Abstract
In this Chapter, we explain the experimental methods including crystal growth, transport measurement, magnetic property measurement, heat capacity measurement, infrared-ultraviolet reflectivity spectroscopy, angle-resolved photoemission spectroscopy (ARPES), and x-ray absorption spectroscopy. Above a couple of spectroscopic tools, the ARPES can probe the momentum-dependent electronic structure providing detailed information on band dispersion and Fermi surface as well as on nature of many-body correlations. While the ARPES is a surface sensitive technique due to the short photoelectron escape depth, the present low-energy laser- and high-energy soft-x-ray- ARPES are more bulk-sensitive in comparison with the traditional VUV-ARPES with helium-lamp or synchrotron light source.
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Notes
- 1.
A Ti\(_{3}\)O\(_{5}\) impurity phase appeared through sintering processes even at any reductive atmosphere.
- 2.
To remove the contribution of the transverse magnetoresistance as originating from the Lorentz force.
- 3.
Here we assume La\(_{1-x}\)Sr\(_x\)VO\(_3\) and (Ti\(_{1-x}\)V\(_x\))\(_2\)O\(_3\) as the target compounds. To prevent oxidation of the samples, the reductive Ar/H\(_2\) 93Â %/7Â % atmosphere was chosen.
- 4.
Here we assume La\(_{1-x}\)Sr\(_x\)VO\(_3\) as the target compound. To prevent the sample oxidation, the Ar/H\(_2\) 93Â %/7Â % atmosphere was used.
References
Matsuo M, Okamoto S, Koshibae W, Mori M, Maekawa S (2011) Phys Rev B 84:153107
Physical Property Measurement System Heat Capacity Option User’s Manual, Quantum Design Inc
Kajimoto R, Ishizaka K, Yoshizawa H, Tokura Y (2003) Phys Rev B 67:014511
Ishizaka K, Taguchi Y, Kajimoto R, Yoshizawa H, Tokura Y (2003) Phys Rev B 67:184418
Hücker M, Zimmermann Mv, Klingeler R, Kiele S, Geck J, Bakehe SN, Zhang JZ, Hill JP, Revcolevschi A, Buttrey DJ, Buchner B, Tranquada JM (2006) Phys Rev B 74:085112
Seah MP, Dench WA (1979) Surf Interface Anal 1:2
Kiss T, Shimojima T, Ishizaka K, Chainani A, Togashi T, Kanai T, Wang X-Y, Chen C-T, Watanabe S, Shin S (2008) Rev Sci Instrum 79:023106
Ohashi H, Senba Y, Kishimoto H, Miura T, Ishiguro E, Takeuchi T, Oura M, Shirasawa K, Tanaka T, Takeuchi M, Takeshita K, Goto S, Takahashi S, Aoyagi H, Sano M, Furukawa Y, Ohata T, Matsushita T, Ishizawa Y, Taniguchi S, Asano Y, Harada Y, Tokushima T, Horiba K, Kitamura H, Ishikawa T, Shin S (2007) AIP Conf Proc 879:523
Takata Y, Tokushima T, Harada Y, Kamakura N, Kitajima Y, Nagasono M, Tamenori Y, Ohashi H, Hiraya A, Ishiguro E, Shin S (2004) AIP Conf Proc 705:1186
Kamakura N, Takata Y, Tokushima T, Harada Y, Chainani A, Kobayashi K, Shin S (2006) Phys Rev B 74:045127
Plucinski L, Minár J, Sell BC, Braun J, Ebert H, Schneider CM, Fadley CS (2008) Phys Rev B 78:035108
Andersen OK, Saha-Dasgupta T (2000) Phys Rev B 62:R16219
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Uchida, M. (2013). Experimental Methods. In: Spectroscopic Study on Charge-Spin-Orbital Coupled Phenomena in Mott-Transition Oxides. Springer Theses. Springer, Tokyo. https://doi.org/10.1007/978-4-431-54297-1_2
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