Add to ORKGGadolinium iron garnet was milled in a high energy ball mill to study its magnetic properties in the nanocrystalline regime. XRD reveals the decomposition of the garnet phase into Gd-orthoferrite and Gd2O3 on milling. The variation of saturation magnetization and coercivity with milling is attributed to a possible shift in the compensation temperature oil grain size reduction and an increase in the orthoferrite content. The Mossbauer spectrum at 16 K is characteristic of the magnetically ordered state corresponding to GdIG, GdFeO3 and alpha-Fe2O3 whereas at room temperature it is a superparamagnetic doublet
Nanoscale maghemite samples were obtained by a solid-state displacement reaction activated by mechan...
Gadolinium (Gd) metal is of great interest in applications such as contrast-enhanced MRI and magneti...
We report here the magnetocaloric effect (MCE) in bulk and nanostructured gadolinium iron garnets (G...
Gadolinium iron garnet was milled in a high energy ball mill to study its magnetic properties in the...
Gadolinium iron garnet was milled in a high energy ball mill to study its magnetic properties in the...
Gadolinium iron garnet was milled in a high energy ball mill to study its magnetic properties in the...
The Gd3Fe3Al2O12 compound was synthesized at 1200 °C by solid state reaction and subjected to a high...
The Gd(3)Fe(5)O(12) nanocrystalline Gadolinium Iron Garnet (GdIG) obtained from a sintered block was...
The Gd(3)Fe(5)O(12) nanocrystalline Gadolinium Iron Garnet (GdIG) obtained from a sintered block was...
The influence of microstructural changes from nano to micron grain size regime towards their structu...
α-Fe2O3 nanocrystallines were prepared by direct transformation via high energy ball milling treatme...
Structural changes in the nanocrystalline magnetite induced by mechanical milling were studied by me...
As nanoscale science continues to flourish, scientists strive to understand how structure and order ...
Rare earth iron garnets (RIG) have been extensively studied as they are an important class of ferrim...
Nanoscale maghemite samples were obtained by a solid-state displacement reaction activated by mechan...
Nanoscale maghemite samples were obtained by a solid-state displacement reaction activated by mechan...
Gadolinium (Gd) metal is of great interest in applications such as contrast-enhanced MRI and magneti...
We report here the magnetocaloric effect (MCE) in bulk and nanostructured gadolinium iron garnets (G...
Gadolinium iron garnet was milled in a high energy ball mill to study its magnetic properties in the...
Gadolinium iron garnet was milled in a high energy ball mill to study its magnetic properties in the...
Gadolinium iron garnet was milled in a high energy ball mill to study its magnetic properties in the...
The Gd3Fe3Al2O12 compound was synthesized at 1200 °C by solid state reaction and subjected to a high...
The Gd(3)Fe(5)O(12) nanocrystalline Gadolinium Iron Garnet (GdIG) obtained from a sintered block was...
The Gd(3)Fe(5)O(12) nanocrystalline Gadolinium Iron Garnet (GdIG) obtained from a sintered block was...
The influence of microstructural changes from nano to micron grain size regime towards their structu...
α-Fe2O3 nanocrystallines were prepared by direct transformation via high energy ball milling treatme...
Structural changes in the nanocrystalline magnetite induced by mechanical milling were studied by me...
As nanoscale science continues to flourish, scientists strive to understand how structure and order ...
Rare earth iron garnets (RIG) have been extensively studied as they are an important class of ferrim...
Nanoscale maghemite samples were obtained by a solid-state displacement reaction activated by mechan...
Nanoscale maghemite samples were obtained by a solid-state displacement reaction activated by mechan...
Gadolinium (Gd) metal is of great interest in applications such as contrast-enhanced MRI and magneti...
We report here the magnetocaloric effect (MCE) in bulk and nanostructured gadolinium iron garnets (G...
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