Finite-size effects in the nuclear magnetic resonance of epitaxial palladium thin films

W. A. Macfarlane; T. J. Parolin; T. I. Larkin; G. Richter; K. H. Chow; M. D. Hossain; R. F. Kiefl; C. D.P. Levy; G. D. Morris; O. Ofer; M. R. Pearson; H. Saadaoui; Q. Song; D. Wang

doi:10.1103/PhysRevB.88.144424

Finite-size effects in the nuclear magnetic resonance of epitaxial palladium thin films

W. A. Macfarlane, T. J. Parolin, T. I. Larkin, G. Richter, K. H. Chow, M. D. Hossain, R. F. Kiefl, C. D.P. Levy, G. D. Morris, O. Ofer, M. R. Pearson, H. Saadaoui, Q. Song, D. Wang

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8 Scopus citations

Abstract

We have measured the NMR of 8Li⁺ implanted in a set of thin epitaxial films of Pd. We find a large, negative, strongly temperature-dependent Knight shift K consistent with previous measurements on polycrystalline films. The temperature dependence of the shift exhibits a characteristic deviation from the susceptibility χ(T). In particular, at low temperature, K(T) continues to follow a simple Curie-Weiss dependence. This result provides important insight into the origin of the low-temperature behavior of χ(T) in strongly paramagnetic metals. In addition, we find the room temperature shift depends on film thickness, with changes on the order of 20% between films 100 nm and 30 nm thick. We also observe a surface-related resonance in both Au-capped and uncapped films with a small positive shift. These features bear a striking similarity to the Pt NMR line shapes in much smaller Pt particles. However, they seem to originate, not from adsorbed species, but rather in confinement effects on the highly exhange-enhanced Pd d band.

Original language	English
Article number	144424
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	88
Issue number	14
DOIs	https://doi.org/10.1103/PhysRevB.88.144424
State	Published - 28 Oct 2013
Externally published	Yes

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics

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10.1103/PhysRevB.88.144424

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Macfarlane, W. A., Parolin, T. J., Larkin, T. I., Richter, G., Chow, K. H., Hossain, M. D., Kiefl, R. F., Levy, C. D. P., Morris, G. D., Ofer, O., Pearson, M. R., Saadaoui, H., Song, Q., & Wang, D. (2013). Finite-size effects in the nuclear magnetic resonance of epitaxial palladium thin films. Physical Review B - Condensed Matter and Materials Physics, 88(14), Article 144424. https://doi.org/10.1103/PhysRevB.88.144424

@article{9688174c9fda434ebeaf02c899000abd,

title = "Finite-size effects in the nuclear magnetic resonance of epitaxial palladium thin films",

abstract = "We have measured the NMR of 8Li+ implanted in a set of thin epitaxial films of Pd. We find a large, negative, strongly temperature-dependent Knight shift K consistent with previous measurements on polycrystalline films. The temperature dependence of the shift exhibits a characteristic deviation from the susceptibility χ(T). In particular, at low temperature, K(T) continues to follow a simple Curie-Weiss dependence. This result provides important insight into the origin of the low-temperature behavior of χ(T) in strongly paramagnetic metals. In addition, we find the room temperature shift depends on film thickness, with changes on the order of 20% between films 100 nm and 30 nm thick. We also observe a surface-related resonance in both Au-capped and uncapped films with a small positive shift. These features bear a striking similarity to the Pt NMR line shapes in much smaller Pt particles. However, they seem to originate, not from adsorbed species, but rather in confinement effects on the highly exhange-enhanced Pd d band.",

author = "Macfarlane, {W. A.} and Parolin, {T. J.} and Larkin, {T. I.} and G. Richter and Chow, {K. H.} and Hossain, {M. D.} and Kiefl, {R. F.} and Levy, {C. D.P.} and Morris, {G. D.} and O. Ofer and Pearson, {M. R.} and H. Saadaoui and Q. Song and D. Wang",

year = "2013",

month = oct,

day = "28",

doi = "10.1103/PhysRevB.88.144424",

language = "English",

volume = "88",

journal = "Physical Review B - Condensed Matter and Materials Physics",

issn = "1098-0121",

publisher = "American Physical Society",

number = "14",

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Macfarlane, WA, Parolin, TJ, Larkin, TI, Richter, G, Chow, KH, Hossain, MD, Kiefl, RF, Levy, CDP, Morris, GD, Ofer, O, Pearson, MR, Saadaoui, H, Song, Q & Wang, D 2013, 'Finite-size effects in the nuclear magnetic resonance of epitaxial palladium thin films', Physical Review B - Condensed Matter and Materials Physics, vol. 88, no. 14, 144424. https://doi.org/10.1103/PhysRevB.88.144424

TY - JOUR

T1 - Finite-size effects in the nuclear magnetic resonance of epitaxial palladium thin films

AU - Macfarlane, W. A.

AU - Parolin, T. J.

AU - Larkin, T. I.

AU - Richter, G.

AU - Chow, K. H.

AU - Hossain, M. D.

AU - Kiefl, R. F.

AU - Levy, C. D.P.

AU - Morris, G. D.

AU - Ofer, O.

AU - Pearson, M. R.

AU - Saadaoui, H.

AU - Song, Q.

AU - Wang, D.

PY - 2013/10/28

Y1 - 2013/10/28

N2 - We have measured the NMR of 8Li+ implanted in a set of thin epitaxial films of Pd. We find a large, negative, strongly temperature-dependent Knight shift K consistent with previous measurements on polycrystalline films. The temperature dependence of the shift exhibits a characteristic deviation from the susceptibility χ(T). In particular, at low temperature, K(T) continues to follow a simple Curie-Weiss dependence. This result provides important insight into the origin of the low-temperature behavior of χ(T) in strongly paramagnetic metals. In addition, we find the room temperature shift depends on film thickness, with changes on the order of 20% between films 100 nm and 30 nm thick. We also observe a surface-related resonance in both Au-capped and uncapped films with a small positive shift. These features bear a striking similarity to the Pt NMR line shapes in much smaller Pt particles. However, they seem to originate, not from adsorbed species, but rather in confinement effects on the highly exhange-enhanced Pd d band.

AB - We have measured the NMR of 8Li+ implanted in a set of thin epitaxial films of Pd. We find a large, negative, strongly temperature-dependent Knight shift K consistent with previous measurements on polycrystalline films. The temperature dependence of the shift exhibits a characteristic deviation from the susceptibility χ(T). In particular, at low temperature, K(T) continues to follow a simple Curie-Weiss dependence. This result provides important insight into the origin of the low-temperature behavior of χ(T) in strongly paramagnetic metals. In addition, we find the room temperature shift depends on film thickness, with changes on the order of 20% between films 100 nm and 30 nm thick. We also observe a surface-related resonance in both Au-capped and uncapped films with a small positive shift. These features bear a striking similarity to the Pt NMR line shapes in much smaller Pt particles. However, they seem to originate, not from adsorbed species, but rather in confinement effects on the highly exhange-enhanced Pd d band.

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U2 - 10.1103/PhysRevB.88.144424

DO - 10.1103/PhysRevB.88.144424

M3 - Article

AN - SCOPUS:84887086018

SN - 1098-0121

VL - 88

JO - Physical Review B - Condensed Matter and Materials Physics

JF - Physical Review B - Condensed Matter and Materials Physics

IS - 14

M1 - 144424

ER -

Finite-size effects in the nuclear magnetic resonance of epitaxial palladium thin films

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