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POWER GENERATION AND EFFICIENCY IN GAAS TRAVELING-WAVE AMPLIFIERS.GIANNINI F; SALSANO A.1975; I.E.E.E. TRANS. MICROWAVE THEORY TECH.; U.S.A.; DA. 1975; VOL. 23; NO 5; PP. 449-452; BIBL. 8 REF.Article

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EIN GLEICHSTROMGEPUMPER JOSEPHSON-WANDERWELLEN-VERSTAERKER. = AMPLIFICATEUR JOSEPHSON A ONDES PROGRESSIVES ET POMPAGE EN COURANT CONTINURUSSER P.1977; WISSENSCH. BER. A.E.G.-TELEFUNKEN; DTSCH.; DA. 1977; VOL. 50; NO 4-5; PP. 171-182; ABS. ANGL.; BIBL. 58 REF.Article

DETERMINATION DE L'EFFICACITE D'INTRODUCTION DES ELEMENTS ACTIFS DANS LA LIGNE DE TRANSMISSION DE L'AMPLIFICATEUR PARAMETRIQUE A ONDE PROGRESSIVEGLUSHAK NS; KEJS VN; KOZYREV AB et al.1974; IZVEST. VYSSH. UCHEBN. ZAVED., RADIOELEKTRON.; S.S.S.R.; DA. 1974; VOL. 17; NO 10; PP. 108-110; BIBL. 8 REF.Article

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THE GAAS TRAVELING-WAVE AMPLIFIER AS A NEW KIND OF MICROWAVE TRANSISTORDEAN RH; MATARESE RJ.1972; PROC. I.E.E.E.; U.S.A.; DA. 1972; VOL. 60; NO 12; PP. 1486-1502; BIBL. 21 REF.Serial Issue

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SOLID-STATE TRAVELLING-WAVE AMPLIFICATION IN THE COLLISIONIESS REGIME.GOVER A; BURRELL KH; YARIV A et al.1974; J. APPL. PHYS.; U.S.A.; DA. 1974; VOL. 45; NO 11; PP. 4847-4851; BIBL. 11 REF.Article

THEORY OF A SLOW WAVE CYCLOTRON AMPLIFIERCHU KR; GANGULY AK; GRANATSTEIN VL et al.1981; INT. J. ELECTRON. THEOR. EXP.; ISSN 0020-7217; GBR; DA. 1981; VOL. 51; NO 4; PP. 493-502; BIBL. 18 REF.Article

PROPOSALS AND ANALYSES ON LASER AMPLIFIER BASED INTEGRATED OPTICAL CIRCUITSOTSUKA K.1981; IEEE J. QUANTUM ELECTRON.; ISSN 0018-9197; USA; DA. 1981; VOL. 17; NO 1; PP. 23-28; BIBL. 8 REF.Article

CHARACTERISTICS AND OPTIMUM OPERATING PARAMETERS OF A GYROTRON TRAVELING WAVE AMPLIFIERCHU KR; DROBOT AT; GRANATSTEIN VL et al.1979; I.E.E.E. TRANS. MICROWAVE THEORY TECH.; USA; DA. 1979; VOL. 27; NO 2; PP. 178-187; BIBL. 35 REF.Article

CONTRIBUTION A L'ETUDE D'UN AMPLIFICATEUR A ONDES PROGRESSIVES A ETAT SOLIDE.FOUAD HANNA MEKHAIL V.1975; AO-CNRS-13120; FR.; DA. 1975; PP. (154P.); BIBL. 7 P. 1/2; (THESE DOCT. SCI., MENTION PHYS.; INST. NATL. POLYTECH. TOULOUSE)Thesis

Gain and noise characteristics of a 1.5 μm near-travelling-wave semiconductor laser amplifierSIMON, J.-C; DOUSSIERE, P; POPHILLAT, L et al.Electronics Letters. 1989, Vol 25, Num 7, pp 434-436, issn 0013-5194, 3 p.Article

A high-efficiency traveling-wave power amplifier topology using improved power-combining techniquesSHAPIRO, E. S; JIAN XU; NAGRA, A. S et al.IEEE microwave and guided wave letters. 1998, Vol 8, Num 3, pp 133-135, issn 1051-8207Article

Confinement factors and gain in optical amplifiersVISSER, T. D; BLOK, H; DEMEULENAERE, B et al.IEEE journal of quantum electronics. 1997, Vol 33, Num 10, pp 1763-1766, issn 0018-9197Article

Limits on amplification of picosecond pulses by using semiconductor laser traveling-wave amplifiersCHANG-HEE LEE; DELFYETT, P. J.IEEE journal of quantum electronics. 1991, Vol 27, Num 5, pp 1110-1114, issn 0018-9197Article

A novel technique for the preservation of gratings in InP and InGAAsP and for the simultaneous preservation of InP, InGaAs, and InGaAsP in OMCVDBHAT, R; KOZA, M. A; ZAH, C. E et al.Journal of crystal growth. 1990, Vol 107, Num 1-4, pp 871-877, issn 0022-0248Conference Paper

Traveling-wave amplifier made from a laser diode arrayANDREWS, J. R.Applied physics letters. 1986, Vol 48, Num 20, pp 1331-1333, issn 0003-6951Article

Applications of traveling-wave laser amplifiers in subcarrier multiplexed lightwave systemsWAY, W. I; CHUNG-EN ZAH; TIEN-PEI LEE et al.IEEE transactions on microwave theory and techniques. 1990, Vol 38, Num 5, pp 534-545, issn 0018-9480, 12 p.Article

THEORY OF INFRARED AND OPTICAL FREQUENCY AMPLIFICATION IN METAL-BARRIER-METAL DIODESDRURY DM; ISHII TK.1979; I.E.E.E. TRANS. MICROWAVE THEORY TECH.; USA; DA. 1979; VOL. 27; NO 6; PP. 598-603; BIBL. 16 REF.Article