[seminar] Podsjetnik na DANASNJI seminar na IF-u u 15:00h

Thu Nov 24 10:33:00 CET 2016

Postovani,
podsjecamo Vas na danasnji seminar na Institutu za fiziku u 15:00 sati:

      Institut za fiziku, Bijenicka cesta 46,

      predavaonica u zgradi Mladen Paic

      cetvrtak, 24. studenog 2016., u 15:00 sati

      Spin-charge-lattice coupling in RMn2O5 multiferroics

      Dr. Sumanta Chattopadhyay

      INAC/MEM/Laboratory Magnetism and Neutron Diffraction (MDN),CEA-Grenoble, 38000 Grenoble, France
      E-mail: ch.sumanta at gmail.com

      Recently, a magnetically frustrated oxide family with general formula RMn2O5 (R = rare earth, Bi, Y) is drawing considerable attention because of its spin order influenced ferroelectricity below ~40 ± 5 K with an extremely large magnetoelectric coupling. In this multiferroic family, the origin of the large magnetoelectric coupling has been thoroughly studied especially for the members having small R3+ ions. However, the real microscopic origin of the ferroelectricity is still a matter of great debate. In addition, understanding about the influence of the R3+ ions on the magnetic and electric orders is not clear and further investigations are required to settle this issue. In this context, studies on the RMn2O5 compositions with large R3+ ions could provide crucial information to elucidate these ambiguous issues.

      In this presentation, the focus will predominantly be on a particular member of the RMn2O5 series viz. NdMn2O5. The reasons for choosing this particular composition are twofold. It represents an RMn2O5 compound with large R3+ ion and it lies in between the paraelectric PrMn2O5 and the ferroelectric SmMn2O5 as far as the compositional phase diagram is concerned. With the help of bulk magnetization, heat capacity, electric polarization, X-ray diffraction, and neutron diffraction data, I would like to describe the multiferroic and the structural properties of this interesting compound [1]. Whenever necessary, comparisons among NdMn2O5 and other typical RMn2O5 compositions will be presented to have a broad overview of this exotic multiferroic series. To address the ambiguous issue regarding the true origin of the ferroelectrity in the RMn2O5 family, I would also like to discuss about our recent results of the single crystal X-ray diffraction measurements performed at 300 K on various multiferroic members of this family of compounds. These results clearly reveal that a weak ferroelectric state can be present even at room temperature in the paramagnetic phase of the RMn2O5 oxides and the low temperature ferrolectricity, which is strong, is actually a spin enhanced process [2].

      [1] S. Chattopadhyay, V. Balédent, F. Damay, A. Gukasov, E. Moshopoulou, P.Auban-Senzier, C. Pasquier, G. André, F. Porcher, E. Elkaim, C. Doubrovsky, M. Greenblatt, and P. Foury-Leylekian, Phys. Rev. B 93, 104406 (2016).

      [2] V. Balédent, S. Chattopadhyay, P. Fertey, M. B. Lepetit, M. Greenblatt, B. Wanklyn, F. O. Saouma, J. I. Jang, and P. Foury-Leylekian, Phys. Rev. Lett. 114, 117601 (2015).

      Voditelji seminara IF-a: Natasa Vujicic i Damir Staresinic 

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