Aleksandra Szukiel - Academia.edu (original) (raw)

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Defence Services Medical Academy (DSMA), Yangon, Myanmar (Burma)

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Pachhunga University College( A Only Constitutent College of Mizoram Central University)

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Papers by Aleksandra Szukiel

Contribution to thermal conductivity from conduction electron scattering on crystal field magneti... more Contribution to thermal conductivity from conduction electron scattering on crystal field magnetic excitations is calculated and analyzed for normal rare-earth inter-metallic paramagnets. It is shown that in temperatures much lower than Debye temperature its behavior essentially depends on the ground state of magnetic ion in crystal field and on the excitation energy in relation to . Combined effect from the electron scattering on the crystal-field excitations, on acoustic phonons, and on nonmagnetic impurities is discussed in reference to CF splitting character and to the relative intensities of magnetic and non-magnetic scattering. Total thermal conductivity resulting from these three sources of scattering is calculated for REIn_3 (RE= Nd, Pr, Tm) and compared with experimental data.

arXiv: Strongly Correlated Electrons, 2015

Contribution to thermal conductivity from conduction electron scattering on crystal field magneti... more Contribution to thermal conductivity from conduction electron scattering on crystal field magnetic excitations is calculated and analyzed for normal rare-earth inter-metallic paramagnets. It is shown that in temperatures much lower than Debye temperature TD\TDTD its behavior essentially depends on the ground state of magnetic ion in crystal field and on the excitation energy in relation to TD\TDTD\,. Combined effect from the electron scattering on the crystal-field excitations, on acoustic phonons, and on nonmagnetic impurities is discussed in reference to CF splitting character and to the relative intensities of magnetic and non-magnetic scattering. Total thermal conductivity resulting from these three sources of scattering is calculated for REREREIn$_3$ ($RE=\,$Nd,\,Pr,\,Tm) and compared with experimental data.

Contribution to thermal conductivity from conduction electron scattering on crystal field magneti... more Contribution to thermal conductivity from conduction electron scattering on crystal field magnetic excitations is calculated and analyzed for normal rare-earth inter-metallic paramagnets. It is shown that in temperatures much lower than Debye temperature TD\TDTD its behavior essentially depends on the ground state of magnetic ion in crystal field and on the excitation energy in relation to TD\TDTD\,. Combined effect from the electron scattering on the crystal-field excitations, on acoustic phonons, and on nonmagnetic impurities is discussed in reference to CF splitting character and to the relative intensities of magnetic and non-magnetic scattering. Total thermal conductivity resulting from these three sources of scattering is calculated for REREREIn$_3$ ($RE=\,$Nd,\,Pr,\,Tm) and compared with experimental data.

Contribution to thermal conductivity from conduction electron scattering on crystal field magneti... more Contribution to thermal conductivity from conduction electron scattering on crystal field magnetic excitations is calculated and analyzed for normal rare-earth inter-metallic paramagnets. It is shown that in temperatures much lower than Debye temperature its behavior essentially depends on the ground state of magnetic ion in crystal field and on the excitation energy in relation to . Combined effect from the electron scattering on the crystal-field excitations, on acoustic phonons, and on nonmagnetic impurities is discussed in reference to CF splitting character and to the relative intensities of magnetic and non-magnetic scattering. Total thermal conductivity resulting from these three sources of scattering is calculated for REIn_3 (RE= Nd, Pr, Tm) and compared with experimental data.

arXiv: Strongly Correlated Electrons, 2015

Contribution to thermal conductivity from conduction electron scattering on crystal field magneti... more Contribution to thermal conductivity from conduction electron scattering on crystal field magnetic excitations is calculated and analyzed for normal rare-earth inter-metallic paramagnets. It is shown that in temperatures much lower than Debye temperature TD\TDTD its behavior essentially depends on the ground state of magnetic ion in crystal field and on the excitation energy in relation to TD\TDTD\,. Combined effect from the electron scattering on the crystal-field excitations, on acoustic phonons, and on nonmagnetic impurities is discussed in reference to CF splitting character and to the relative intensities of magnetic and non-magnetic scattering. Total thermal conductivity resulting from these three sources of scattering is calculated for REREREIn$_3$ ($RE=\,$Nd,\,Pr,\,Tm) and compared with experimental data.

Contribution to thermal conductivity from conduction electron scattering on crystal field magneti... more Contribution to thermal conductivity from conduction electron scattering on crystal field magnetic excitations is calculated and analyzed for normal rare-earth inter-metallic paramagnets. It is shown that in temperatures much lower than Debye temperature TD\TDTD its behavior essentially depends on the ground state of magnetic ion in crystal field and on the excitation energy in relation to TD\TDTD\,. Combined effect from the electron scattering on the crystal-field excitations, on acoustic phonons, and on nonmagnetic impurities is discussed in reference to CF splitting character and to the relative intensities of magnetic and non-magnetic scattering. Total thermal conductivity resulting from these three sources of scattering is calculated for REREREIn$_3$ ($RE=\,$Nd,\,Pr,\,Tm) and compared with experimental data.

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