Add to ORKGThe science of manganites is characterised by a close interplay between charge, spin and lattice degrees of freedom [1-3], arising from the similarities in the energy scales associated with each of these. Besides giving rise to spectacular phenomena [2], such as the colossal magnetoresistance, charge ordering, electronic and magnetic transitions induced by a variety of impulses (composition, temperature, magnetic field and photon field, to name a few), it has been recently realised that phase coexistence plays a very important role in controlling the properties of these materials. It is believed that many of these manganites contain an intricate mixture of different phases, typically a ferromagnetic metallic phase along with an antiferromag...
We examined thin epitaxial films La<SUB>5/8-y</SUB>Pr<SUB>y</SUB>Ca<SUB>3/8</SUB>MnO<SUB>3</SUB> (LP...
We develop a theory to understand various types of electronic collective behaviors in manganites, su...
We examined thin epitaxial films La5/8-yPryCa3/8MnO3 (LPCMO:y=0.275-0.3) in situ by Lorentz transmis...
The science of manganites is characterised by a close interplay between charge, spin and lattice deg...
The main focus of this thesis is in understanding the role of phase separation and microstructure in...
Manganites with the perovskite structure exhibit a variety of unusual physical properties such as a ...
Transition metal oxides, such as the mixed-valent rare-earth manganites Ln(1−x)AxMnO3 (Ln, rare-eart...
Rare earth manganites exhibit colossal magnetoresistance (CMR). There is evidence that alloyed singl...
Transition metal oxides, such as the mixed-valent rare-earth manganites $Ln_{(1-x)}AxMnO_3$ (Ln, ra...
We examined thin epitaxial films Lasl8_yPryCa3l8Mn03 (LPCMO:y=O.275-0.3) in situ by Lorentz transmis...
Transition metal oxides, such as the mixed-valent rare-earth manganites $Ln_{(1-x)}AxMnO_3$ (Ln, ra...
Many transition metal oxide materials of high chemical purity are not necessarily monophasic. Thus, ...
Recent computational studies of models for manganese oxides have revealed a rich phase diagram, whic...
Many transition metal oxide materials of high chemical purity are not necessarily monophasic. Thus, ...
© 2017 Taylor & Francis Group, LLC.Local charged states have been induced at the surface of lanthanu...
We examined thin epitaxial films La<SUB>5/8-y</SUB>Pr<SUB>y</SUB>Ca<SUB>3/8</SUB>MnO<SUB>3</SUB> (LP...
We develop a theory to understand various types of electronic collective behaviors in manganites, su...
We examined thin epitaxial films La5/8-yPryCa3/8MnO3 (LPCMO:y=0.275-0.3) in situ by Lorentz transmis...
The science of manganites is characterised by a close interplay between charge, spin and lattice deg...
The main focus of this thesis is in understanding the role of phase separation and microstructure in...
Manganites with the perovskite structure exhibit a variety of unusual physical properties such as a ...
Transition metal oxides, such as the mixed-valent rare-earth manganites Ln(1−x)AxMnO3 (Ln, rare-eart...
Rare earth manganites exhibit colossal magnetoresistance (CMR). There is evidence that alloyed singl...
Transition metal oxides, such as the mixed-valent rare-earth manganites $Ln_{(1-x)}AxMnO_3$ (Ln, ra...
We examined thin epitaxial films Lasl8_yPryCa3l8Mn03 (LPCMO:y=O.275-0.3) in situ by Lorentz transmis...
Transition metal oxides, such as the mixed-valent rare-earth manganites $Ln_{(1-x)}AxMnO_3$ (Ln, ra...
Many transition metal oxide materials of high chemical purity are not necessarily monophasic. Thus, ...
Recent computational studies of models for manganese oxides have revealed a rich phase diagram, whic...
Many transition metal oxide materials of high chemical purity are not necessarily monophasic. Thus, ...
© 2017 Taylor & Francis Group, LLC.Local charged states have been induced at the surface of lanthanu...
We examined thin epitaxial films La<SUB>5/8-y</SUB>Pr<SUB>y</SUB>Ca<SUB>3/8</SUB>MnO<SUB>3</SUB> (LP...
We develop a theory to understand various types of electronic collective behaviors in manganites, su...
We examined thin epitaxial films La5/8-yPryCa3/8MnO3 (LPCMO:y=0.275-0.3) in situ by Lorentz transmis...