Ti3CrCu4: A possible 2-D ferromagnetic spin fluctuating system

Ti3CrCu4: A possible 2-D ferromagnetic spin fluctuating system

Ti3CrCu4 is a new ternary compound which crystallizes in the tetragonal Ti3Pd5 structure type. The Cr atoms form square nets in the a-b plane (a = 3.124 Å) which are separated by an unusually large distance c = 11.228 Å along the tetragonal axis, thus forming a -2-D Cr-sublattice. The paramagnetic s...

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Main Authors: S. K. Dhar, A. Provino, P. Manfrinetti, R. Kulkarni, Neeraj Goyal, D. Paudyal
Format: Article
Language:English
Published: AIP Publishing LLC 2016-05-01
Series:AIP Advances
Online Access:http://dx.doi.org/10.1063/1.4943922
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spelling doaj-9bd0d103a2fa449e870c97c8612ceff22020-11-24T22:32:14ZengAIP Publishing LLCAIP Advances2158-32262016-05-0165055817055817-610.1063/1.4943922101691ADVTi3CrCu4: A possible 2-D ferromagnetic spin fluctuating systemS. K. Dhar0A. Provino1P. Manfrinetti2R. Kulkarni3Neeraj Goyal4D. Paudyal5Department of Condensed Matter Physics & Materials Science, T.I.F.R., Homi Bhabha Road, Colaba, Mumbai, 400005, IndiaDepartment of Chemistry, University of Genova, Via Dodecaneso 31, 16146 Genova, ItalyDepartment of Chemistry, University of Genova, Via Dodecaneso 31, 16146 Genova, ItalyDepartment of Condensed Matter Physics & Materials Science, T.I.F.R., Homi Bhabha Road, Colaba, Mumbai, 400005, IndiaDepartment of Condensed Matter Physics & Materials Science, T.I.F.R., Homi Bhabha Road, Colaba, Mumbai, 400005, IndiaThe Ames Laboratory, US Department of Energy, Iowa State University, Ames, IA 50011-3020, USATi3CrCu4 is a new ternary compound which crystallizes in the tetragonal Ti3Pd5 structure type. The Cr atoms form square nets in the a-b plane (a = 3.124 Å) which are separated by an unusually large distance c = 11.228 Å along the tetragonal axis, thus forming a -2-D Cr-sublattice. The paramagnetic susceptibility is characterized by a low effective moment, μeff = 1.1 μB, a low paramagnetic Curie temperature θP (below 7 K) and a temperature independent χ0 = 6.7 x 10−4 emu/mol. The magnetization at 1.8 K increases rapidly with field nearly saturating to 0.2 μB/f.u. The zero field heat capacity C/T shows an upturn below 7 K (∼190 mJ/mol K2 at ∼0.1K) which is suppressed in applied magnetic fields and interpreted as suggesting the presence of spin fluctuations. The resistivity at low temperatures shows non-Fermi liquid behavior. Overall, the experimental data thus reveal an unusual magnetic state in Ti3CrCu4, which likely has its origin in the layered nature of the Cr sub-lattice and ferromagnetic spin fluctuations. Density functional theoretical calculations reveal a sharp Cr density of states peak just above the Fermi level, indicating the propensity of Ti3CrCu4 to become magnetic.http://dx.doi.org/10.1063/1.4943922
collection DOAJ
language English
format Article
sources DOAJ
author S. K. Dhar
A. Provino
P. Manfrinetti
R. Kulkarni
Neeraj Goyal
D. Paudyal
spellingShingle S. K. Dhar
A. Provino
P. Manfrinetti
R. Kulkarni
Neeraj Goyal
D. Paudyal
Ti3CrCu4: A possible 2-D ferromagnetic spin fluctuating system
AIP Advances
author_facet S. K. Dhar
A. Provino
P. Manfrinetti
R. Kulkarni
Neeraj Goyal
D. Paudyal
author_sort S. K. Dhar
title Ti3CrCu4: A possible 2-D ferromagnetic spin fluctuating system
title_short Ti3CrCu4: A possible 2-D ferromagnetic spin fluctuating system
title_full Ti3CrCu4: A possible 2-D ferromagnetic spin fluctuating system
title_fullStr Ti3CrCu4: A possible 2-D ferromagnetic spin fluctuating system
title_full_unstemmed Ti3CrCu4: A possible 2-D ferromagnetic spin fluctuating system
title_sort ti3crcu4: a possible 2-d ferromagnetic spin fluctuating system
publisher AIP Publishing LLC
series AIP Advances
issn 2158-3226
publishDate 2016-05-01
description Ti3CrCu4 is a new ternary compound which crystallizes in the tetragonal Ti3Pd5 structure type. The Cr atoms form square nets in the a-b plane (a = 3.124 Å) which are separated by an unusually large distance c = 11.228 Å along the tetragonal axis, thus forming a -2-D Cr-sublattice. The paramagnetic susceptibility is characterized by a low effective moment, μeff = 1.1 μB, a low paramagnetic Curie temperature θP (below 7 K) and a temperature independent χ0 = 6.7 x 10−4 emu/mol. The magnetization at 1.8 K increases rapidly with field nearly saturating to 0.2 μB/f.u. The zero field heat capacity C/T shows an upturn below 7 K (∼190 mJ/mol K2 at ∼0.1K) which is suppressed in applied magnetic fields and interpreted as suggesting the presence of spin fluctuations. The resistivity at low temperatures shows non-Fermi liquid behavior. Overall, the experimental data thus reveal an unusual magnetic state in Ti3CrCu4, which likely has its origin in the layered nature of the Cr sub-lattice and ferromagnetic spin fluctuations. Density functional theoretical calculations reveal a sharp Cr density of states peak just above the Fermi level, indicating the propensity of Ti3CrCu4 to become magnetic.
url http://dx.doi.org/10.1063/1.4943922
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