Successive Magnetic-Field-Induced Transitions and Colossal Magnetoelectric Effect inNi3TeO6

Abstract: We report the discovery of a metamagnetic phase transition in a polar antiferromagnet Ni 3 TeO 6 that occurs at 52 T. The new phase transition accompanies a colossal magnetoelectric effect, with a magneticfield-induced polarization change of 0.3 μC=cm 2 , a value that is 4 times larger than for the spin-flop transition at 9 T in the same material, and also comparable to the largest magnetically induced polarization changes observed to date. Via density-functional calculations we construct a full microscopic mo… Show more

“…The thermodynamical α-θ transition field is obtained at around 90 T. Recently, such an ultrahigh magnetic field becomes accessible using non-destructive pulse magnets and applied to the researches in condensed matter physics [19][20][21][22]. If the magnetic field is generated for few ms, H max = 100 T might be enough to observe the θ phase since hysteresis becomes smaller.…”

H−T phase diagram of solid oxygen

“…The thermodynamical α-θ transition field is obtained at around 90 T. Recently, such an ultrahigh magnetic field becomes accessible using non-destructive pulse magnets and applied to the researches in condensed matter physics [19][20][21][22]. If the magnetic field is generated for few ms, H max = 100 T might be enough to observe the θ phase since hysteresis becomes smaller.…”

H−T phase diagram of solid oxygen

“…Moreover, Ni 3 TeO 6 sports the largest linear magnetoelectric coupling constant in a single-phase material known to date (α = 1, 300 ps/m) [13]. Metamagnetic transitions accompanied by extraordinarily large polarization changes have been discovered at 52 and 70 T [15], and indications of an unexplored transition between 30 and 35 T were observed as well [16]. The colossal polarization, rich magnetic phase diagram, and large spin-orbit coupling due to incorporation of the Te centers raise the possibility of large dynamic magnetoelectric coupling in this system.…”

“…Recent magnetization and magneto-infrared experiments do in fact reveal the possibility of an unexplored transition between 30 and 35 T as well as metamagnetic transitions at 52 and 70 T for B c [15,16].…”

Magnetoelectric Coupling through the Spin Flop Transition inNi3TeO6

“…Examples include the classic spin flop, 1-6 magnetic saturation transitions, [7][8][9] and those with a sequence of metamagnetic, helical, and nano-pantograph spin states. [10][11][12] The emergent class of tunable multiferroics with chemical formula [(CH 3 ) 2 NH 2 ]M (HCOO) 3 (M = Mn 2+ , Fe 2+ , Ni 2+ , Co 2+ ) provides a number of exciting opportunities in this regard. The Mn analog [(CH 3 ) 2 NH 2 ]Mn(HCOO) 3 is ferroelectric below T C =185 K with polarization P =1.5 µC/cm 2 .…”

Magnetic field-temperature phase diagram of multiferroic [(CH3)2NH2]Mn(HCOO)3<