Functional integration in itinerant magnets: what does it mean?SAMSON, J. H.Journal of magnetism and magnetic materials. 1995, Vol 140-44, Num 1, pp 203-204, issn 0304-8853Conference Paper

Zero-point spin fluctuations in itinerant magnetismSOLONTSOV, A. Z; WAGNER, D.Journal of magnetism and magnetic materials. 1995, Vol 140-44, Num 1, pp 199-200, issn 0304-8853Conference Paper

Large magnetocaloric effects enhanced by partial substitution of Ce for La in La(Fe_0.88Si_0.12)₁₃ compoundFUJIEDA, S; FUJITA, A; FUKAMICHI, K et al.Journal of alloys and compounds. 2006, Vol 408-12, pp 1165-1168, issn 0925-8388, 4 p.Conference Paper

Spin anharmonicity and zero-point fluctuations in weak itinerant electron magnetsZOLONTSOV, A. Z; WAGNER, D.Journal of physics. Condensed matter (Print). 1994, Vol 6, Num 36, pp 7395-7402, issn 0953-8984Article

Magnetocaloric effect of Co(S1-xSex)2WADA, H; TANAKA, K; TAJIRI, A et al.Journal of magnetism and magnetic materials. 2005, Vol 290-91, pp 706-708, issn 0304-8853, 3 p., 1Conference Paper

Spin fluctuations and density of electron states in an itinerant ferromagnet near the Curie pointPOVZNER, A. A.Physics of the solid state. 1993, Vol 35, Num 11, pp 1557-1558, issn 1063-7834Article

Magnetocaloric and barocaloric effects in Mn(As_0.7Sb_0.3)DE MEDEIROS, L. G; DE OLIVEIRA, N. A; TROPER, A et al.Journal of magnetism and magnetic materials. 2010, Vol 322, Num 9-12, pp 1558-1560, issn 0304-8853, 3 p.Conference Paper

A thermodynamic framework for a system with itinerant-electron magnetismWANG, Y; HECTOR, L. G; ZHANG, H et al.Journal of physics. Condensed matter (Print). 2009, Vol 21, Num 32, issn 0953-8984, 326003.1-326003.7Article

Tight binding analogue of cyclotron orbitsWAL, A.Physica status solidi. B. Basic research. 2007, Vol 244, Num 7, pp 2559-2563, issn 0370-1972, 5 p.Conference Paper

Internal fields observed by heavy itinerant electrons in the superconducting ferromagnet UGe₂SATO, Noriaki K; ASO, Naofumi.Journal of the Physical Society of Japan. 2005, Vol 74, Num 10, pp 2870-2871, issn 0031-9015, 2 p.Article

Magnetism on the surface of the bulk paramagnetic intermetallic compound YCo₂KHMELEVSKYI, S; MOHN, P; REDINGER, J et al.Physical review letters. 2005, Vol 94, Num 14, pp 146403.1-146403.4, issn 0031-9007Article

Tight-binding LMTO calculations on the stability of a new multiple spin-density-wave state in γ-FeKAKEHASHI, Y; KIMURA, N; JEPSEN, O et al.Journal of magnetism and magnetic materials. 2001, Vol 226-30, pp 394-396, issn 0304-8853, 1Conference Paper

Resonant wavefunctions and exchange effect in nanostructuresPRICE, P. J.Superlattices and microstructures. 1999, Vol 26, Num 6, pp 363-365, issn 0749-6036Article

Construction of analytically tractable mean-field theories for quantum models. I: General formalism with application to the Hubbard model at strong couplingJANIS, V; VOLLHARDT, D.Zeitschrift für Physik. B, Condensed matter. 1993, Vol 91, Num 3, pp 317-323, issn 0722-3277Article

Cluster simulation of itinerant magnetismCALLAWAY, J.Physica, B + C. 1988, Vol 149, Num 1-3, pp 17-21, issn 0378-4363Article

Effects of geometry in itinerant electron magnetsNAKAMURA, H; MURO, Y; KOHARA, T et al.Journal of physics. Condensed matter (Print). 2007, Vol 19, Num 14, issn 0953-8984, 145285.1-145285.6Conference Paper

Direct measurement of magnetocaloric effects in itinerant-electron metamagnets La(Fe_xSi_1-x)₁₃ compounds and their hydridesFUJIEDA, S; HASEGAWA, Y; FUJITA, A et al.Journal of magnetism and magnetic materials. 2004, Vol 272-76, pp 2365-2366, issn 0304-8853, 2 p., 3Conference Paper

From heavy fermions to random-localized-site behaviour via Anderson localizationCOOPER, B. R; VOGT, O; SHENG, Q.-G et al.Philosophical magazine. B. Physics of condensed matter. Statistical mechanics, electronic, optical and magnetic properties. 1999, Vol 79, Num 5, pp 683-702, issn 1364-2812Article

Itinerant-localized duality theory for pseudogaps of ARPES in the normal state of high-T_c cuprate superconductorsNARIKIYO, O; MIYAKE, K.Physica. C. Superconductivity. 1998, Vol 307, Num 3-4, pp 254-260, issn 0921-4534Article

A systematic analysis of the ferromagnetism in the itinerant electron modelOKUMURA, K.Journal of magnetism and magnetic materials. 1995, Vol 140-44, Num 1, pp 191-192, issn 0304-8853Conference Paper

Tricritical behaviour in a simple model of an itinerant antiferromagnetCHAMATI, H.Physica status solidi. B. Basic research. 1994, Vol 182, Num 1, pp 189-199, issn 0370-1972Article

Magnetic translation group for grapheneWAL, Andrzej.Physica. E, low-dimentional systems and nanostructures. 2008, Vol 40, Num 7, pp 2639-2641, issn 1386-9477, 3 p.Conference Paper

Signatures of electron fractionalization in ultraquantum bismuthBEHNIA, Kamran; BALICAS, Luis; KOPELEVICH, Yakov et al.Science (Washington, D.C.). 2007, Vol 317, Num 5845, pp 1729-1731, issn 0036-8075, 3 p.Article

Heat capacity measurements of itinerant electron magnetism in Y₃Ni_13-xCO_xB₂ systemRILLO, C; ARAUZO, A; PLUGARU, N et al.Journal of magnetism and magnetic materials. 2007, Vol 316, Num 2, pp 166-169, issn 0304-8853, 4 p.Conference Paper

Resonating bipolaron driven pseudogap phaseRANNINGER, J.Physica. C. Superconductivity. 2007, Vol 460-462, Num 1, pp 218-221, issn 0921-4534, 4 p.Conference Paper