Probing Cerium 4 f States across the Volume Collapse Transition by X-ray Raman Scattering

Bijuan Chen; Ekaterina M. Pärschke; Wei Chih Chen; Brandon Scoggins; Bing Li; Mahalingam Balasubramanian; Steve Heald; Jianbo Zhang; Hongshan Deng; Raimundas Sereika; Yesudhas Sorb; Xia Yin; Yan Bi; Ke Jin; Qiang Wu; Cheng Chien Chen; Yang Ding; Ho Kwang Mao

doi:10.1021/acs.jpclett.9b02819

Probing Cerium 4 f States across the Volume Collapse Transition by X-ray Raman Scattering

Bijuan Chen, Ekaterina M. Pärschke, Wei Chih Chen, Brandon Scoggins, Bing Li, Mahalingam Balasubramanian, Steve Heald, Jianbo Zhang, Hongshan Deng, Raimundas Sereika, Yesudhas Sorb, Xia Yin, Yan Bi, Ke Jin, Qiang Wu, Cheng Chien Chen, Yang Ding, Ho Kwang Mao

Emerging and Solid-State Batteries

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Abstract

Understanding the volume collapse phenomena in rare-earth materials remains an important challenge due to a lack of information on 4f electronic structures at different pressures. Here, we report the first high-pressure inelastic X-ray scattering measurement on elemental cerium (Ce) metal. By overcoming the ultralow signal issue in the X-ray measurement at the Ce N_4,5-edge, we observe the changes of unoccupied 4f states across the volume collapse transition around 0.8 GPa. To help resolve the longstanding debate on the Anderson-Kondo and Mott-Hubbard models, we further compare the experiments with extended multiplet calculations that treat both screening channels on equal footing. The results indicate that a modest change in the 4f-5d Kondo coupling can well describe the spectral redistribution across the volume collapse, whereas the hybridization between neighboring atoms in the Hubbard model appears to play a minor role. Our study helps to constrain the theoretical models and opens a promising new route for systematic investigation of volume collapse phenomena in rare-earth materials.

Original language	English
Pages (from-to)	7890-7897
Number of pages	8
Journal	Journal of Physical Chemistry Letters
Volume	10
Issue number	24
DOIs	https://doi.org/10.1021/acs.jpclett.9b02819
State	Published - Dec 19 2019

Funding

The authors thank Maurits Haverkort for helpful discussion on the atomic multiplet calculations. Y.D. acknowledges support from the Science Challenge Project No. TZ2016001 and NSAF grant No. U1930401. The inelastic X-ray scattering experiments were performed at beamline 20-ID and the X-ray diffraction measurements were performed at sector 16 BM-D of the Advanced Photon Source, a U.S. Department of Energy (DOE) Office of Science user facility operated by Argonne National Laboratory (ANL) supported by the U.S. DOE Award No. DE-AC02-06CH11357. Y.D. and B.C. acknowledge support on the XRD experiments from beamline scientist Curtis Kenney-Benson at sector 16 BM-D of the Advanced Photon Source. Y.D. and H.-k.M. acknowledge support from DOE-BES under Award No. DE-FG02-99ER45775 and NSFC Grant No. U1530402. B.S. acknowledges support from the UAB NSF REU program under award No. DMR-1754078. This work is also supported by National Natural Science Foundation of China (NSFC) No. 11874075 and National Key R&D Program of China No. 2018YFA0305703.

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Chen, B., Pärschke, E. M., Chen, W. C., Scoggins, B., Li, B., Balasubramanian, M., Heald, S., Zhang, J., Deng, H., Sereika, R., Sorb, Y., Yin, X., Bi, Y., Jin, K., Wu, Q., Chen, C. C., Ding, Y., & Mao, H. K. (2019). Probing Cerium 4 f States across the Volume Collapse Transition by X-ray Raman Scattering. Journal of Physical Chemistry Letters, 10(24), 7890-7897. https://doi.org/10.1021/acs.jpclett.9b02819

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title = "Probing Cerium 4 f States across the Volume Collapse Transition by X-ray Raman Scattering",

abstract = "Understanding the volume collapse phenomena in rare-earth materials remains an important challenge due to a lack of information on 4f electronic structures at different pressures. Here, we report the first high-pressure inelastic X-ray scattering measurement on elemental cerium (Ce) metal. By overcoming the ultralow signal issue in the X-ray measurement at the Ce N4,5-edge, we observe the changes of unoccupied 4f states across the volume collapse transition around 0.8 GPa. To help resolve the longstanding debate on the Anderson-Kondo and Mott-Hubbard models, we further compare the experiments with extended multiplet calculations that treat both screening channels on equal footing. The results indicate that a modest change in the 4f-5d Kondo coupling can well describe the spectral redistribution across the volume collapse, whereas the hybridization between neighboring atoms in the Hubbard model appears to play a minor role. Our study helps to constrain the theoretical models and opens a promising new route for systematic investigation of volume collapse phenomena in rare-earth materials.",

author = "Bijuan Chen and P{\"a}rschke, {Ekaterina M.} and Chen, {Wei Chih} and Brandon Scoggins and Bing Li and Mahalingam Balasubramanian and Steve Heald and Jianbo Zhang and Hongshan Deng and Raimundas Sereika and Yesudhas Sorb and Xia Yin and Yan Bi and Ke Jin and Qiang Wu and Chen, {Cheng Chien} and Yang Ding and Mao, {Ho Kwang}",

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doi = "10.1021/acs.jpclett.9b02819",

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Chen, B, Pärschke, EM, Chen, WC, Scoggins, B, Li, B, Balasubramanian, M, Heald, S, Zhang, J, Deng, H, Sereika, R, Sorb, Y, Yin, X, Bi, Y, Jin, K, Wu, Q, Chen, CC, Ding, Y & Mao, HK 2019, 'Probing Cerium 4 f States across the Volume Collapse Transition by X-ray Raman Scattering', Journal of Physical Chemistry Letters, vol. 10, no. 24, pp. 7890-7897. https://doi.org/10.1021/acs.jpclett.9b02819

TY - JOUR

T1 - Probing Cerium 4 f States across the Volume Collapse Transition by X-ray Raman Scattering

AU - Chen, Bijuan

AU - Pärschke, Ekaterina M.

AU - Chen, Wei Chih

AU - Scoggins, Brandon

AU - Li, Bing

AU - Balasubramanian, Mahalingam

AU - Heald, Steve

AU - Zhang, Jianbo

AU - Deng, Hongshan

AU - Sereika, Raimundas

AU - Sorb, Yesudhas

AU - Yin, Xia

AU - Bi, Yan

AU - Jin, Ke

AU - Wu, Qiang

AU - Chen, Cheng Chien

AU - Ding, Yang

AU - Mao, Ho Kwang

PY - 2019/12/19

Y1 - 2019/12/19

N2 - Understanding the volume collapse phenomena in rare-earth materials remains an important challenge due to a lack of information on 4f electronic structures at different pressures. Here, we report the first high-pressure inelastic X-ray scattering measurement on elemental cerium (Ce) metal. By overcoming the ultralow signal issue in the X-ray measurement at the Ce N4,5-edge, we observe the changes of unoccupied 4f states across the volume collapse transition around 0.8 GPa. To help resolve the longstanding debate on the Anderson-Kondo and Mott-Hubbard models, we further compare the experiments with extended multiplet calculations that treat both screening channels on equal footing. The results indicate that a modest change in the 4f-5d Kondo coupling can well describe the spectral redistribution across the volume collapse, whereas the hybridization between neighboring atoms in the Hubbard model appears to play a minor role. Our study helps to constrain the theoretical models and opens a promising new route for systematic investigation of volume collapse phenomena in rare-earth materials.

AB - Understanding the volume collapse phenomena in rare-earth materials remains an important challenge due to a lack of information on 4f electronic structures at different pressures. Here, we report the first high-pressure inelastic X-ray scattering measurement on elemental cerium (Ce) metal. By overcoming the ultralow signal issue in the X-ray measurement at the Ce N4,5-edge, we observe the changes of unoccupied 4f states across the volume collapse transition around 0.8 GPa. To help resolve the longstanding debate on the Anderson-Kondo and Mott-Hubbard models, we further compare the experiments with extended multiplet calculations that treat both screening channels on equal footing. The results indicate that a modest change in the 4f-5d Kondo coupling can well describe the spectral redistribution across the volume collapse, whereas the hybridization between neighboring atoms in the Hubbard model appears to play a minor role. Our study helps to constrain the theoretical models and opens a promising new route for systematic investigation of volume collapse phenomena in rare-earth materials.

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EP - 7897

JO - Journal of Physical Chemistry Letters

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ER -

Probing Cerium 4 f States across the Volume Collapse Transition by X-ray Raman Scattering

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