0382314 20240103201413.120121031235959.9 000314414200001 10.1007/s00033-012-0236-6 28 s. cav_un_epca*02553790044-2275641-28Springer ferro-para-magnetism evolution thermodynamics cav_un_auth*0255197 Benešová Barbora D 5 - Ultrazvukové metody D 5 - Ultrasonic Methods UT-L D5 – Ultrasonic Methods Ústav termomechaniky AV ČR, v. v. i. cav_un_auth*0101142 Kružík Martin Matematická teorie rozhodování Department of Decision Making Theory MTR MTR UTIA-B Department of Decision Making Theory Ústav teorie informace a automatizace AV ČR, v. v. i. cav_un_auth*0101187 Roubíček Tomáš Matematická teorie rozhodování Department of Decision Making Theory MTR MTR UTIA-B Department of Decision Making Theory Ústav teorie informace a automatizace AV ČR, v. v. i. http://library.utia.cas.cz/separaty/2012/MTR/kruzik-thermodynamically consistent mesoscopic model of the ferro-paramagnetic transition.pdf IAA100750802 GA AV ČR cav_un_auth*0241214 GA106/08/1397 GA ČR CZ cav_un_auth*0239600 LC06052 GA MŠk CZ cav_un_auth*0229224 GA106/09/1573 GA ČR cav_un_auth*0253996 GAP201/10/0357 GA ČR cav_un_auth*0263489 A continuum evolutionary model for micromagnetics is presented that, beside the standard magnetic balance laws, includes thermomagnetic coupling. To allow conceptually efficient computer implementation, inspired by relaxation method of static minimization problems, our model is mesoscopic in the sense that possible fine spatial oscillations of the magnetization are modeled by means of Young measures. Existence of weak solutions is proved by backward Euler time discretization. 2013 BA 3 UT-L BA RVO:67985556 RVO:61388998 http://hdl.handle.net/11104/0212570 MATHEMATICSAPPLIED 1.153 0.260 >10.0 0.00410 0.732 1718 100 1.062 ScienceCitationIndex Q1 65.707 77.888 Q2 Q2 2013 000314414200001 WOS cav_un_epca*0255379 Zeitschrift für angewandte Mathematik und Physik 0044-2275 1420-9039 Roč. 64 Č. 1 2013 1 28 Springer