kw.\*:("Quantum magnetometer")
Results 1 to 25 of 27
Selection :
Magnétomètre au potassium-hélium à orientation optique des atomes de potassiumBLINOV, E. V; GINZBURG, B. I; ZHITNIKOV, R. A et al.Žurnal tehničeskoj fiziki. 1984, Vol 54, Num 2, pp 287-292, issn 0044-4642Article
EXPERIENCE D'UTILISATION DU MAGNETOMETRE REMORQUE KM-3 POUR LES ETUDES DU CHAMP MAGNETIQUE DANS L'OCEANSHREJDER AA; VALYASHKO GM; PERUNOV BS et al.1979; OKEANOLOGIJA; SUN; DA. 1979; VOL. 19; NO 4; PP. 732-736; ABS. ENG; BIBL. 2 REF.Article
MAGNETOMETRE A ATOMES ALCALINS ET D'HELIUMBLINOV EV; ZHITNIKOV RA; KULESHOV PP et al.1979; ZH. TEKH. FIZ.; SUN; DA. 1979; VOL. 49; NO 3; PP. 588-596; BIBL. 24 REF.Article
Feasibility of testing the state of paramagnetic materials and products using magnetic resonance methods: II. Low-frequency electron spin resonance methodSOBOLEV, A. S; PUDOV, V. I.Russian journal of nondestructive testing. 2002, Vol 38, Num 4, pp 244-253, issn 1061-8309, 10 p.Article
MAGNETOMETRE DE STRUCTURE HYPERFINE POUR MESURES ABSOLUES DE L'INDUCTION MAGNETIQUE DE CHAMPS MAGNETIQUES FAIBLESALEKSANDROV EB; MAMYRIN AB; NAUMOV AP et al.1977; IZMERITEL. TEKH.; S.S.S.R.; DA. 1977; NO 7; PP. 73-75; BIBL. 18 REF.Article
METHODE DE MESURE DU COEFFICIENT DE DIFFUSION A L'AIDE D'UN MAGNETOMETRE OPTIQUE-QUANTIQUE AUTO-OSCILLANTVOTYAKOV SL; NOVIKOV LN.1976; PRIBORY TEKH. EKSPER.; S.S.S.R.; DA. 1976; NO 4; PP. 230-232; BIBL. 9 REF.Article
MAGNETOMETRE QUANTIQUE, A UN SEUL COMPOSANT AVEC REACTION BASEE SUR L'EFFET HANLEKOTKIN AL; MAJORSHIN VV; UMARKHODZHAEV RM et al.1980; RADIOTEKH. I ELEKTRON.; SUN; DA. 1980; VOL. 25; NO 5; PP. 1038-1041; BIBL. 6 REF.Article
Magnetocardiograms of patients with left ventricular overloading recorded with a second-derivative SQUID gradiometerFUJINO, K; SUMI, M; SAITO, K et al.Journal of electrocardiology. 1984, Vol 17, Num 3, pp 219-228, issn 0022-0736Article
Feasibility of testing the state of paramagnetic materials and products using magnetic resonance methods: III. Determination of characteristics of working matters of transducers of quantum magnetometersSOBOLEV, A. S; PUDOV, V. I.Russian journal of nondestructive testing. 2002, Vol 38, Num 4, pp 254-260, issn 1061-8309, 7 p.Article
Optimization of noise parameters of SQUID magnetometers with external negative feedbackZRUBEC, V; MANKA, J.Cryogenics (Guildford). 1995, Vol 35, Num 7, pp 451-454, issn 0011-2275Article
A wide dynamic range single-chip SQUID magnetometerRADPARVAR, M.IEEE transactions on applied superconductivity. 1994, Vol 4, Num 2, pp 87-91, issn 1051-8223Article
SQUIDs for nondestructive evaluationJENKS, W. G; SADEGHI, S. S. H; WIKSWO, J. P et al.Journal of physics. D, Applied physics (Print). 1997, Vol 30, Num 3, pp 293-323, issn 0022-3727Article
Low-pass filter in flux transformer circuits for SQUID magnetometersWEYAND, K.Review of scientific instruments. 1988, Vol 59, Num 6, pp 971-972, issn 0034-6748Article
MAGNETOMETRE AUTO-GENERATEUR A METAL ALCALIN ET HELIUMBLINOV EV; ZHITNIKOV RA; KULESHOV PP et al.1982; Z. TEH. FIZ.; ISSN 0044-4642; SUN; DA. 1982; VOL. 52; NO 5; PP. 904-908; BIBL. 7 REF.Article
Noise characteristics of dc superconducting quantum interference device with additional positive feedbackTAKADA, Y; UEHARA, G; KADO, H et al.Japanese journal of applied physics. 1994, Vol 33, Num 12A, pp L1665-L1667, issn 0021-4922, 2Article
Theoretical sensitivity limits of the SQUID system for measuring the radial position of a beam of electrically charged particles in superconductive acceleratorsZRUBEC, V.Cryogenics (Guildford). 1997, Vol 37, Num 2, pp 97-104, issn 0011-2275Article
Electric current injection NDE using a SQUID magnetometerBRUNO, A. C; BARBOSA, C. H; SCAVARDA, L. F et al.Research in nondestructive evaluation (Print). 1996, Vol 8, Num 3, pp 165-175, issn 0934-9847Article
Measurement of thermal noise by d.c. SQUIDNAWROCKI, W; BERTHEL, K.-H; DOEHLER, T et al.Cryogenics (Guildford). 1989, Vol 29, Num 12, pp 1160-1162, issn 0011-2275Article
Key components for the fabrication of YBa2Cu3O7-δ flip-chip SQUID magnetometers and current sensorsRAMOS, J; IJSSELSTEIJN, R; STOLZ, R et al.Superconductor science & technology (Print). 1998, Vol 11, Num 9, pp 887-890, issn 0953-2048Article
Deep nondestructive testing using a bulk high Tc rf-SQUIDALZAYED, N. S; FAN, C; LU, D. F et al.IEEE transactions on applied superconductivity. 1994, Vol 4, Num 2, pp 81-86, issn 1051-8223Article
High temperature RF SQUID gradiometer applied to non-destructive testingFAN, C.-X; LU, D. F; WONG, K. W et al.Cryogenics (Guildford). 1994, Vol 34, Num 8, pp 667-670, issn 0011-2275Article
Noise in a constant-current SQUID with a floating operating pointGUSEV, A. V; MELEZHNIKOV, I. V.Telecommunications & radio engineering. 1991, Vol 46, Num 8, pp 125-127, issn 0040-2508Article
Characteristics of the superconducting-quantum-interference-grating magnetometer consisting of grain-boundary josephson junctionsJENG, J. T; HUANG, K. H; WU, C. H et al.IEEE transactions on applied superconductivity. 2007, Vol 17, Num 2, pp 691-694, issn 1051-8223, 4 p., 1Conference Paper
Nanoelectronic and nanomechanical systemsALDRIDGE, J. S; CLELAND, A. N; KNOBEL, R et al.SPIE proceedings series. 2001, pp 11-21, isbn 0-8194-4322-0Conference Paper
Development of integrated direct current superconducting quantum interference device gradiometer for nondestructive evaluationMOROOKA, T; NAKAYAMA, S; ODAWARA, A et al.Japanese journal of applied physics. 1996, Vol 35, Num 4B, pp L486-L488, issn 0021-4922, 2Article
