Your search keyword '"Ribeiro, Raquel"' showing total 7 results

1. Machine learning accelerated prediction of Ce-based ternary compounds involving antagonistic pairs

Author

Xia, Weiyi, Tee, Wei-Shen, Canfield, Paul C., Garcia, Fernando Assis, Ribeiro, Raquel D, Lee, Yongbin, Ke, Liqin, Flint, Rebecca, and Wang, Cai-Zhuang

Subjects

Condensed Matter - Materials Science, Physics - Computational Physics

Abstract

The discovery of novel quantum materials within ternary phase spaces containing antagonistic pair such as Fe with Bi, Pb, In, and Ag, presents significant challenges yet holds great potential. In this work, we investigate the stabilization of these immiscible pairs through the integration of Cerium (Ce), an abundant rare-earth and cost-effective element. By employing a machine learning (ML)-guided framework, particularly crystal graph convolutional neural networks (CGCNN), combined with first-principles calculations, we efficiently explore the composition/structure space and predict 9 stable and 37 metastable Ce-Fe-X (X=Bi, Pb, In and Ag) ternary compounds. Our findings include the identification of multiple new stable and metastable phases, which are evaluated for their structural and energetic properties. These discoveries not only contribute to the advancement of quantum materials but also offer viable alternatives to critical rare earth elements, underscoring the importance of Ce-based intermetallic compounds in technological applications.

Published

2024

2. Effects of Co substitution on the structural and magnetic properties of Sr(Ni$_{1-x}$Co$_x$)$_2$P$_2$

Author

Schmidt, Juan, Gorgen-Lesseux, Guilherme, Ribeiro, Raquel A., Bud'ko, Sergey L., and Canfield, Paul C.

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science

Abstract

Although SrNi$_2$P$_2$ adopts the common ThCr$_2$Si$_2$ structure for $T\geq 325$ K, being in an uncollapsed tetragonal (ucT) state, on cooling below 325 K it adopts a one-third collapsed orthorhombic (tcO) phase where one out of every three P-rows bond across the Sr layers. On the other hand, SrCo$_2$P$_2$ only exhibits the uncollapsed ThCr$_2$Si$_2$ structure from room temperature down to 1.8 K. Neither SrNi$_2$P$_2$ nor SrCo$_2$P$_2$ manifest magnetic transitions down to 50 mK and 2 K, respectively. In this work we report the effects of Co substitution in Sr(Ni$_{1-x}$Co$_x$)$_2$P$_2$, which allows for tuning the transition between the one-third collapsed and the uncollapsed structure. We find a rapid decrease of the one-third collapsed structural transition temperature with increasing Co fraction, until reaching full suppression for $x \geq 0.1$. Substitution levels in the range $0.11\leq x\leq 0.58$ show no signs of any transition down to 1.8 K in the magnetization or resistance measurements in the range $1.8\ \text{K}\leq T\leq 300\ \text{K}$. However, different magnetically ordered states emerge for $x\geq 0.65$, and disappear for $x\geq 0.99$, recovering the known paramagnetic properties of the parent compound SrCo$_2$P$_2$. These results are summarized in a phase diagram, built upon the characterization done on single crystals with different Co fraction. Both the magnetic and structural properties are compared to other systems with ThCr$_2$Si$_2$ structure that exhibit magnetic ordering and collapsed tetragonal transitions. The magnetic ordering and moment formation are well described by Takahashi's spin fluctuation theory of itinerant electron magnetism., Comment: 17 pages, 20 figures

Published

2023

3. A Low Temperature Structural Transition in Canfieldite, Ag$_8$SnS$_6$, Single Crystals

Author

Slade, Tyler J., Gvozdetskyi, Volodymyr, Wilde, John M., Kreyssig, Andreas, Gati, Elena, Wang, Lin-Lin, Mudryk, Yaroslav, Ribeiro, Raquel A., Pecharsky, Vitalij K., Zaikina, Julia V., Budko, Sergey L., and Canfield, Paul C.

Subjects

Condensed Matter - Materials Science

Abstract

Canfieldite, Ag$_8$SnS$_6$, is a semiconducting mineral notable for its high ionic conductivity, photosensitivity, and low thermal conductivity. We report the solution growth of large single crystals of Ag$_8$SnS$_6$ of mass up to 1 g from a ternary Ag-Sn-S melt. On cooling from high temperature, Ag$_8$SnS$_6$ undergoes a known cubic (F-43m) to orthorhombic (Pna2$_1$) phase transition at $\approx$ 460 K. By studying the magnetization and thermal expansion between 5-300 K, we discover a second structural transition at $\approx$ 120 K. Single crystal X-ray diffraction reveals the low temperature phase adopts a different orthorhombic structure with space group Pmn2$_1$ (a = 7.6629(5) \AA, b = 7.5396(5) \AA, c = 10.6300(5) \AA, Z = 2 at 90 K) that is isostructural to the room temperature forms of the related Se-based compounds Ag$_8$SnSe$_6$ and Ag$_8$GeSe$_6$. The 120 K transition is first-order and has a large thermal hysteresis. Based on magnetization and thermal expansion data, the room temperature polymorph can be kinetically arrested into a metastable state by rapidly cooling to temperatures below 40 K. We lastly compare the room and low temperature forms of Ag$_8$SnS$_6$ with its argyrodite analogues, Ag$_8$TQ$_6$ (T = Si, Ge, Sn; Q = S, Se), and identify a trend relating the preferred structures to the unit cell volume, suggesting smaller phase volume favors the Pna2$_1$ arrangement. We support this picture by showing that the transition to the Pmn2$_1$ phase is avoided in Ge alloyed Ag$_8$Sn$_{1-x}$Ge$_x$S$_6$ samples as well as pure Ag$_8$GeS$_6$., Comment: 45 pages, 13 figures

Published

2021

4. Small moment antiferromagnetic ordering in single crystalline La2Ni7

Author

Ribeiro, Raquel A., Bud'ko, Sergey L., Xiang, Li, Ryan, Dominic H., and Canfield, Paul C.

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science

Abstract

Single crystals of La2Ni7 have been grown out of a binary, La-Ni melt. Temperature dependent, zero magnetic field, specific heat, electrical resistivity, and low field magnetization measurements indicate that there is a series of antiferromagnetic phase transitions at T1 = 61.0 \pm 0.2 K, T2 = 56.5 \pm 0.2 K and T3 = 42.2 \pm 0.2 K. The three specific heat anomalies found at these temperatures qualitatively have very small entropy changes associated with them and the anisotropic M(H) data saturate at ~ 0.12 {\mu}B/Ni; both observations strongly suggesting the AFM order is associated with very small, itinerant, moments. Anisotropic, H||c and H{\perp}c, {\rho}(H) and M(H) isotherms as well as constant field, {\rho}(T) and M(T) sweeps manifest signatures of multiple phase lines and result in H-T phase diagrams that are clearly anisotropic. Analysis of M(T) and M(H) data allow for the identification of the two lower temperature magnetically ordered states as antiferromagnetically ordered, with the moments aligned along the crystallographic c-axis, and the higher temperature, T2 < T < T1, state as having a finite ferromagnetic component. In addition, the metamagnetic transition at low temperatures, for H applied along the crystallographic c-axis (H||c) appears to be a near classic example of a spin-flop transition, resulting in a field stabilized antiferromagnetic state with the moments ordered perpendicular to the c-axis. Although the small moment ordering, and existence of multiple phase transitions in field and temperature, suggesting an energetic proximity of these states, could foretell a degree of pressure sensitivity, our measurements of R(T) for applied pressures up to 2.0 GPa indicate that there is very little pressure dependence of T1, T2 and T3., Comment: 22 figures

Published

2021

5. Characterization of the pressure coefficient of manganin and temperature evolution of pressure in piston-cylinder cells

Author

Xiang, Li, Gati, Elena, Bud'ko, Sergey L., Ribeiro, Raquel A., Ata, Arif, Tutsch, Ulrich, Lang, Michael, and Canfield, Paul C.

Subjects

Condensed Matter - Materials Science

Abstract

We report measurements of the temperature- and pressure-dependent resistance, $R(T,p)$, of a manganin manometer in a $^4$He-gas pressure setup from room temperature down to the solidification temperature of $^4$He ($T_\textrm {solid}\sim$ 50 K at 0.8 GPa) for pressures, $p$, between 0 GPa and $\sim$0.8 GPa. The same manganin wire manometer was also measured in a piston-cylinder cell from 300 K down to 1.8 K and for pressures between 0 GPa to $\sim$2 GPa. From these data, we infer the temperature and pressure dependence of the pressure coefficient of manganin, $\alpha(T,p)$, defined by the equation $R_p = (1+\alpha p) R_0$ where $R_0$ and $R_p$ are the resistance of manganin at ambient pressure and finite pressure, respectively. Our results indicate that upon cooling $\alpha$ first decreases, then goes through a broad minimum at $\sim$120 K and increases again towards lower temperatures. In addition, we find that $\alpha$ is almost pressure-independent for $T\gtrsim$60 K up to $p\sim$2 GPa, but shows a pronounced $p$ dependence for $T\lesssim$60K. Using this manganin manometer, we demonstrate that $p$ overall decreases with decreasing temperature in the piston-cylinder cell for the full pressure range and that the size of the pressure difference between room temperature and low temperatures ($T=1.8$ K), $\Delta p$, decreases with increasing pressure. We also compare the pressure values inferred from the magnanin manometer with the low-temperature pressure, determined from the superconducting transition temperature of elemental lead (Pb). As a result of these data and analysis we propose a practical algorithm to infer the evolution of pressure with temperature in a piston-cylinder cell.

Published

2020

6. Anomalous magnetotransport properties of high-quality single crystals of Weyl semimetal WTe2: Sign change of Hall resistivity

Author

Jha, Rajveer, Higashinaka, Ryuji, Matsuda, Tatsuma D., Ribeiro, Raquel A., and Aoki, Yuji

Subjects

Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

We report on a systematic study of Hall effect using high quality single crystals of type-II Weyl semimetal WTe2 with the applied magnetic field B//c. The residual resistivity ratio of 1330 and the large magnetoresistance of 1.5\times10^6 % in 9 T at 2 K, being in the highest class in the literature, attest to their high quality. Based on a simple two-band model, the densities (n_e and n_h) and mobilities (\mu_e and \mu_h) for electron and hole carriers have been uniquely determined combining both Hall- and electrical-resistivity data. The difference between ne and nh is ~1% at 2 K, indicating that the system is in an almost compensated condition. The negative Hall resistivity growing rapidly below ~20 K is due to a rapidly increasing \mu_h/\mu_e approaching one. Below 3 K in a low field region, we found the Hall resistivity becomes positive, reflecting that \mu_h/\mu_e finally exceeds one in this region. These anomalous behaviors of the carrier densities and mobilities might be associated with the existence of a Lifshitz transition and/or the spin texture on the Fermi surface., Comment: 12 pages, 4 figures, SCES-2017 Proceeding, accepted by Physica B

Published

2017

7. Giant Uniaxial Anisotropy in the Magnetic and Transport Properties of CePd5Al2

Author

Onimaru, Takahiro, Inoue, Yukihiro F., Shigetoh, Keisuke, Umeo, Kazunori, Kubo, Hirokazu, Ribeiro, Raquel A., Ishida, Akihiro, Avila, Marcos A., Ohoyama, Kenji, Sera, Masafumi, and Takabatake, Toshiro

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science

Abstract

Electrical resistivity rho, magnetic susceptibility chi, magnetization M and specific heat measurements are reported on a singlecrystalline sample of CePd5Al2, showing successive antiferromagnetic orderings at T_N1=4.1 K and T_N2=2.9 K. The temperature dependence of T_N1 shows a Kondo metal behavior with large anisotropy, rho_c/rho_a=3.2 at 20 K, and opening of a superzone gap along the tetragona c-direction below T_N1. Both T_N1 and T_N2 gradually increase with applying pressure up to 2.5 GPa. The data of chi(T) and M(B) in the paramagnetic state were analyzed using a crystalline electric field (CEF) model. It led to a Kramers doublet ground state with wave functions consisting primarily of |+-5/2>, whose energy level is isolated from the excited states by 230 and 300 K. This CEF effect gives rise to the large anisotropy in the paramagnetic state. In the ordered state, the uniaxial magnetic anisotropy is manifested as M_c/M_a=20 in B=5 T and at 1.9 K, and chi_c/chi_a=25 in B=0.1 T and at 4 K. This huge uniaxial magnetic anisotropy in the antiferromagnetic states can be interpreted in terms of isotropic magnetic interaction among the Ce^{3+} moments governed by the strong CEF. In powder neutron diffraction experiments, magnetic reflections were observed owing to the antiferromagnetic ordered states below T_N1, however, no additional reflection was found below T_N2., Comment: 8 pages, 8 figures, submitted to J. Phys. Soc. Jpn

Published

2008