and E. S. Salamouny,
"Two polyhedrosis viruses from two semiloopers in Egypt.",
Bull. ent. Soc. Egypt, Econ Ser.,, vol. 20, pp. 25-37, 1993.
Abstractn/a
MANSOUR, M. S.,
"Two-plane two-dimensional Rayleigh thermometry technique for turbulent combustion",
Optics Letters, vol. 18, no. 7, pp. 537-539, 1993.
AbstractA two-plane two-dimensional UV Rayleigh thermometry is presented for turbulent premixed methane flame. Advantages of UV excimer lasers over visible lasers are studied for Rayleigh scattering. Applications of this technique to three dimensional structure of the reaction zone in turbulent flames is suggested.
Mansour, M. S.,
"Two-plane two-dimensional Rayleigh thermometry technique for turbulent combustion",
Optics Letters, vol. 18, no. 7, pp. 537-539, 1993.
AbstractA two-plane two-dimensional Rayleigh thermometry technique is presented for measurements in turbulent hydrocarbon flames. UV Rayleigh thermometry is used in this technique for what is to the author’s knowledge the first time. It shows the advantages of using UV excimer lasers rather than visible lasers for Rayleigh scattering. The present technique is useful for studying the three-dimensional structure of the reaction zone in turbulent flames. © 1993 Optical Society of America.
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