Materials Growth & Measurement Laboratory

Michal Falkowski: Charge density wave behaviour in single-crystalline (La, Nd)Pt2Si2

Seminar on Magnetism
 Registration Closed
Date: Wednesday, 21 November 2018 14:10 - 15:10

Venue: lecture room F2, first floor, Ke Karlovu 5 - Prague 2

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We have a pleasure to invite you to attend the joint seminar
of the Department of Condensed Matter Physics (DCMP)
and the Materials Growth and Measurement Laboratory (MGML)



Charge density wave behaviour in single-crystalline (La, Nd)Pt2Si2

lecture given by:

Michal Falkowski

Charles University, Faculty of Mathematics and Physics, DCMP, Ke Karlovu 5, 12116 Prague 2, Czech Republic

The seminar takes place in the lecture room F2 
of the Faculty of Mathematics and Physics, Ke Karlovu 5, Praha 2
on Wednesday, 21.11. 2018 from 14:10 

Vladimír Sechovský
On behalf of the DCMP and MGML


Charge density waves (CDWs) are observed in many metallic conductors, especially in low-dimensional systems. Their existence was first predicted by Rudolf Peierls [1], who prophesied that for T=0K the CDWs would exist in an ideal one-dimensional chain of atoms, lowering the energy of the system and driving a reconstruction of the lattice. The Peierls transition (or sometimes the so-called the Peierls distortion) is an electronic instability in a one-dimensional crystal which occurs because of the particular geometry of the Fermi surface. The highly anisotropic topology of the Fermi surface in low-dimensional systems may favours the creation of a structural instability, therefore, a CDW can be defined as a modulation of the conduction electron density in a metal, associated with a modulation of the lattice atom positions [2]. The occurrence of such a distortion in the periodic crystal lattice with an electronic disturbance may opens up a gap at the Fermi level, and such materials very often undergo a second-order metal-insulator (or metal-semimetal) transition below room temperature, as evidenced by a wide range of transport, magnetic, and specific heat studies.

Rare-earth intermetallic compounds REPt2Si2 that crystallize in the tetragonal CaBe2Ge2 structure (space group P4/nmm) show various ground states through the occurrence of magnetism (Sm [3], Eu [4], Gd [5], Tb [5], Dy [5], Ho [5], Er [5], Tm[5])Pt2Si2, superconductivity (Y [6], La [7], Lu [8])Pt2Si2, or strong electronic correlations that lead to the mixed valence (YbPt2Si2 [9]) and Kondo lattice (CePt2Si2 [10]) behaviour. Among the intermetallics, three compounds (La [7], Pr [11], Nd [12])Pt2Si2 seems to be particularly interesting due to possible CDW transition caused by a structural instability below room temperature. In my talk I will focus on presenting the most crucial results of my research for two single-crystalline compounds LaPt2Si2 and NdPt2Si2, by discussing thermodynamic (specific heat), thermal and electron transport (electrical resistivity, thermoelectric power, thermal conductivity) properties, as well as magnetic and crystallographic properties.

In collaboration with: P. Doležal, A.V. Andreev and L. Havela


[1] R.E. Peierls, Ann. Phys. Leipzig 4 (1930) 121.

[2] R.E. Throne, Phys. Today 49 (1996) 42.

[3] K. Fishiya et al., JPSJ 83 (2014) 113708.

[4] A. Matsuda et al., Acta Phys. Pol. B vol. 34 (2003) 1149.

[5] K. Hiebl and P. Rogl, JMMM 50 (1985) 39.

[6] A.P. Pikul et al., JPCM 29 (2017) 195602.

[7] R. Gupta et al., JPCM 29 (2017) 255601.

[8] M. Samsel-Czekała et al., Physica B 536 (2018) 816.

[9] J. Fikáček et al., Acta Phys. Pol. A vol. 126 (2014) 310.

[10] D. Gignoux et al., Phys. Lett. A vol. 117 (1986)145.

[11] M. Kumar et al., PRB 81 (2010) 125107.

[12] Y. Nagano et al., JPSJ 82 (2013) 064715.


Ke Karlovu 2026/5, 121 16 Prague 2, Czech Republic




All Dates

  • Wednesday, 21 November 2018 14:10 - 15:10


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