Temperature- and magnetic-field-induced change of electric polarization in a multiferroic Mn0:93Co0:07W0:93O 4-δ single crystal

Li Qin Yan, Bumsung Lee, Sae Hwan Chun, Ingyu Kim, Jae Ho Chung, Sung Baek Kim, Ju Young Park, Suk Ho Lee, Yisheng Chai, Kee Hoon Kim

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4 Citations (Scopus)


We have investigated magnetic and electrical properties in a multiferroic Mn0:93Co0:07W0:93O4-δ single crystal grown using the flux method, in which spiral spin orderings are known to be stabilized and thus magnetically induced electric polarization develops consistent with the spin current model. Upon temperature being lowered, two successive magnetic transitions appeared at Tn1 = 13:0 and TN2 = 12:2 K. While there was no development of ferroelectric polarization P below T n1, a dominant P along the a-axis (Pa) and a small P along the b-axis (Pb) clearly developed below Tn2, suggesting the stabilization of a spiral order with its basal plane close to the ac-plane. The magnetization measurements also support the existence of the spiral order with ac-basal plane below TN2 by exhibiting the largest spin susceptibility along the b-axis and the smaller ones along the a- and c-axes. Upon further lowering temperature below T* - 10:1 K, P a starts to decrease significantly accompanied by a small increase of Pb while the magnetic susceptibility along the c-axis gradually becomes the largest and concomitantly shows a saturation. We have also found that the magnitude of Pa or Pb can be controlled smoothly at low temperatures as a function of magnetic field less than 9 T. These findings show that the magnitude and direction of the electric polarization vector in Mn0:93Co0:07W0:93O 4-δ can be varied as a function of temperature and magnetic field via the changes in the properties of the associated spiral phases.

Original languageEnglish
Article number094708
JournalJournal of the Physical Society of Japan
Issue number9
Publication statusPublished - 2013 Sept


  • Ferroelectricity
  • MnWO
  • Multiferroicity
  • Spiral magnetism

ASJC Scopus subject areas

  • General Physics and Astronomy


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