Pressure Dependence of the 100 K Spin-State Transition in LaCoO<b><sub>3</sub></b>

Asai, Kichizo; Yokokura, Osamu; Suzuki, Masaru; Naka, Takashi; Matsumoto, Takehiko; Takahashi, Hiroki; Môri, N.; Kohn, Kay

doi:10.1143/jpsj.66.967

Cited by 98 publications

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“…The temperature of the maximum in w(T) increases with Pr content, suggesting that the transition temperature from LS to IS state increases by the Pr substitution. It mimics the hydrostatic pressure effect on the LS-IS transition in LaCoO 3 [6]. The increment of LS-IS transition temperature might be due to the chemical pressure effect since the ion radius of Pr 3+ is smaller than that of La 3+ .…”

mentioning

confidence: 79%

Magnetic and transport properties in La1−Pr CoO3 single crystals

Kobayashi

Nakajima

Asai

2004

Journal of Magnetism and Magnetic Materials

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mentioning

confidence: 79%

Magnetic and transport properties in La1−Pr CoO3 single crystals

Kobayashi

Nakajima

Asai

2004

Journal of Magnetism and Magnetic Materials

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“…The effect of pressure to the 90-K transition was studied up to 18 kbar by Asai et al, who found that the energy gap between the LS and the higher spin state increases with pressure. 18 Recently, Vogt et al performed an X-ray powder diffraction study to examine the pressure-induced changes. The results were interpreted as a continuous transition from IS to LS state, which is completed at around 40 kbar.…”

Section: 1011mentioning

confidence: 99%

Temperature- and pressure-induced spin-state transitions inLaCoO3

et al. 2006

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We report the continuous variation of the spin moment of cobalt in LaCoO3 across its temperature and pressure-induced spin transitions evidenced with Kβ emission spectra. The first thermal transition is best described by a transition to an orbitally nondegenerate intermediate spin (S=1) state. In parallel, continuous redistribution of the 3d electrons is also indicated by partial fluorescence yield X-ray absorption spectra. At high pressure, our study confirms that the material becomes low spin between 40 and 70 kbar at room temperature.

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“…An explanation for the shift in transition temperature is suggested by a study of LaCoO 3 under hydrostatic pressure. 14 It was found that the LS to IS transition, detected by magnetization, shifts rapidly to higher temperatures with decreasing volume. The shift could be understood in terms of the volume dependence of the energy difference between the LS and IS states.…”

Section: Resultsmentioning

confidence: 99%

Cation size effect on the thermochromic properties of rare earth cobaltitesRECoO₃(RE: La, Nd, Sm)

Capon

Boileau

Carteret

et al. 2013

Journal of Applied Physics

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RECoO 3 (RE: rare earth) perovskite thin films have been deposited at room temperature by direct current co-sputtering and subsequent annealing in air at 923 K during 1 day. The effect of the octahedra tilts on the optical properties has been tracked decreasing the RE cation size. The bending and stretching vibrational modes of the CoO 6/2 octahedra give information on the Co-O distances and the Co-O-Co angles which determine the Co-O overlap integral and hence the electric properties of these perovskites. Transmittance measurements in the 1.42-100 lm wavelength range show a high transparency at room temperature. When temperature increases, an optical screening effect depending on the RE 3þ ionic radii (i.e., Co-O-Co angles) and resulting from the electrical behaviour occurs. At the wavelength of 8 lm, the transmittance drops from about 90% at room temperature to 50% at the temperature of 516, 600, and 640 K for LaCoO 3 , NdCoO 3 , and SmCoO 3 , respectively. V C 2013 AIP Publishing LLC.

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Pressure Dependence of the 100 K Spin-State Transition in LaCoO₃

Cited by 98 publications

References 0 publications

Magnetic and transport properties in La1−Pr CoO3 single crystals

Magnetic and transport properties in La1−Pr CoO3 single crystals

Temperature- and pressure-induced spin-state transitions inLaCoO3

Cation size effect on the thermochromic properties of rare earth cobaltitesRECoO₃(RE: La, Nd, Sm)

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Pressure Dependence of the 100 K Spin-State Transition in LaCoO3

Cited by 98 publications

References 0 publications

Magnetic and transport properties in La1−Pr CoO3 single crystals

Magnetic and transport properties in La1−Pr CoO3 single crystals

Temperature- and pressure-induced spin-state transitions inLaCoO3

Cation size effect on the thermochromic properties of rare earth cobaltitesRECoO3(RE: La, Nd, Sm)

Contact Info

Product

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Pressure Dependence of the 100 K Spin-State Transition in LaCoO₃

Cation size effect on the thermochromic properties of rare earth cobaltitesRECoO₃(RE: La, Nd, Sm)