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Enhancement of weak anti-localization signatures in the magneto-resistance of bismuth anti-dot thin filmsRABIN, O; NIELSCH, K; DRESSELHAUS, M. S et al.Applied physics. A, Materials science & processing (Print). 2006, Vol 82, Num 3, pp 471-474, issn 0947-8396, 4 p.Article

Enhanced vortex trapping by a composite antidot lattice in a superconducting Pb filmSILHANEK, A. V; VAN LOOK, L; JONCKHEERE, R et al.Physica. C. Superconductivity. 2007, Vol 460-462, Num 2, pp 1434-1435, issn 0921-4534, 2 p.Conference Paper

Effect of anisotropy on magnetotransport through antidot latticesNAGAO, T.Journal of the Physical Society of Japan. 1995, Vol 64, Num 11, pp 4097-4100, issn 0031-9015Article

Microwave control of directed transport in asymmetric antidot structuresCHEPELIANSKII, A. D.The European physical journal. B, Condensed matter physics. 2006, Vol 52, Num 3, pp 389-396, issn 1434-6028, 8 p.Article

Spin-dependent electronic states and magnetoconductance in a magnetic quantum antidotYONG GUO; BIN WANG; HUI HU et al.Journal of physics. Condensed matter (Print). 2000, Vol 12, Num 14, pp 3359-3367, issn 0953-8984Article

Characterization of the anomalous giant piezoresistance in AlAs two-dimensional electrons with anti-dot latticesGUNAWAN, O; GOKMEN, T; DE POORTERE, E. P et al.Semiconductor science and technology. 2008, Vol 23, Num 8, issn 0268-1242, 085005.1-085005.4Article

Quantization and confinement effects in superconducting nanostructuresMOSHCHALKOV, V. V; BAERT, M; METLUSHKO, V. V et al.Superlattices and microstructures. 1996, Vol 19, Num 3, pp 183-190, issn 0749-6036Article

Anomalous vortex penetrations into square superconducting networksTSUCHIYA, Y; NAKAJIMA, Y; TAMEGAI, T et al.Physica. C. Superconductivity. 2010, Vol 470, Num SUP1, issn 0921-4534, S788-S789Conference Paper

Penetrations and dynamics of vortices in mesoscopic superconducting platesSATE; KATO, M.Physica. C. Superconductivity. 2007, Vol 463-465, pp 258-261, issn 0921-4534, 4 p.Conference Paper

Vortex matter in a thin film of YBCO with columnar indentations : very small and moderate field regimesORTIZ, W. A; ZADOROSNY, R; PASSOS, W. A. C et al.Physica. C. Superconductivity. 2006, Vol 437-38, pp 254-257, issn 0921-4534, 4 p.Conference Paper

Magnetoresistance behavior of nanoscale antidot arraysWANG, C. C; ADEYEYE, A. O; SINGH, N et al.Physical review B. Condensed matter and materials physics. 2005, Vol 72, Num 17, pp 174426.1-174426.8, issn 1098-0121Article

Antidot-superlattices : minibands and magnetotransportROTTER, P; RÖSSLER, U; SILBERBAUER, H et al.Physica. B, Condensed matter. 1995, Vol 212, Num 3, pp 231-236, issn 0921-4526Conference Paper

On the conductivity of lateral-surface superlatticesOAKESHOTT, R. B. S; MACKINNON, A.Journal of physics. Condensed matter (Print). 1993, Vol 5, Num 37, pp 6983-6990, issn 0953-8984Article

Cyclotron mass for a two-dimensional array of antidotsGUMBS, G; DANHONG HUANG.Physical review. B, Condensed matter. 1992, Vol 46, Num 19, pp 12822-12825, issn 0163-1829Article

Resistance Fluctuations and Aharonov-Bohm-Type Oscillations in Antidot Arrays in the Quantum Hall RegimeKATO, Masanori; ENDO, Akira; KATSUMOTO, Shingo et al.Journal of the Physical Society of Japan. 2008, Vol 77, Num 9, issn 0031-9015, 093715.1-093715.4Article

Observation of spin-orbit berry's phase in magnetoresistance of a two-dimensional hole anti-dot systemKANG, Ning; ABE, Eisuke; HASHIMOTO, Yoshiaki et al.Journal of the Physical Society of Japan. 2007, Vol 76, Num 8, issn 0031-9015, 083704.1-083704.4Article

Dynamic regimes in films with a periodic array of antidotsSILHANEK, A. V; RAEDTS, S; VAN BAEL, M. J et al.The European physical journal. B, Condensed matter physics. 2004, Vol 37, Num 1, pp 19-24, issn 1434-6028, 6 p.Article

Vortex matter in active and passive superconducting devicesWÖRDENWEBER, Roger; LAHL, Peter; SELDERS, Peter et al.Journal of low temperature physics. 2003, Vol 130, Num 3-4, pp 435-447, issn 0022-2291, 13 p.Conference Paper

Evolution of magnetic and transport properties in pore-modified CoAlO antidot arraysMA, Y. G; LIM, S. L; ONG, C. K et al.Journal of physics. D, Applied physics (Print). 2007, Vol 40, Num 4, pp 935-941, issn 0022-3727, 7 p.Article

Magnetotransport through random antidot latticesNAGAO, T.Journal of the Physical Society of Japan. 1996, Vol 65, Num 8, pp 2606-2609, issn 0031-9015Article

Vortex interactions in 2 x 2 antidot clustersPUIG, T; ROSSEEL, E; VAN LOOK, L et al.Journal de physique. IV. 1996, Vol 6, Num 3, pp C3.295-C3.300, issn 1155-4339Conference Paper

Mobile electrons on a helium film supported by capillary actionSOMMERFELD, P. K. H; VAN DER HEIJDEN, R. W.Journal of physics. Condensed matter (Print). 1995, Vol 7, Num 50, pp 9731-9736, issn 0953-8984Article

On the conductivity of lateral-surface superlattices in magnetic fieldsOAKESHOTT, R. B. S; MACKINNON, A.Journal of physics. Condensed matter (Print). 1993, Vol 5, Num 37, pp 6991-6998, issn 0953-8984Article

Magneto-optical imaging of magnetic flux patterns in superconducting films with antidotsYURCHENKO, V. V; WÖRDENWEBER, R; GALPERIN, Yu. M et al.Physica. C. Superconductivity. 2006, Vol 437-38, pp 357-360, issn 0921-4534, 4 p.Conference Paper

Proximity effect in the superconducting magnetization of a Pb/Cu bilayer film with an antidot latticeMETLUSHKO, V. V; DELONG, L. E; MOSHCHALKOV, V. V et al.Physica. C. Superconductivity and its applications. 2003, Vol 391, Num 2, pp 196-202, 7 p.Article

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