Field induced nano to macro domain ferroelectric transition in relaxor lead magnesium niobate ceramic

Temperature dependent electric response under the application of 10 kV/cm dc electric field and PE loop measurements suggest reduction in diffuseness and degree of relaxation in perovskite relaxor ferroelectric PbMg1/3Nb2/3O3 ceramic. Abnormality at ~ 195 K is assigned to nano to macro domain ferroelectric transition but no evidence of disappearance of CORs is noticed. Cheng’s power law is found to give reasonable fitting parameters compared to the Vogel-Fulcher relations.Due to an internal processing error, an incorrect article was published on 10 April 2018. AIP Publishing apologizes for this error. The correct article, "Field induced nano to macro domain ferroelectric transition in relaxor lead magnesium niobate ceramic" by Adityanarayan H. Pandey and S. M. Gupta, was published on 12 June 2018.Temperature dependent electric response under the application of 10 kV/cm dc electric field and PE loop measurements suggest reduction in diffuseness and degree of relaxation in perovskite relaxor ferroelectric PbMg1/3Nb2/3O3 ceramic. Abnormality at ~ 195 K is assigned to nano to macro domain ferroelectric transition but no evidence of disappearance of CORs is noticed. Cheng’s power law is found to give reasonable fitting parameters compared to the Vogel-Fulcher relations.Due to an internal processing error, an incorrect article was published on 10 April 2018. AIP Publishing apologizes for this error. The correct article, "Field induced nano to macro domain ferroelectric transition in relaxor lead magnesium niobate ceramic" by Adityanarayan H. Pandey and S. M. Gupta, was published on 12 June 2018.