doc. RNDr. Silvester TAKÁCS, DrSc.

2011

Polák, M., Demenčík, E., Hušek, I., Kopera, L., Kováč, P., Mozola, P., and TakácsS.: AC losses and transverse resistivity in filamentary MgB2 tape with Ti barriers, Physica C 471 (2011) 389-394.

TakácsS.: Frequency dependence of coupling losses in twisted superconducting structures, Supercond. Sci. Technol. 24 (2011) 065018.

2010

TakácsS.: AC losses in superconductors shielded by a normal metal or another superconductor, Supercond. Sci. Technol. 23 (2010) 065023.

2009

TakácsS.: Acceptable coupling losses in twisted cables with current sharing connecting the superconducting strands with normal metal plates, Supercond. Sci Technol. 22(2009) 075006.

Polák, M., TakácsS., Barnes, P.N., and Levin, G.A.: The effect of resistive filament interconnections on coupling losses in filamentary YBa2Cu3O7 coated conductors, Supercond. Sci Technol. 22 (2009) 025016.

2008

TakácsS.: Acceptable coupling losses in coated conductors at industrial frequencies without twisting the superconducting stripes, J. Applied Phys. 103 (2008) art. no. 053907.

Holúbek, T., Kováč, P., TakácsS., Hušek, I., and Melišek, T.: Current sharing and the stability of composite MgB2 superconductors, Supercond. Sci Technol. 21 (2008) art. no. 065013.

2007

TakácsS.: Current transfer between superconductor and normal layer in coated conductors, Supercond. Sci Technol. 20 (2007) 180-185.

TakácsS.: Hysteresis loses in superconductors with an out-of-phase applied magnetic field and current: slab geometry, Supercond. Sci Technol. 20 (2007) 1093-1096.

TakácsS.: Low coupling losses in YBa2Cu3O7 coated conductors with current sharing between the superconducting stripes, Applied Phys. Lett. 90 (2007) art. no. 242505.

TakácsS.: Coupling losses in superconductors with twisted filaments, stripes, or striations, IEEE Trans. Applied Supercond. 17 (2007) 3151-3154.

Demenčík, E., Ušák, P., TakácsS., Vávra, I., Polák, M., Levin, G.A., and Barnes, P.N.: Visualization of coupling current paths in striated YBCO-coated conductors at frequencies up to 400 Hz, Supercond. Sci Technol. 20 (2007) 87-91.

2006

TakácsS., Werner, A., and Sochor, M.: Loss contribution in superconducting magnets caused by transient magnetic fields, Fusion Engn. and Design. 81 (2006) 2509-2513.

TakácsS. and Yanagi, N.: Change of the induced magnetic field and time constant along twisted superconducting cables with finite length, Fusion Engn. and Design. 81(2006) 2515-2519.

TakácsS., Šouc, J., and Gömöry, F.: Harmonic components of the voltage on the surface of superconducting slabs and cylinders below and above the critical current. In: Studies of High Temperature Superconductors. Vol. 50. New York: Nova Sci. Publ. 2006. P. 117.

TakácsS.: Coupling losses in flat cables and coated conductors, Supercond. Sci Technol. 19 (2006) 738-741.

Gömöry, F., TakácsS., Werner, A., and Sochor, M.: Theoretical estimation of electromagnetic loss from the movement of superconducting coil in the W7-X stellarator, IEEE Trans. Applied Supercond. 16 (2006) 123-126.

2005

TakácsS.: The contribution of edge currents to coupling losses of flat superconducting cables, Supercond. Sci Techn. 18 (2005) 187-192.

TakácsS. and Gömöry, F.: Hysteresis and coupling losses of superconducting cables at additional change of the applied magnetic field, Supercond. Sci Technol. 18 (2005) 340-345.

2004

TakácsS.: Basic and higher harmonics of superconducting cylinder at applying the current below and above the critical current, Physica C 401 (2004) 187-190.

2003

TakácsS.: Critical temperature and energy gap in superconductors with singularities in the density of states (DOS). In: Models and methods of high-Tc superconductivity: Some frontal aspects. Vol. 2. Eds.: J.K.Srivastava and S.M.Rao. (Series: Horizonts in World Physics Vol. 242). New York: Nova Sci Publ. 2003. ISBN 1-59033-667-4. P. 289-316.

TakácsS.: Some parameters of superconductors with an extreme singularity in the density of state: (s+d) model, Solid State Comm. 128 (2003) 455-459.

2002

TakácsS.: Coupling losses in flat superconducting cables with consederable edge currents, Physica C 372-376 (2002) 1806-1809.

TakácsS.: Current and magnetic field distribution in finite superconducting cables, Supercond. Sci & Techn. 15 (2002) 1377-1384.

2001

TakácsS.: Time constants of flat superconducting composites determined from AC loss and relaxation measurements, Physica C 354 (2001) 202.

TakácsS., Iwakuma, M., and Funaki, K.: The effective resistance between twisted superconducting filaments in tapes, Physica C 354 (2001) 265.

TakácsS.: The disign of flat superconducting cables with considerable edge currents between the strands, Supercond. Sci & Techn. 14 (2001) 496-503.

2000

TakácsS. and Gömöry, F.: Flux penetration into the system of superconducting filaments in normal conducting matrix. In: EUCAS ’99, Inst. of Physics Conf. Ser. 167 (2000) 611-614.

TakácsS., Iwakuma, M., and Funaki, K.: The effective resistence between superconducting filaments in tapes. In: EUCAS ’99, In: Inst. of Physics Conf. Ser. 167 (2000) 511-514.

TakácsS.: Time constants and coupling losses in superconducting cables and in magnetic systems. In: EUCAS ’99, Inst. of Physics Conf. Ser. 167 (2000) 851-854.

TakácsS.: Induced currents and AC losses in superconducting cables due to changing fields at the and portions of magnets. In: EUCAS ’99, Inst. of Physics Conf. Ser. 167 (2000) 1235-1238.

Gömöry, F., Strýček, F., Seiler, E., Hušek, I., Kováč, P., and TakácsS., Fabbricatore, P., Farinon, S., and Innocenti, S.: Critical current densities and magnetic losses in Bi-2223 tapes determined from experiments in perpendicular AC magnetic field. In: EUCAS ’99, Inst. of Physics Conf. Ser. 167 (2000) 715-718.

TakácsS., Iwakuma, M., and Funaki, K.: Some factors determining the effective resistance between strands in flat cables (or superconducting filaments in tapes), Supercond. Sci & Technology 13 (2000) 405-411.

1999

Sumption, M.D., Takács, S.: Flux pinning in the weak layers of superconducting heterogeneous structures, Physica C 316 (1999) 129-151.

TakácsS.: AC losses and current distribution in superconducting cables in inhomogeneous magnetic fields. In: 5th Kyushu Meeting on Superconducting Science. Kumamoto University 1999. P. 63.

1998

Plecenik, A., Grajcar, M., Seidel, P., TakácsS., Matthes, A., and Zuczak, M.: Influence of bias voltage history on conductance properties of YBaCuO/normal metal junctions, Physica C 301 (1998) 234.

TakácsS.: Current distribution in superconducting cables due to field changes at the end portions of magnetic systems, Supercond. Sci & Technology 11 (1998) 1209.

Sumption M.D., Takács S., Collings E.W.: Modelling of M-H loop anomalies in synergistically pinned, heterogeneous, composite superconductors, Physica C 306 (1998) 300.

TakácsS.Current Distribution in Superconductors. In: Handbook of Superconductivity. Chapter B2. IOP Publ 1998. P. 79-98.

Sumption, M.D., Takács, S., Collings, E.W.: Critical currents and superconducting boundary effects in S-N-S multifilamentary composites. In: Advances in Cryogenic Engn. Materials 44B (1998) 843.

Sumption, M.D., Takács, S., Collings, E.W.: Factors controlling the onset of proximity effect coupling (PEC) and the influence of pining-assisted PEC on M-H loop asymmetry in multifilamentary composites. In: Advances in Cryogenic Engn. Materials 44B (1998) 1085.

Takács, S.:The similarities in loss creation in LTS and HTS cables, Physica C 310 (1998) 218.

1997

Yanagi, N., TakácsS., Mito, T., Takahata, K., Iwamoto, A., and Yamamoto, J.: Measurement of time constant for coupling losses in the LHD superconductors. In.: Int. Cryog. Engn. Conf. 16/ICMC, Kitakyushu (Japonsko), 1996. Elsevier 1997. P. 1253.

TakácsS.: AC losses in superconducting cables and their expected values in magnetic systems, Topical Review, Supercond. Sci & Techn. 10 (1997) 733.

TakácsS.: Current distribution and coupling losses in superconducting cables being partially in magnetic fields. In: Applied Supercond. Conf. ASC’96. Pittsburgh. 1996, IEEE Trans. Applied Supercond. (1997) 258-261.

Gömöry, F. and TakácsS.: Characterization of superconductors by AC susceptibility measurement, Superlattice & Microstructure 21 Suppl.A (1997) 219.

Yanagi, N., TakácsS., Mito, T., Takahata, K., Iwamoto, A., and Yamamoto, J.: Measurement of time constants for superconducting cables with Hall probes, Cryogenics 37 (1997) 783.

Šouc, J., Fröhlich, K., Šmatko, V., TakácsS., Weiss, F., and Delaboulighe, G.: Critical current anisotropy of YBa2Cu3O7 thin films. In: Applied Supercond. 1997, Inst. Phys. Conf. Series No. 158 (1997) 97.

TakácsS. and Gömöry, F.: The peak in the imaginary part of AC susceptibility for a superconductor at different magnetic fields and frequencies. In: Applied Superconductivity 1997, Inst. Phys. Conf. Series No. 158 (1997) 993.

Takács, S.: Superconducting cables in spatially changing magnetic fields near the end portions of magnetic systems. In: Applied Superconductivity 1997, Inst. Phys. Conf. Series No. 158 (1997) 1405.

TakácsS. and Yanagi, N.: Determination of time constants by direct measurement of magnetic fields above superconducting cables. In: Applied Superconductivity 1997, Inst. Phys. Conf. Series No. 158 (1997) 1187.

Sumption, M.D. and TakácsS.: Critical current densities in heterogeneous superconductors determined from magnetization measurements. In: Applied Superconductivity 1997, Inst. Phys. Conf. Series No. 158 (1997) 913.

TakácsS.: Coupling losses, time constants and current distribution in superconducting cables in spatially changing magnetic field. In: Int. Cryog. Engn. Conf. 16/ICMC, Kitakyushu (Japonsko), 1996. Elsevier 1997. P. 1257.

Yanagi, N., Imagawa, S., Chikaraishi, H., TakácsS., Mito, T., Takahata, K., Satow, T., Yamamoto, J., and Motojima, O.: Quench analysis of the helical coils for LHD. In: Symposium on Cryogenics Systems for Large Scale Superconducting Applications. Toki 1997. P. 160.

1996

TakácsS.: Time constants and AC losses of flat superconducting cables in magnetic fields changing along the cable, Cryogenics 36 (1996) 517.

TakácsS.: AC losses and time constants of flat superconducting cables in inhomogeneous magnetic fields, Superconductor Sci & Techn. (1996) 137-140.

Gömöry, F., TakácsS., Holubar, T., and Hilscher, G.: Irreversibility line as line of constant shielding current density, Advances in Cryogenic Engn. & Materials 42 (1996) 587.

TakácsS. and Yamamoto, J.: Time constants of flat superconducting cables, Advances in Cryogenic Engn. & Mat. 42 (1996) 672.

TakácsS. and Gömöry, F.: Frequency and amplitude dependencea of the imaginary part of AC susceptibility peak in high-Tc superconductors. In: Proc. of the Int. Workshop on Critical Currents ’96. Eds. T.Matsushita, K.Yamafuji. Singapore, World Sci 1996. P. 227.

1995

TakácsS., Yanagi, N., and Yamamoto, J.: Size effect in AC losses of superconducting cables, IEEE Trans. on Applied Supercond. (1995) 2-6.

TakácsS. and Gömöry, F.: Non-linear flux-flow regime in high temperature superconductors. In: Studies of High-Temperature Superconductors Vol.14. Ed. A.Narlikar. New York, Nova Sci. Publ. 1995. P. 407.

1994

TakácsS., Kaneko, H., and Yamamoto, J.: Time constants of normal metals and superconductors at different ramp rates during a cycle, Cryogenics 34 (1994) 679.*

TakácsS.: Requirements on experimental arrangements for measuring AC losses expected in magnetic systems. In: 15th Int. Cryogenic Engn. Conf. (ICEC). Janov 1994, Cryogenics 34 (1994) S579.

TakácsS. and Yamamoto, J.: Time constant of flat superconducting cables at low and high frequencies, Cryogenics 34 (1994) S571.

Gömöry, F., TakácsS., Holubar, T., and Hilscher, G.: Magnetic irreversibility in superconductors characterised by shielding current density, Physica C 235-240 (1994) 2753.

TakácsS.: Critical temperature and energy gap in weak- and strong- compling superconductors with singular density of states. In: 6th Int. Symp. on Superconductivity. Hiroshima 1993, Advances in Supercond. (1994) 63-66.

TakácsS. and Gömöry, F.: The determination of the irreversibility line in superconductors. In: 6th Int. Symp. on Superconductivity. Hiroshima 1993, Advances in Supercond. (1994) 467-470.

1993

TakácsS. and Gömöry, F.: A.c. susceptibility of melt-processed high Tsuperconductors, Cryogenics 33 (1993) 133.

TakácsS.: Dependence of the critical temperature and energy gap of superconductors on a singularity in the density of states, Physical Review B 48 (1993) 13 127.

Gömöry, F. and TakácsS.: Irreversibility line and non-linearity in the AC response caused by flux pinning in high Tc superconductors, Physica C 217 (1993) 297.

TakácsS.: Critical temperature and energy gap in superconductors with singular density of states, Czechoslovak J. of Physics B 43 (1993) 1129.

TakácsS., Yamamoto, S., Motojima, J., and LHD Group: End effects influencing the compling losses in superconducting cables. In: Proc. 50th Meeting on Cryogenics and Superconductivity. Kagoshima 1993. P. 180.

TakácsS., Yamamoto, S., Motojima, J., and LHD Group: AC losses in normal and superconducting parts of cables for different ramps in cycle. In: Proc. 50th Meeting on Cryogenics and Superconductivity. Kagoshima 1993. P. 191.

TakácsS., Krempaský, L., and Schmidt, C.: Untersuchung der Verluste und Zeitkonstanten an Strands und Kabeln mit Verchidener Matrix. Primärberichte, KFK-ITP Karlsruhe 1993.

1992

TakácsS., Gömöry, F., Pevala, A., and Lobotka, P.: Penetration field in superconductors with considerable flux creep and flux flow, Supercond. Sci & Technol. (1992) S452.

Cooley, L.D., Stejic, G., Larbalestier, D., and TakácsS.: Direct summation of elementary pinning forces for Nb-Ti superconductors with a field-dependent probability function, Supercond. Sci & Techn. (1992) S97.

TakácsS.: Coupling losses in inhomogeneous cores of superconduc- ting cables, Cryogenics 32 (1992) 258.

Stejic, G., Cooley, L.D., Joynt, R., Larbalestier, D., TakácsS.: Numerical calculation of flux pinning by alpha-precipitates in NbTi, Supercond. Sci & Technol. (1992) S176.

TakácsS.: Energy gap in superconductors with singular asymetric density of states, Physical Review B 46 (1992) 3145.

Gömöry, F., Madera, D., and TakácsS.: Determination of the irreversibility line in high Tc superconductors by AC magnetic measurements. In: Proc. 2nd Int. Conf. on Macroscopic Quantum Phenomena. Singapore, World Sci Publ. 1992. P. 210.

TakácsS.: Linear and non-linear AC response in superconductors. In: Proc. 2nd Int. Conf. on Macroscopic Quantum Phenomena. Singapore, World Sci Publ. 1992. P. 202.

TakácsS.: The influence of the off-symmetry of singular densities of states on the energy gap and critical temperature of superconductors. In: Proc. 2nd Int. Conf. on Macroscopic Quantum Phenomena. Singapore, World Sci Publ. 1992. P. 105.

1991

TakácsS.: Some problems of coupling loss calculations in flat cables, IEEE Trans. Magnetics 27 (1991) 2206.

TakácsS., Gömöry, F., and Lobotka, P.: Frequency dependence of AC susceptibility due to the viscous motion of flux lines, IEEE Trans. Magn. 27 (1991) 1057.

TakácsS.: Different coupling loss contributions in flat cables. In: Proc. Int. Symp. on AC Prop. of Superconductors. Bratislava, Veda 1991. P. 13.

TakácsS. and Pevala, A.: Influence of flux creep and flux flow on the penetration field of superconductors. In: Proc. 2nd Czechoslovak-Italian Symp. on Superconductivity. Bratislava, Veda 1991. P. 7.

TakácsS.: The possibility of localized baglike excitations in high Tc superconductors due to the low dimensionality of the electron states, Acta Phys. Slovaca 41 (1991) 47.

TakácsS.: Flusseindringen in Hochtemperatur-Supraleitern, Eingeladener Vortrag. In: 41. Jahrestagung der OPG. Graz 1991. P. 9.

1990

Gömöry, F., TakácsS., and Lobotka, P.: Flux penetration into high Tc superconductors in AC magnetic fields. In: Studies of High Temp. Superconductors 6. Ed.A.V.Narlikar. New York, Nova Sci. Publ. 1990. P. 315.

TakácsS. and Gömöry, F.: The flux distribution and hysteresis losses in high Tc superconducting including viscous forces on flux lines, Czechoslovak J. of Phys. B 40 (1990) 5568.

TakácsS. and Gömöry, F.: Influence of viscous flux flow on AC magnetization of high Tc superconductors, Supercond. Sci & Technol. (1990) 94.

TakácsS.: Influence of field dependent critical current density on flux profiles in high Tc superconductors, Czechoslovak J. of Physics 40 (1990) 1040.

TakácsS., Gömöry, F., and Lobotka, P.: The influence of viscous flux flow on AC losses of high Tc superconductors, Physica B 165 (1990) 1399.

TakácsS.: Localized more-particle excitations in two- and one- dimensional fermion systems of high Tc superconductors, Physica C 165 (1990) 91.

TakácsS.: Anomalies in tunneling characteristics of high Tc superconductors due to the existence of more-particle bags. In: 5th Czechosl. Symp. on Weak Supercond. New York, Nova Sci. Publ. 1990. P. 117.

1989

Frö hlich, K., Machajdík, D., Žatko, A., Rosová, A., and TakácsS.: Effect of deposition temperature on properties of CVD prepared Nb3Ge superconductor, Czechoslovak J. of Physics B 39 (1989) 196.

Cesnak, L., TakácsS., and Gömöry, F.: Voltage vs current characteristics of high Tc superconductors described by a statistical series-parallel model, Cryogenics 29 (1989) 731.

TakácsS.: Two possible sources of additional structures in the tunneling characteristics of high Tc superconductors, Czechoslovak J. of Physics B 39 (1989) 680.

TakácsS. and Gömöry, F.: Study of flux flow in high Tc superconductors, Physica C 162(1989) 681.

TakácsS., Beňačka, Š., Pleceník, A., and Svistunov, V.M.: Localized normal excitation and resonance anomalies above the gap tunneling of high Tc superconductors, Physica C 162 (1989) 1049.

Gömöry, F., TakácsS., Lobotka, P., Fröhlich, K., Plecháček,V.: AC magnetization of high Tc superconductors at low superimposed DC magnetic field, Physica C 160 (1989) 1.

Beňačka, Š., Svistunov,V.M., Plecenik, A., Chromik, Š., Gaži,Š., Levársky, J., Štrbík, V., and TakácsS.: Tunnelling spectroscopy in thin films YBCO/Pb tunnel structures, IEEE Trans. on Magnetics 25 (1989) 2583.

TakácsS.: Effects causing resonances in tunneling current of high Tc superconductors, Modern Physics Lett. B (1989) 421.

TakácsS.: Macroscopic quantum phenomena – implications for different systems. In: Proc. Int. Conf. Macroscopic Quantum Phenomena. Praha, JČSMF 1989. P. 138.

TakácsS.: Critical currents in classical and high Tc superconductors. In: Proc. 1st Italo – Czechoslovak Symp. on Supercond. Lecco, ENEL, CIL, 1989. P. 1.

1988

TakácsS.: Hysteresis losses of fine filamentary superconducting including field dependent critical current densities, Czechoslovak J. of Physics B38 (1988) 899.

TakácsS.: The resistive state of inhomogenenous superconducting composites, Cryogenics 28 (1988) 374.

TakácsS. and Campbell, A.M.: Hysteresis losses in superconductors with very fine filaments, Supercond. Sci & Technol. (1988) 53.

Narashima Rao, C.V., Agarwal, S.K., Jayaram, B., TakácsS., and Narlikar, A.V.: The nature of flux pinning in high-Tc ceramic superconductors, Zeitschrift für Metalllkunde 79 (1988) 271.

Cesnak, L., TakácsS., Gömöry, F., and Hlásnik, I.: Losses in transformer-like coils wound from very fine-filament NbTi superconductors, Cryogenics 28 (1988) 386.

TakácsS.: Pinning force in thin superconductors with small number of flux line rows, Czechoslovak J. of Physics B 38 (1988) 1050.

Narasimha Rao, C.V., Agarwal, S.K., Jayaram, B., TakácsS., and Narlikar, A.V.: The critical currents of high Tc YBaCuO superconductors, Ind. J. of Physics 62A (1988) 899.

TakácsS.: The study of modified critical current distribution and its application to the resistive state of macroscopically inhomogeneous type II superconductors, Czechoslovak J. of Physics B 38 (1988) 910.

1987

TakácsS.: Possible restriction of critical current density in high Tc superconductors, Physica Status Solidi (a) 144 (1987) K125.

TakácsS.: Surface pinning in high Tc superconductors and the critical currents densities in applied fields. In: Proc. Int. Conf. Low Temp. Phys. Budapest 1987. P. H33.

1986

TakácsS.: Properties of superfine superconducting filaments embedded in normal matrix, Czechoslovak J. of Physics B 36 (1986) 526.

TakácsS.: Pinning on grain boundaries and in superfine filaments. In: Proc. Int. Symp. on Flux Pinning and Electromagn. In: Prop.in Superconductors. Fukuoka, Matsukuma Press 1986. P. 204.

TakácsS.: Elektromagnitnyje svojstva sverchprovodnikov so sverchtonkimi niťami. In: 25. Vsesoj. sov. fiz. nizk. temp., HT-25. 1986. P. 84.

Gömöry, F., Kováč, P., TakácsS. i Cesnak, L.: Svojstva tonkich slojev v slabo otžigannych mnogožilnych Nb3Sn provodnikach. In: 25. Vsesoj. sov. fiz. nizk. temp., HT-25. 1986. P. 90.

1985

Hlásnik, I., TakácsS., Burjak, V.P., Majoroš, M., Krajčík, J., Krempaský, L., Polák, M., Jergel, M., Korneeva, T.A., Mironova, O.N., and Ivan, I.: Properties of superconducting NbTi superfine filament composites with diameter d 0,1 um, Cryogenics 25 (1985) 558.

Hlásnik, I. and TakácsS.: Progress and problems in the development of low loss very fine filament superconductor composites. In: Int. Conf. on Magnet Technology Zurich 1985. P. 481.

1984

TakácsS. and Hlásnik, I.: Pinning in superconductors with anisotropic defects, J. of Low Temp. Phys. 54 (1984) 397.

TakácsS.: Coupling losses of finits superconducting cables, Cryogenics 24 (1984) 237.

Cesnak, L., Gömöry, F., Kokavec, J., and TakácsS.: AC losses in multilayer superconductig tapes, Cryogenics 24 (1984) 119.

TakácsS.: Pinning on surfaces and large grain boundaries due to the transition from hexagonal to quadratic vortex lattices, Czechoslovak J. of Physics B 34 (1984) 571.

Janetka, I. and TakácsS.: The tunneling current between metals in normal and superconducting state including resonance tunneling. In: 3rd Int. Conf. on Weak Superconductivity. Smolenice, 1984. P. 102.

TakácsS.: Pinning on grain boundaries due to the transition from hexagonal to quadratic vortex lattice. In: Proc. LT-17. North Holland, Amsterdam, 1984. P. 563.

1983

TakácsS., Polák, M., and Krempaský, L.: Critical currents of NbTi tapes with differently oriented defects, Cryogenics 23 (1983) 155.

TakácsS.: Tunneling through combined potential structures, II. Some examples, Acta Physica Slovaca 33 (1983) 73.

TakácsS.: The critical currents in superconductors with anisotropic defects by magnetization and resistive measurements, Czechoslovak J. of Physics B 33 (1983) 208.

TakácsS.: The flux line lattice in superconducting slabs, Czechoslovak J. of Physics B 33 (1983) 1248.

Hlásnik, I. and TakácsS.: Scaling laws in voltage-current characteristics of hard superconductors, Cryogenics 23 (1983) 314.

TakácsS.: The influence of defect clustering on the volume pinning force in superconductors, Czechoslovak J. of Physics B 33 (1983) 70.

1982

TakácsS. and Janetka, I.: Influence of resonance tunneling on resistivity in semiconductors with ionized impurities and on tunneling current between superconductors, Physica Status Solidi (b) 113 (1982) 313.

TakácsS.: Statistical theory of pinning in superconductors including correlations in the defect distribution, Acta Physica Hungarica 53 (1982) 337.

TakácsS.: Coupling losses in cables in spatially changing ac fields, Cryogenics 22 (1982) 661.

TakácsS.: The summation of pinning forces for superconductors with small defect densities, Physica Status Solidi A 74 (1982) 437.

Janetka, I. and TakácsS.: Der Tunnelstrom zwischen zwei Metallen getrennt durch eine Doppel-Schottky-Barriere. In: 19. Symp. Tieftemperaturphysik und Kryoelektronik. Meuselbach, 1982. P. 126.

1981

Ries, G. and TakácsS.: Coupling losses in finite lenght of superconducting cables and in long cables partially in magnetic field, IEEE Trans. on Magnetics 17 (1981) 2281.

Cesnak, L., Jergel, M., Krempaský, L., Polák, M., and TakácsS.: On the preparation and study of superconductors, Acta Physica Hungarica 50 (1981) 153.

1980

TakácsS.: Tunneling through combined potential structures, I. General calculations, Acta Physica Slovaca 30 (1980) 193.

1979

TakácsS.: The volume pinning interaction potentials between defects and the flux line lattice, Czechoslovak J. of Physics. B 29 (1979) 1046.

1978

TakácsS.: Structure of the mixed state in type II superconductors and its connection with Josephson effects in long superconducting bridges, Czechoslovak J. of Physics B 28 (1978) 1260.

Beňačka, Š., Bezáková, Ľ., Gaži, Š., TakácsS., and Palaj, J.: Properties of long superconducting variable thickness bridges. I. DC and AC Josephson effect, Czechoslovak J. of Physics B 28 (1978) 192.

Beňačka, Š., Bezáková, Ľ., Gaži, Š., TakácsS., and Palaj, J.: Properties of long superconducting variable thickness bridges. II. Influence of static magnetic field, Czechoslovak J. of Physics B 28 (1978) 203.

1977

Pevala, A. and TakácsS.: The volume pinning force for different shapes of the interaction potential between defects and flux lines, Czechoslovak J. of Physics B 27 (1977) 336.

Pevala, A. and TakácsS.: The critical currents of type II superconductors in non-transversal magnetic field, Czechoslovak J. of Physics B 27 (1977) 701.

TakácsS. and Pevala, A.: The angular dependence of critical currents in superconductors with long narrow defects, Physica Status Solidi A 41 (1977) K175.

Jergel, M., Čabelka, D., Černuško, V., TakácsS., Cheremnykh, P.A. and Lysenko, A.N.: The Nb3Sn critical currents angular dependence – effect of some preparation conditions. Experimental and structural investigations, Czechoslovak J. of Physics B 27 (1977) 468.

TakácsS., Čabelka, D., Černuško, V., and Jergel, M.: The Nb3Sn critical currents angular dependence – effect of some preparation conditions. Theoretical investigations, Czechoslovak J. of Physics B27 (1977) 571.

Beňačka, Š., Bezáková, L., Gaži, Š, TakácsS., and Palaj, J.: Josephson effects in long superconducting bridges with variable thickness, Solid State Commun. 24 (1977) 717.

TakácsS.: The volume pinning force for combined attractive-repulsive flux line-defect interaction potentials, Acta Phys. Slovaca 27 (1977) 39.

Beňačka, Š., TakácsS., Bezáková, L., Gaži, Š.: AC Josephson effect in long superconducting threads in static magnetic field. In: SQUID and its application. Berlin-New York, Walter de Gruyter 1977. P. 147.

1976

TakácsS.: The volume pinning force in superconductors with statistically distributed point defects, Physica Status Solidi (a) 37 (1976) 279.

TakácsS.: Time behaviour of order parameter perturbations near the surface of a superconductor, Czechoslovak J. of Physics B 26 (1976) 901.

Jergel, M., TakácsS. and Černuško, V.: Influence of gas impurities on the critical currents angular dependence of Nb3Sn vapour deposited tapes, Physica Status Solidi A 33 (1976) 85.

TakácsS.: Pinning v sverchprovodnikach so statističeski raspredelennymi defektami. In: 19. Vsesoj. sov. fiz. nizk. temp., HT-19, 1976. P. 429.

Jergel, M., Černuško, V., TakácsS., Cheremnych, P.A. and Fedotov, V.K.: Critical current anisotropy of Nb3Ge superconducting tape prepared by CVD. In: 6th Int. Conf. Magnet Technology. Bratislava, ALFA 1976. P. 1012.

1975

TakácsS.: Pinning in superconductors with attractive and repulsive interaction defect – flux line, Czechoslovak J. of Physics B 25 (1975) 1155.

TakácsS.: The defect structure of superconductors and the critical current in non-transversal magnetic field, Physica Status Solidi A 32 (1975) 485.

TakácsS.: Pinning in superconductors with attractive and repulsive interaction defect – flux line, Czechoslovak J. of Physics B 25 (1975) 1155.

Černuško, V., Jergel, M., TakácsS., and Cheremnykh, P.A.: The critical currents anisotropy of Nb3Sn tapes and its connection with structure and preparation conditions, Progress in Refrigeration Sci & Technol. 14 (1975) 189.

TakácsS.: Pinning in superconductors with weak interaction between defects and flux lines. In: Low Temperature Phys. LT-14 (1975) 301.

TakácsS.: Order parameter perturbations near the surface of superconductor. In: Low Temperature Phys. LT-14 (1975) 387.

1974

TakácsS.: Some new aspects concerning the critical velocity model in superconductors, Czechoslovak J. of Physics B 24 (1974) 457.

1973

TakácsS. and Jergel, M.: Dependence of pinning on grain boundaries on direction of magnetic field, Czechoslovak J. of Physics B 23 (1973) 636.

TakácsS.: New conception of the critical-velocity model in superconductors, Physics Lett. 464 (1973) 450.

Jergel, M., TakácsS., Čabelka, V., Černuško, V., and Kružliak, J.: The angular dependence of Nb3Sn critical currents in transverse magnetic field, Czechoslovak J. of Physics B 23 (1973) 644.

TakácsS. and Hlásnik, I.: The current distribution in homogeneous type II superconductors cylinder, Acta Physica Polonica A 43 (1973) 233.

TakácsS. and Ullmaier, H.: Statistical treatment of pinning on point defects including some correlation effects, Physica Status Solidi (a) 19 (1973) 35.

TakácsS.: The range of validity of the critical-velocity model in superconductors, Czechoslovak J. of Physics B 23 (1973) 1057.

TakácsS.: Statistical theory of pinning on point defects, Czechoslovak J. of Physics B 23 (1973) 1068.

TakácsS.: New conception of the critical-velocity model in superconductor, Physics Lett. 46A (1973) 121.

Jergel, M. and TakácsS.: The dependence of critical currents of Nb3Sn tapes on the direction of transverse magnetic field, J. of Low Temperature Phys. 10 (1973) 469.

1970

TakácsS.: A theory of the resistive state of extremely inhomogeneous type II superconductors and the electron band model, Czechoslovak J. of Physics B 20 (1970) 21.

Ullmaier, H., Papastaikoudis, K., TakácsS., and Schilling, W.: Pinning of flux lines in superconducting Nb due to point defects, Physica Status Solidi 41 (1970) 671.

Ullmaier, H., Papastaikoudis, C., TakácsS., and Schilling, W.: Pinning of flux lines in superconducting niobium, J. of Low Temperature Phys. 12 (1970) 369.

1969

TakácsS.: Der Einfluss der Metallbedeckung auf die supraleitenden Eigenschaften von dünnen Zylinder, Czechoslovak J. of Physics B 19 (1969) 1366.

Hlásnik, I. and TakácsS.: Transition of a homogeneous type II superconductor cylinder under the influence of axial current, Czechoslovak J. of Physics B 19 (1969) 59.

1968

TakácsS.: The critical parameters of thin type II superconductor cy linder coated with normal metal, Physics Lett. A 28 (1968) 349.

TakácsS.: Das Lamellarmodell bei endlichen Supraleitern zweiter Art, Fyzikálny časopis 18 (1968) 79.

1967

TakácsS.: Die Entstehung der Flusswirbel im Typ II Supraleiter, Zeitschrift für Physik 199 (1967) 495.

TakácsS.: Der Flusseintritt in Supraleiter II. Art, Physica Status Solidi 21 (1967) 709.