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NTIS 바로가기Physical review. B, v.107 no.11, 2023년, pp.115157 -
Kim, Junwon , Kang, J.-S. , Kang, Chang-Jong , Min, B. I.
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Evans, J.S.O, Mary, T.A, Sleight, A.W. Negative thermal expansion materials. Physica. B, Condensed matter, vol.241, 311-316.
Barrera, G D, Bruno, J A O, Barron, T H K, Allan, N L. Negative thermal expansion. Journal of physics, an Institute of Physics journal. Condensed matter, vol.17, no.4, R217-R252.
Miller, W., Smith, C. W., Mackenzie, D. S., Evans, K. E.. Negative thermal expansion: a review. Journal of materials science, vol.44, no.20, 5441-5451.
Chen, Jun, Hu, Lei, Deng, Jinxia, Xing, Xianran. Negative thermal expansion in functional materials: controllable thermal expansion by chemical modifications. Chemical Society reviews, vol.44, no.11, 3522-3567.
Dove, Martin T, Fang, Hong. Negative thermal expansion and associated anomalous physical properties: review of the lattice dynamics theoretical foundation. Reports on progress in physics, vol.79, no.6, 066503-.
Liu, Zi-Kui, Shang, Shun-Li, Wang, Yi. Fundamentals of Thermal Expansion and Thermal Contraction. Materials, vol.10, no.4, 410-.
Takenaka, Koshi. Progress of Research in Negative Thermal Expansion Materials: Paradigm Shift in the Control of Thermal Expansion. Frontiers in chemistry, vol.6, 267-.
Attfield, J. Paul. Mechanisms and Materials for NTE. Frontiers in chemistry, vol.6, 371-.
Liang, Erjun, Sun, Qiang, Yuan, Huanli, Wang, Jiaqi, Zeng, Gaojie, Gao, Qilong. Negative thermal expansion: Mechanisms and materials. Frontiers of physics, vol.16, no.5, 53302-.
White, G K. Thermal expansion of reference materials: copper, silica and silicon. Journal of physics. D, applied physics, vol.6, no.17, 2070-2078.
Hortal, M, Leadbetter, A J. The low temperature thermal expansion and Gruneisen functions of tellurium. Journal of physics. C, Solid state physics, vol.5, no.16, 2129-2137.
Mary, T. A., Evans, J. S. O., Vogt, T., Sleight, A. W.. Negative Thermal Expansion from 0.3 to 1050 Kelvin in ZrW2O8. Science, vol.272, no.5258, 90-92.
C. R. Acad. Sci. C. E. Guillaume 125 235 1897
Weiss, R J. The Origin of the `Invar' Effect. Proceedings of the Physical Society, vol.82, no.2, 281-288.
Moruzzi, V. L.. High-spin and low-spin states in Invar and related alloys. Physical review. B, Condensed matter, vol.41, no.10, 6939-6946.
Khomskii, D. I., Kusmartsev, F. V.. Intersite elastic coupling and the Invar effect. Physical review. B, Condensed matter and materials physics, vol.70, no.1, 012413-.
Lang, M., Schefzyk, R., Steglich, F., Grewe, N.. Negative thermal expansion in the Kondo system CexLa1−xAl2. Journal of magnetism and magnetic materials, vol.63, 79-81.
Andres, K., Graebner, J. E., Ott, H. R..
Novikov, V.V., Mitroshenkov, N.V., Matovnikov, A.V., Kornev, B.I., Koltsov, V.B.. The features of thermal properties and CEF-influence in intermediate valence compound CeB4 at the temperatures of 2-300K. Physica. B, Condensed matter, vol.506, 152-155.
Schefzyk, R., Peschke, M., Steglich, F., Winzer, K.. Thermal expansion of La1−x CexB6 single crystals. Journal of magnetism and magnetic materials, vol.63, 67-69.
de Visser, A., Bakker, K., Pierre, J.. Anomalous negative thermal expansion of CeInCu2. Physica. B, Condensed matter, vol.186, 577-579.
Trounov, V A, Malyshev, A L, Chernyshov, D Yu, Korsukova, M M, Gurin, V N, Aslanov, L A, Chernyshev, V V. Temperature dependences of the parameters of atoms in the crystal structure of the intermediate-valence semiconductor SmB6: investigation by high-resolution powder neutron diffraction. Journal of physics, an Institute of Physics journal. Condensed matter, vol.5, no.16, 2479-2488.
Mandrus, D., Sarrao, J. L., Lacerda, A., Migliori, A., Thompson, J. D., Fisk, Z.. Low-temperature thermal expansion ofSmB6: Evidence for a single energy scale in the thermodynamics of Kondo insulators. Physical review. B, Condensed matter, vol.49, no.23, 16809-16812.
Sirota, N. N., Novikov, V. V., Vinokurov, V. A., Paderno, Yu. B.. Temperature dependence of the heat capacity and lattice constant of lanthanum and samarium hexaborides. Physics of the solid state, vol.40, no.11, 1856-1858.
Arvanitidis, J., Papagelis, Konstantinos, Margadonna, Serena, Prassides, Kosmas, Fitch, Andrew N.. Temperature-induced valence transition and associated lattice collapse in samarium fulleride. Nature, vol.425, no.6958, 599-602.
Iwasa, K., Tokuyama, T., Kohgi, M., Sato, N.K., Môri, N.. Anomalous thermal expansion in the metallic phase of SmS under high pressure. Physica. B, Condensed matter, vol.359, 148-150.
Imura, K., Matsubayashi, K., Suzuki, H.S., Deguchi, K., Sato, N.K.. Thermodynamic and transport properties of SmS under high pressure. Physica. B, Condensed matter, vol.404, no.19, 3028-3031.
Asai, D., Mizuno, Y., Hasegawa, H., Yokoyama, Y., Okamoto, Y., Katayama, N., Suzuki, H. S., Imanaka, Y., Takenaka, K.. Valence fluctuations and giant isotropic negative thermal expansion in Sm1-xRxS (R = Y, La, Ce, Pr, Nd). Applied physics letters, vol.114, no.14, 141902-.
Takenaka, Koshi, Asai, Daigo, Kaizu, Ryoichi, Mizuno, Yosuke, Yokoyama, Yasunori, Okamoto, Yoshihiko, Katayama, Naoyuki, Suzuki, Hiroyuki S., Imanaka, Yasutaka. Giant isotropic negative thermal expansion in Y-doped samarium monosulfides by intra-atomic charge transfer. Scientific reports, vol.9, 122-.
Mazzone, D. G., Dzero, M., Abeykoon, AM. M., Yamaoka, H., Ishii, H., Hiraoka, N., Rueff, J.-P., Ablett, J. M., Imura, K., Suzuki, H. S., Hancock, J. N., Jarrige, I.. Kondo-Induced Giant Isotropic Negative Thermal Expansion. Physical review letters, vol.124, no.12, 125701-.
Bud’ko, S L, Frederick, J C, Mun, E D, Canfield, P C, Schmiedeshoff, G M. Thermal expansion, heat capacity and magnetostriction of RAl3 (R = Tm, Yb, Lu) single crystals. Journal of physics, an Institute of Physics journal. Condensed matter, vol.20, no.2, 025220-.
Kasaya, M., Iga, F., Takigawa, M., Kasuya, T.. Mixed valence properties of YbB12. Journal of magnetism and magnetic materials, vol.47, 429-435.
Novikov, V. V., Zhemoedov, N. A., Matovnikov, A. V., Mitroshenkov, N. V., Popova, E. A., Tolstosheev, A. K., Malkin, B. Z., Bud'ko, S. L.. Specific features of thermal and magnetic properties of YbB50 at low temperatures. Physical review materials, vol.2, no.5, 054401-.
Margadonna, S., Arvanitidis, J., Papagelis, K., Prassides, K.. Negative Thermal Expansion in the Mixed Valence Ytterbium Fulleride, Yb2.75C60. Chemistry of materials : a publication of the American Chemical Society, vol.17, no.17, 4474-4478.
Mattens, W.C.M., Hölscher, H., Tuin, G.J.M., Moleman, A.C., de Boer, F.R.. Thermal expansion and magneto-volume effects in the mixed-valent compound YbCuAl. Journal of magnetism and magnetic materials, vol.15, no.2, 982-984.
Pott, R., Schefzyk, R., Wohlleben, D., Junod, A.. Thermal expansion and specific heat of intermediate valent YbCuAl. Zeitschrift für Physik. B, Condensed matter, vol.44, no.1, 17-24.
Yamaoka, Hitoshi, Tsujii, Naohito, Utsumi, Yuki, Sato, Hitoshi, Jarrige, Ignace, Yamamoto, Yoshiya, Lin, Jung-Fu, Hiraoka, Nozomu, Ishii, Hirofumi, Tsuei, Ku-Ding, Mizuki, Jun'ichiro. Valence transitions in the heavy-fermion compound YbCuAl as a function of temperature and pressure. Physical review. B, Condensed matter and materials physics, vol.87, no.20, 205120-.
Uwatoko, Y., Oomi, G., Thompson, J.D., Canfield, P.C., Fisk, Z.. Electrical resistivity and effect of pressure on the thermal expansion of a single crystal of YbCu2Si2. Physica. B, Condensed matter, vol.186, 593-595.
Hauser, R., Ishii, T., Uwatoko, Y., Oomi, G., Bauer, E., Gratz, E.. Thermal expansion of YbCu4Ag and YbCu4Au. Journal of magnetism and magnetic materials, vol.157, 679-680.
Thermal Expansion and Specific Heat of Mixed Valence Compounds in Physics and Chemistry of Electrons and Ions in Condensed Matter R. Pott 1984
Kindler, B., Finsterbusch, D., Graf, R., Ritter, F., Assmus, W., Lüthi, B.. Mixed-valence transition inYbInCu4. Physical review. B, Condensed matter, vol.50, no.2, 704-707.
Liao, Yen-Fa, Tegomo Chiogo, Bodry, Clausse, Thomas, Mazet, Thomas, Tsuei, Ku-Ding, Malterre, Daniel, Chainani, Ashish. Dual Kondo effect charge ordering and zero thermal expansion in a correlated intermetallic. Communications materials, vol.3, no.1, 23-.
Takke, R., Niksch, M., Assmus, W., L�thi, B., Pott, R., Schefzyk, R., Wohlleben, D. K.. Gr�neisen parameter of cerium compounds with unstable 4f shells. Zeitschrift für Physik. B, Condensed matter, vol.44, no.1, 33-39.
Jette, Eric R.. Some Physical Properties of Plutonium Metal. The Journal of chemical physics, vol.23, no.2, 365-368.
Söderlind, Per, Landa, A., Sadigh, B.. Density-functional theory for plutonium. Advances in physics, vol.68, no.1, 1-47.
Dzero, Maxim, Sun, Kai, Galitski, Victor, Coleman, Piers. Topological Kondo Insulators. Physical review letters, vol.104, no.10, 106408-.
Weng, Hongming, Zhao, Jianzhou, Wang, Zhijun, Fang, Zhong, Dai, Xi. Topological Crystalline Kondo Insulator in Mixed Valence Ytterbium Borides. Physical review letters, vol.112, no.1, 016403-.
Kang, Chang-Jong, Ryu, Dong-Choon, Kim, Junwon, Kim, Kyoo, Kang, J.-S., Denlinger, J. D., Kotliar, G., Min, B. I..
Multiple topological Dirac cones in a mixed-valent Kondo semimetal:
Kang, Chang-Jong, Kim, Kyoo, Min, B I. Band theoretical approaches to topological physics in strongly-correlated f-electron Kondo systems. Journal of physics, an Institute of Physics journal. Condensed matter, vol.34, no.27, 271501-.
Liu, Zi-Kui, Wang, Yi, Shang, ShunLi. Thermal Expansion Anomaly Regulated by Entropy. Scientific reports, vol.4, 7043-.
Kang, Chang-Jong, Choi, Hong Chul, Kim, Kyoo, Min, B. I.. Topological Properties and the Dynamical Crossover from Mixed-Valence to Kondo-Lattice Behavior in the Golden Phase of SmS. Physical review letters, vol.114, no.16, 166404-.
Müller-Hartmann, E.. Anomalous thermal expansion of intermediate valence compounds. Solid state communications, vol.31, no.2, 113-116.
Sampathkumaran, E V, Gupta, L C, Vijayaraghavan, R, Gopalakrishnan, K V, Pillay, R G, Devare, H G. A new and unique Eu-based mixed valence system: EuPd2Si2. Journal of physics. C, Solid state physics, vol.14, no.9, L237-L241.
Ōnuki, Yoshichika, Hedo, Masato, Honda, Fuminori. Unique Electronic States of Eu-based Compounds. Journal of the Physical Society of Japan, vol.89, no.10, 102001-.
Costa, G.A., Canepa, F., Olcese, G.L.. Thermodynamic properties of the CeSn3 mixed valence compound. Solid state communications, vol.44, no.1, 67-69.
Zhu, Xie-Gang, Liu, Yu, Zhao, Ya-Wen, Wang, Yue-Chao, Zhang, Yun, Lu, Chao, Duan, Yu, Xie, Dong-Hua, Feng, Wei, Jian, Dan, Wang, Yong-Huan, Tan, Shi-Yong, Liu, Qin, Zhang, Wen, Liu, Yi, Luo, Li-Zhu, Luo, Xue-Bing, Chen, Qiu-Yun, Song, Hai-Feng, Lai, Xin-Chun. Kondo scenario of the γ-α phase transition in single crystalline cerium thin films. npj quantum materials, vol.5, no.1, 47-.
Kim, Junwon, Ryu, Dong-Choon, Kang, Chang-Jong, Kim, Kyoo, Choi, Hongchul, Nam, T.-S., Min, B. I..
Topological phase transition in the archetypal
Lee, Tongsik, Baskes, Michael I., Lawson, A. C., Chen, Shao Ping, Valone, Steven M.. Atomistic Modeling of the Negative Thermal Expansion in δ -Plutonium Based on the Two-State Description. Materials, vol.5, no.12, 1040-1054.
Harrison, N., Betts, J. B., Wartenbe, M. R., Balakirev, F. F., Richmond, S., Jaime, M., Tobash, P. H.. Phase stabilization by electronic entropy in plutonium. Nature communications, vol.10, no.1, 3159-.
Savrasov, S. Y., Kotliar, G., Abrahams, E.. Correlated electrons in δ-plutonium within a dynamical mean-field picture. Nature, vol.410, no.6830, 793-795.
Shim, J. H., Haule, K., Kotliar, G.. Fluctuating valence in a correlated solid and the anomalous properties of δ-plutonium. Nature, vol.446, no.7135, 513-516.
Zhou, Yazhou, Wu, Qi, Rosa, Priscila F.S., Yu, Rong, Guo, Jing, Yi, Wei, Zhang, Shan, Wang, Zhe, Wang, Honghong, Cai, Shu, Yang, Ke, Li, Aiguo, Jiang, Zheng, Zhang, Shuo, Wei, Xiangjun, Huang, Yuying, Sun, Peijie, Yang, Yi-feng, Fisk, Zachary, Si, Qimiao, Zhao, Zhongxian, Sun, Liling. Quantum phase transition and destruction of Kondo effect in pressurized SmB6. Science bulletin = 科學通報 (英文版), vol.62, no.21, 1439-1444.
Kim, Junwon, Kim, Kyoo, Kang, Chang-Jong, Kim, Sooran, Choi, Hong Chul, Kang, J.-S., Denlinger, J. D., Min, B. I.. Termination-dependent surface in-gap states in a potential mixed-valent topological insulator:SmB6. Physical review. B, Condensed matter and materials physics, vol.90, no.7, 075131-.
Doniach, S.. The Kondo lattice and weak antiferromagnetism. Physica B + C, vol.91, 231-234.
Entel, P., Grewe, N.. Mixed valencies: Structure of phase diagrams, lattice properties and the consequences of electron hole symmetry. Zeitschrift für Physik. B, Condensed matter and quanta, vol.34, no.3, 229-241.
Rivas, Miguel, Rössler, Jaime, Kiwi, Miguel. Electron-phonon coupling in mixed-valence systems. Physical review. B, Condensed matter, vol.43, no.4, 3593-3600.
Nefeodova, E.V., Alekseev, P.A., Lazukov, V.N., Sadikov, I.P.. New approach to the anomalies of thermodynamic properties of mixed valence compounds. Physica. B, Condensed matter, vol.312, 376-378.
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