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MICROWAVE DOPPLER-EFFECT FLOW MONITOR.ABDUL HAMID; STUCHLY SS.1975; I.E.E.E. TRANS. INDUSTR. ELECTRON. CONTROL INSTRUMENT.; U.S.A.; DA. 1975; VOL. 22; NO 2; PP. 224-228; BIBL. 11 REF.Article

A METHOD FOR MEASUREMENT OF THE PERMITTIVITY OF THIN SAMPLESSTUCHLY SS; MLADEK J.1979; J. MICROWAVE POWER; CAN; DA. 1979; VOL. 14; NO 1; PP. 7-13; BIBL. 9 REF.Article

A MICROPROCESSOR-CONTROLLED TIME-DOMAIN SPECTROMETERPARISIEN BR; STUCHLY SS.1979; I.E.E.E. TRANS. INSTRUMENT. MEASUR.; USA; DA. 1979; VOL. 28; NO 4; PP. 269-272; BIBL. 5 REF.Article

MONITORING THE VELOCITIES OF PARTICULATES USING DOPPLER RADAR.ABDUL HAMID; STUCHLY SS.1975; J. MICROWAVE POWER; CANADA; DA. 1975; VOL. 10; NO 2; PP. 163-170; BIBL. 17 REF.Article

NUMERICAL ANALYSIS OF OPEN-ENDED COAXIAL LINESGAJDA GB; STUCHLY SS.1983; IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES; ISSN 0018-9480; USA; DA. 1983; VOL. 31; NO 5; PP. 380-384; BIBL. 20 REF.Article

ANALYSIS OF A MICROSTRIP COVERED WITH A LOSSY DIELECTRICBAHL IJ; STUCHLY SS.1980; I.E.E.E. TRANS. MICROWAVE THEORY TECH.; USA; DA. 1980; VOL. 28; NO 2; PP. 104-109; BIBL. 17 REF.Article

EFFECT OF FINITE SIZE OF GROUND PLANE ON THE IMPEDANCE OF A MONOPOLE IMMERSED IN A LOSSY MEDIUMBAHL IJ; STUCHLY SS.1979; ELECTRON. LETTERS; GBR; DA. 1979; VOL. 15; NO 22; PP. 728-729; BIBL. 10 REF.Article

STATE OF THE ART IN MICROWAVE SENSORS FOR MEASURING NON-ELECTRICAL QUANTITIESSTUCHLY SS; HAMID MAK.1972; INTERNATION. J. ELECTRON.; G.B.; DA. 1972; VOL. 33; NO 6; PP. 617-633; BIBL. 2 P. 1/2Serial Issue

DIELECTRIC PROPERTIES OF BIOLOGICAL SUBSTANCES-TABULATEDSTUCHLY MA; STUCHLY SS.1980; J. MICROWAVE POWER; CAN; DA. 1980; VOL. 15; NO 1; PP. 19-26; BIBL. 53 REF.Article

A TIME-DOMAIN TECHNIQUE FOR MEASUREMENT OF THE DIELECTRIC PROPERTIES OF BIOLOGICAL SUBSTANCESISKANDER MF; STUCHLY SS.1972; I.E.E.E. TRANS. INSTRUMENT. MEASUR.; U.S.A.; DA. 1972; VOL. 21; NO 4; PP. 425-429; BIBL. 8 REF.Serial Issue

DIELECTRIC DISPERSION OF GLYCEROL FROM 2.0 TO 4.0 GHBRADY MM; STUCHLY SS.1981; J. CHEM. PHYS.; ISSN 0021-9606; USA; DA. 1981; VOL. 74; NO 6; PP. 3632-3633; BIBL. 4 REF.Article

A MICROWAVE SYSTEM FOR MEASUREMENT OF THE DIAMETER OF THIN DIELECTRIC FIBERS.RZEPECKA MA; STUCHLY SS.1974; I.E.E.E. TRANS. INSTRUMENT. MEASUR.; U.S.A.; DA. 1974; VOL. 23; NO 1; PP. 100-101; BIBL. 3 REF.Article

NEW MICROSTRIP SLOT RADIATOR FOR MEDICAL APPLICATIONSBAHL IJ; STUCHLY SS; STUCHLY MA et al.1980; ELECTRON. LETT.; ISSN 0013-5194; GBR; DA. 1980; VOL. 16; NO 19; PP. 731-732; BIBL. 7 REF.Article

COMPUTER-CONTROLLED SCATTERING MEASUREMENTS IN A PARALLEL-PLATE CONFIGURATIONFORGUES PM; GOLDBERG M; SMITH AM et al.1981; IEEE TRANS. INSTRUM. MEAS.; ISSN 0018-9456; USA; DA. 1981; VOL. 30; NO 3; PP. 194-198; BIBL. 11 REF.Article

MICROWAVE INTERFEROMETER FOR MEASUREMENTS OF SMALL DISPLACEMENTSTHANSANDOTE A; STUCHLY SS; WIGHT JS et al.1982; IEEE TRANSACTIONS ON INSTRUMENTATION AND MEASUREMENT; ISSN 0018-9456; USA; DA. 1982; VOL. 31; NO 4; PP. 227-232; BIBL. 13 REF.Article

HIGH-FREQUENCY MONITORING OF RESIDUAL AND BOUND WATER IN NONCONDUCTIVE FLUIDS.RZEPECKA MA; STUCHLY SS; HAMID MAK et al.1975; I.E.E.E. TRANS. INSTRUMENT. MEASUR.; U.S.A.; DA. 1975; VOL. 24; NO 3; PP. 205-210; BIBL. 17 REF.Article

EXPERIMENTAL RESULTS FOR COMBINATIONAL MICROWAVE AND HOT AIR DRYINGBHARTIA P; STUCHLY SS; HAMID MAK et al.1973; J. MICROWAVE POWER; CANADA; DA. 1973; VOL. 8; NO 3-4; PP. 245-252; BIBL. 4 REF.Article

MAPPING OF THE NEAR-FIELD PATTERN IN SIMULATED BIOLOGICAL TISSUESGAJDA G; STUCHLY MA; STUCHLY SS et al.1979; ELECTRON. LETTERS; GBR; DA. 1979; VOL. 15; NO 4; PP. 120-121; BIBL. 9 REF.Article

THE DYNAMIC RESPONSE OF A RESONANT FREQUENCY TRACKING SYSTEM.MARKOWSKI J; MACDONALD AD; STUCHLY SS et al.1977; I.E.E.E. TRANS., INSTRUMENT. MEASUR.; U.S.A.; DA. 1977; VOL. 26; NO 3; PP. 231-237; BIBL. 17 REF.Article

DIATHERMY APPLICATORS WITH CIRCULAR APERTURE AND CORRUGATED FLANGESTUCHLY MA; STUCHLY SS; KANTOR G et al.1980; I.E.E.E. TRANS. MICROWAVE THEORY TECH.; USA; DA. 1980; VOL. 28; NO 3; PP. 267-271; BIBL. 18 REF.Article

MEASUREMENT OF RADIO FREQUENCY PERMITTIVITY OF BIOLOGICAL TISSUES WITH AN OPEN-ENDED COAXIAL LINE. IATHEY TW; STUCHLY MA; STUCHLY SS et al.1982; IEEE TRANS. MICROWAVE THEORY TECH.; ISSN 0018-9480; USA; DA. 1982; VOL. 30; NO 1; PP. 82-86; BIBL. 11 REF.Article

A DIGITAL SYSTEM FOR MEASUREMENT OF RESONANT FREQUENCY AND Q FACTORPANDRANGI RK; STUCHLY SS; BARSKI M et al.1982; IEEE TRANS. INSTRUM. MEAS.; ISSN 0018-9456; USA; DA. 1982; VOL. 31; NO 1; PP. 18-21; BIBL. 17 REF.Article

ADVANCES IN MONITORING OF VELOCITIES AND DENSITIES OF PARTICULATES USING MICROWAVE DOPPLER EFFECT.STUCHLY SS; SABIR MS; ABDUL HAMID et al.1977; I.E.E.E. TRANS. INSTRUMENT. MEASUR.; U.S.A.; DA. 1977; VOL. 26; NO 1; PP. 21-24; BIBL. 16 REF.Article

A MICROWAVE OPEN-ENDED CAVITY AS A VOID FRACTION MONITOR FOR ORGANIC COOLANTS.STUCHLY SS; RZEPECKA MA; HAMID MAK et al.1974; I.E.E.E. TRANS. INDUSTR. ELECTRON. CONTROL INSTRUMENT.; U.S.A.; DA. 1974; VOL. 21; NO 2; PP. 78-80; BIBL. 5 REF.Article

MODIFIED INFINITE SAMPLE METHOD FOR ROUTINE PERMITTIVITY MEASUREMENTS AT MICROWAVE FREQUENCIESRZEPECKA MA; STUCHLY SS; HAMID MAK et al.1973; I.E.E.E. TRANS. INSTRUMENT. MEASUR.; U.S.A.; DA. 1973; VOL. 22; NO 1; PP. 41-46; BIBL. 6 REF.Serial Issue

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