AN ANALYSIS OF SHORT PULSE AND DUAL FREQUENCY RADAR TECHNIQUES FOR MEASURING OCEAN WAVE SPECTRA FROM SATELLITESJACKSON FC.1981; RADIO SCI.; ISSN 0048-6604; USA; DA. 1981; VOL. 16; NO 6; PP. 1385-1400; BIBL. 17 REF.Article

ANTENNA BEAM PATTERNS AND DUAL-WAVELENGTH PROCESSINGRINEHART RE; TUTTLE JD.1982; JOURNAL OF APPLIED METEOROLOGY; ISSN 0021-8952; USA; DA. 1982; VOL. 21; NO 12; PP. 1865-1880; BIBL. 22 REF.Article

SIMULTANEOUS NITROGEN-14 AND COBALT-59 DECOUPLING FROM PROTONSBRAMLEY R; PEPPERCORN AE; WHITTAKER MJ et al.1979; J. MAGNET. RESON.; USA; DA. 1979; VOL. 35; NO 1; PP. 139-144; BIBL. 6 REF.Article

ELECTROMAGNETIC SCALE MODEL STUDY OF THE DUAL FREQUENCY DIFFERENCING TECHNIQUE = UN MODELE ELECTROMAGNETIQUE A L'ECHELLE D'UNE TECHNIQUE DE DIFFERENCIATION DES FREQUENCES DOUBLESOLM MARK C.1981; ; USA; DA. 1981; MASTER'S/COLORADO SCHOOL OF MINES GOLDEN, COThesis

DUAL-FREQUENCY MICROWAVE BACKSCATTER FROM THE OCEAN AT LOW GRAZING ANGLES: COMPARISON WITH THEORYSCHULER DL; PLANT WJ; ENG WP et al.1982; INTERNATIONAL JOURNAL OF REMOTE SENSING; ISSN 0143-1161; GBR; DA. 1982; VOL. 3; NO 4; PP. 363-371; BIBL. 9 REF.Article

Enhancement of the efficiency of second-harmonic generation in a microlaserZOLOTOVERKH, I. I; KRAVTSOV, N. V; LARIONTSEV, E. G et al.Quantum electronics (Woodbury). 2000, Vol 30, Num 7, pp 265-266, issn 1063-7818Article

MEASUREMENTS OF OCEAN SURFACE SPECTRUM FROM AN AIRCRAFT USING THE TWO-FREQUENCY MICROWAVE RESONANCE TECHNIQUEJOHNSON JW; WEISSMAN DE; JONES WL et al.1982; INTERNATIONAL JOURNAL OF REMOTE SENSING; ISSN 0143-1161; GBR; DA. 1982; VOL. 3; NO 4; PP. 383-407; BIBL. 14 REF.Article

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Frequency-doubling PFM system to prolong the distance of optical fibre TV programme transmissionKAN JIA-XI; LI YU-LIN; GE HUA-AN et al.Optical and quantum electronics. 1986, Vol 18, Num 5, pp 375-379, issn 0306-8919Article

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Dynamics of injection locking in a solid-state laser with intracavity second-harmonic generationZOLOTOVERKH, I. I; LARIONTSEV, E. G.Quantum electronics (Woodbury). 2000, Vol 30, Num 9, pp 787-790, issn 1063-7818Article

Engineering of an optical instabilities by cascaded nonlinearitiesKRYUCHKYAN, G. Yu; MURADYAN, N. T.New trends in atomic and molecular spectroscopy. SPIE proceedings series. 2000, pp 56-62, isbn 0-8194-3689-5Book Chapter

Model for fabricating close-coupling pumped microchip lasersLIU, Jin-Gang; TAM, Siu-Chung; LAM, Yee-Loy et al.SPIE proceedings series. 2000, pp 315-322, isbn 0-8194-3900-2Conference Paper

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Compact corner-pumped Nd:YAG/YAG composite slab laserLIU, H; GONG, M.Optics communications. 2010, Vol 283, Num 6, pp 1062-1066, issn 0030-4018, 5 p.Article

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High-power continuous wave green beam generation by use of simple linear cavity with side-pumped moduleZHANG, Y. P; ZHAO, X. D; ZHANG, H. Y et al.Optics communications. 2010, Vol 283, Num 24, pp 5161-5164, issn 0030-4018, 4 p.Article

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All-solid-state continuous-wave frequency-doubled Nd:YAG/LBO laser with 1.2 W output power as 561 nmYAO, Y; ZHENG, Q; QU, D. P et al.Laser physics letters (Print). 2010, Vol 7, Num 2, pp 112-115, issn 1612-2011, 4 p.Article

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Single-frequency intracavity doubled Yb:YAG ring laserOKHAPKIN, M. V; SKVORTSOV, M. N; KVASHNIN, N. L et al.Optics communications. 2005, Vol 256, Num 4-6, pp 347-351, issn 0030-4018, 5 p.Article

Diode-pumped Pr:YAP lasersFIBRICH, M; JELINKOVA, H; SULC, J et al.Laser physics letters (Print). 2011, Vol 8, Num 8, pp 559-568, issn 1612-2011, 10 p.Article

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