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DARKCURRENT AND BREAKDOWN CHARACTERISTICS OF DISLOCATION-FREE INP PHOTODIODESLEE TP; BURRUS CA.1980; APPL. PHYS. LETT.; ISSN 0003-6951; USA; DA. 1980; VOL. 36; NO 7; PP. 587-589; BIBL. 4 REF.Article

FOCUSING EFFECTS IN INTERFEROMETRIC ANALYSIS OF GRADED-INDEX OPTICAL FIBERS.STONE J; BURRUS CA.1975; APPL. OPT.; U.S.A.; DA. 1975; VOL. 14; NO 1; PP. 151-155; BIBL. 6 REF.Article

SINGLE-CRYSTAL FIBER OPTICAL DEVICES: A ND: YAG FIBER LASER.BURRUS CA; STONE J.1975; APPL. PHYS. LETTERS; U.S.A.; DA. 1975; VOL. 26; NO 6; PP. 318-320; BIBL. 7 REF.Article

GROWTH OF SINGLE-CRYSTAL SAPPHIRE-CLAD RUBY FIBERS.BURRUS CA; COLDREN LA.1977; APPL. PHYS. LETTERS; U.S.A.; DA. 1977; VOL. 31; NO 6; PP. 383-384; BIBL. 7 REF.Article

REDUCTION OF THE 1-38-MU M WATER PEAK IN OPTICAL FIBERS BY DEUTERIUM-HYDROGEN EXCHANGESTONE J; BURRUS CA.1980; BELL SYST. TECH. J.; ISSN 0005-8580; USA; DA. 1980; VOL. 59; NO 8; PP. 1541-1548; BIBL. 10 REF.Article

ND: Y₂O₃ SINGLE-CRYSTAL FIBER LASER: ROOM-TEMPERATURE CW OPERATION AT 1.07- AND 1.35-MU M WAVELENGTH.STONE J; BURRUS CA.1978; J. APPL. PHYS.; U.S.A.; DA. 1978; VOL. 49; NO 4; PP. 2281-2287; BIBL. 16 REF.Article

ROOM-TEMPERATURE CONTINUOUS OPERATION OF A RUBY FIBER LASER.BURRUS CA; STONE J.1978; J. APPL. PHYS.; USA; DA. 1978; VOL. 49; NO 6; PP. 3118-3123; BIBL. 13 REF.Article

VIEWING REFRACTIVE-INDEX PROFILES AND SMALL-SCALE INHOMOGENEITIES IN GLASS OPTICAL FIBERS: SOME TECHNIQUES.BURRUS CA; STANDLEY RD.1974; APPL. OPT.; U.S.A.; DA. 1974; VOL. 13; NO 10; PP. 2365-2369; BIBL. 9 REF.Article

LOW-OH MCVD FIBRES WITHOUT A BARRIER LAYER USING OH->OD-EXCHANGED SUBSTRATE TUBESHEN TAI SHANG; STONE J; BURRUS CA et al.1983; ELECTRONICS LETTERS; ISSN 0013-5194; GBR; DA. 1983; VOL. 19; NO 3; PP. 95-96; BIBL. 7 REF.Article

SHORT-ACTIVITY SINGLE-MODE 1.3 MU M INGAASP LASERS WITH EVAPORATED HIGH-REFLECTIVITY MIRRORSBURRUS CA; LEE TP; DENTAI AG et al.1981; ELECTRON. LETT.; ISSN 0013-5194; GBR; DA. 1981; VOL. 17; NO 25-26; PP. 954-956; BIBL. 7 REF.Article

LOW THRESHOLD CURRENT TRANSVERSE JUNCTION LASERS ON SEMI-INSULATING SUBSTRATES BY M.B.E.LEE TP; BURRUS CA; CHO AY et al.1980; ELECTRON. LETTERS; GBR; DA. 1980; VOL. 16; NO 13; PP. 510-511; BIBL. 11 REF.Article

IN GAASP P-I-N PHOTODIODES WITH LOW DARK CURRENT AND SMALL CAPACITANCEBURRUS CA; DENTAI AG; LEE TP et al.1979; ELECTRON. LETTERS; GBR; DA. 1979; VOL. 15; NO 20; PP. 655-657; BIBL. 10 REF.Article

ROOM-TEMPERATURE 1.3 MU M C.W. OPERATION OF A GLASS-CLAD ND: Y.A.G. SINGLE-CRYSTAL FIBRE LASER END PUMPED WITH A SINGLE L.E.D.BURRUS CA; STONE J; DENTAI AG et al.1976; ELECTRON. LETTERS; G.B.; DA. 1976; VOL. 12; NO 22; PP. 600-602; BIBL. 10 REF.Article

OPTICAL GAIN EXCEEDING 35 DB AT 1.56 M DUE TO STIMULATED RAMAN SCATTERING BY MOLECULAR D₂ IN A SOLID SILICA OPTICAL FIBERCHRAPLYVY AR; STONE J; BURRUS CA et al.1983; OPTICS LETTERS; ISSN 0146-9592; USA; DA. 1983; VOL. 8; NO 7; PP. 415-417; BIBL. 7 REF.Article

INGAAS/INP P-I-N PHOTODIODES FOR LIGHTWAVE COMMUNICATIONS AT THE 0.95-1.65 MU M WAVELENGTHLEE TP; BURRUS CA JR; DENTAI AG et al.1981; IEEE J. QUANTUM ELECTRON.; ISSN 0018-9197; USA; DA. 1981; VOL. 17; NO 2; PP. 232-238; BIBL. 26 REF.Article

LASER ACTION IN PHOTOPUMPED GAAS RIBBON WHISKERSSTONE J; BURRUS CA; CAMPBELL JC et al.1980; J. APPL. PHYS.; ISSN 0021-8979; USA; DA. 1980; VOL. 51; NO 6; PP. 3038-3041; BIBL. 20 REF.Article

PHASE-MATCHED SECOND-HARMONIC GENERATION IN VAPOUR-GROWN GAP RIBBON WAVEGUIDESSTONE J; BURRUS CA; STANDLEY RD et al.1979; J. APPL. PHYS.; ISSN 0021-8979; USA; DA. 1979; VOL. 50; NO 12; PP. 7906-7913; BIBL. 24 REF.Article

GAS-IN-GLASS: A NEW RAMAN-GAIN MEDIUM: MOLECULAR HYDROGEN IN SOLID-SILICA OPTICAL FIBERSSTONE J; CHRAPLYVY AR; BURRUS CA et al.1982; OPT. LETT.; ISSN 0146-9592; USA; DA. 1982; VOL. 7; NO 6; PP. 297-299; BIBL. 9 REF.Article

PICOSECOND FREQUENCY CHIRPING AND DYNAMIC LINE BROADENING IN INGAASP INJECTION LASERS UNDER FAST EXCITATIONCHINLON LIN; LEE TP; BURRUS CA et al.1983; APPLIED PHYSICS LETTERS; ISSN 0003-6951; USA; DA. 1983; VOL. 42; NO 2; PP. 141-143; BIBL. 19 REF.Article

LARGE-AREA BACK-ILLUMINATED INGAAS/INP PHOTODIODES FOR USE AT 1 TO 1.6 MU M WAVELENGTHBURRUS CA; DENTAI AG; LEE TP et al.1981; OPT. COMMUN.; ISSN 0030-4018; NLD; DA. 1981; VOL. 38; NO 2; PP. 124-126; BIBL. 4 REF.Article

LASING PROPERTIES OF INGAASP BURIED HETEROJUNCTION LASERS GROWN ON A MESA SUBSTRATEORON M; TAMARI N; SHTRIKMAN H et al.1982; APPLIED PHYSICS LETTERS; ISSN 0003-6951; USA; DA. 1982; VOL. 41; NO 7; PP. 609-611; BIBL. 12 REF.Article

DUAL-WAVELENGTH DEMULTIPLEXING INGAASP PHOTODIODECAMPBELL JC; LEE TP; DENTAI AG et al.1979; APPL. PHYS. LETTERS; USA; DA. 1979; VOL. 34; NO 6; PP. 401-402; BIBL. 10 REF.Article

SHORT-CAVITY INGAASP INJECTION LASERS: DEPENDENCE OF MODE SPECTRA AND SINGLE-LONGITUDINAL-MODE POWER ON CAVITY LENGTHLEE TP; BURRUS CA; COPELAND JA et al.1982; IEEE J. QUANTUM ELECTRON.; ISSN 0018-9197; USA; DA. 1982; VOL. 18; NO 7; PP. 1101-1113; BIBL. 23 REF.Article

ND: YAG SINGLE-CRYSTAL FIBER LASER: ROOM-TEMPERATURE CW OPERATION USING A SINGLE LED AS AN END PUMP.STONE J; BURRUS CA; DENTAI AG et al.1976; APPL. PHYS. LETTERS; U.S.A.; DA. 1976; VOL. 29; NO 1; PP. 37-39; BIBL. 6 REF.Article

1.1 GBS PSEUDORANDOM PULSE-CODE MODULATION OF 1.27 MU M WAVELENGTH C.W. INGAASP/INP D.H. LASERS.ABBOTT SM; MUSKA WM; LEE TP et al.1978; ELECTRON. LETTERS; G.B.; DA. 1978; VOL. 14; NO 11; PP. 349-350; BIBL. 9 REF.Article

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