Abstract
As a part of our program to synthesize new ternary Eu compounds, we report here the formation of Eu{sub 2}CuSi{sub 3} for the first time and its magnetic behaviour by magnetic susceptibility, electrical-resistivity and heat-capacity measurements. This compound is found to crystallize in an AlB{sub 2}-derived hexagonal structure. The results establish that Eu ions are divalent, undergoing long-range ferromagnetic-ordering below 38 K. (author)
Majumdar, Subham;
Mallik, R;
Sampathkumaran, E V
[1]
- Tata Institute of Fundamental Research, Mumbai (India)
Citation Formats
Majumdar, Subham, Mallik, R, and Sampathkumaran, E V.
Magnetic behaviour of a new compound, Eu{sub 2}CuSi{sub 3}.
India: N. p.,
1999.
Web.
Majumdar, Subham, Mallik, R, & Sampathkumaran, E V.
Magnetic behaviour of a new compound, Eu{sub 2}CuSi{sub 3}.
India.
Majumdar, Subham, Mallik, R, and Sampathkumaran, E V.
1999.
"Magnetic behaviour of a new compound, Eu{sub 2}CuSi{sub 3}."
India.
@misc{etde_20049291,
title = {Magnetic behaviour of a new compound, Eu{sub 2}CuSi{sub 3}}
author = {Majumdar, Subham, Mallik, R, and Sampathkumaran, E V}
abstractNote = {As a part of our program to synthesize new ternary Eu compounds, we report here the formation of Eu{sub 2}CuSi{sub 3} for the first time and its magnetic behaviour by magnetic susceptibility, electrical-resistivity and heat-capacity measurements. This compound is found to crystallize in an AlB{sub 2}-derived hexagonal structure. The results establish that Eu ions are divalent, undergoing long-range ferromagnetic-ordering below 38 K. (author)}
place = {India}
year = {1999}
month = {Jul}
}
title = {Magnetic behaviour of a new compound, Eu{sub 2}CuSi{sub 3}}
author = {Majumdar, Subham, Mallik, R, and Sampathkumaran, E V}
abstractNote = {As a part of our program to synthesize new ternary Eu compounds, we report here the formation of Eu{sub 2}CuSi{sub 3} for the first time and its magnetic behaviour by magnetic susceptibility, electrical-resistivity and heat-capacity measurements. This compound is found to crystallize in an AlB{sub 2}-derived hexagonal structure. The results establish that Eu ions are divalent, undergoing long-range ferromagnetic-ordering below 38 K. (author)}
place = {India}
year = {1999}
month = {Jul}
}