Chemical pressure tuning of URu$_2$Si$_2$ via isoelectronic substitution   of Ru with Fe

Pinaki Das (1); N. Kanchanavatee (2; 3); J. S. Helton (4; 5); K.; Huang (3; 6) R. E. Baumbach (1; 7); E. D. Bauer (1); B. D. White (2 and; 3) V. W. Burnett (2; 3); M. B. Maple (2; 3; 6); J. W. Lynn (5); M.; Janoschek (1) ((1) MPA-CMMS; Los Alamos National Laboratory (2) Department of; Physics; University of California; San Diego (3) Center for Advanced; Nanoscience; University of California; San Diego (4) The United States Naval; Academy; Department of Physics (5) NIST Center for Neutron Research; National; Institute of Standards; Technology (6) Materials Science; Engineering; Program; University of California; San Diego (7) National High Magnetic Field; Laboratory; Florida State University)

arXiv:1412.5642·cond-mat.str-el·June 23, 2015

Chemical pressure tuning of URu$_2$Si$_2$ via isoelectronic substitution of Ru with Fe

Pinaki Das (1), N. Kanchanavatee (2, 3), J. S. Helton (4, 5), K., Huang (3, 6) R. E. Baumbach (1, 7), E. D. Bauer (1), B. D. White (2 and, 3) V. W. Burnett (2, 3), M. B. Maple (2, 3, 6), J. W. Lynn (5), M., Janoschek (1) ((1) MPA-CMMS

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TL;DR

This study demonstrates that substituting Ru with Fe in URu2Si2 acts as chemical pressure, affecting its magnetic phases, and establishes a phase diagram consistent with external pressure effects.

Contribution

It provides experimental evidence linking Fe substitution to chemical pressure effects and maps the phase diagram of URu2Si2 under chemical pressure.

Findings

01

Sharp increase in uranium magnetic moment at x=0.1

02

Chemical pressure correlates with Fe concentration

03

Phase diagram matches external pressure behavior

Abstract

We have used specific heat and neutron diffraction measurements on single crystals of URu $_{2 - x}$ Fe $_{x}$ Si $_{2}$ for Fe concentrations $x$ $\leq$ 0.7 to establish that chemical substitution of Ru with Fe acts as "chemical pressure" $P_{c h}$ as previously proposed by Kanchanavatee et al. [Phys. Rev. B {\bf 84}, 245122 (2011)] based on bulk measurements on polycrystalline samples. Notably, neutron diffraction reveals a sharp increase of the uranium magnetic moment at $x = 0.1$ , reminiscent of the behavior at the "hidden order" (HO) to large moment antiferromagnetic (LMAFM) phase transition observed at a pressure $P_{x} \approx$ 0.5-0.7~GPa in URu $_{2}$ Si $_{2}$ . Using the unit cell volume determined from our measurements and an isothermal compressibility $κ_{T} = 5.2 \times 1 0^{- 3}$ GPa $^{- 1}$ for URu $_{2}$ Si $_{2}$ , we determine the chemical pressure $P_{c h}$ in URu $_{2 - x}$ Fe $_{x}$ Si $_{2}$ as a function…

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