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| ポーラロン効果・光学特性 関連論文 |
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| 1. | R. Zheng , T. Taguchi and M. Matsuura: “Theory of long-wavelength optical lattice vibrations in multinary mixed crystals,” Application to group-Vnitride alloys',Phys. Rev. B 66, 075327 (2002). |
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| 2. | R. Zheng , M. Matsuura and T. Taguchi: “Properties of exciton-LO-phonon interaction systems in zinc-compound quantum wells,” Phys. Rev. B 61, 9960-9963(2000). |
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| 3 | R. Zheng , T. Taguchi and M. Matsuura: “Properties of Ga1-xInxN mixed crystals and Ga1-xInxN/GaN quantum wells,” J. of Applied Phys. 87, 2526-2532(2000). |
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| 4. | R. Zheng and M. Matsuura: “Electron-optical phonon interaction in quantum wells consisiting of mixed crystals,” Phys. Rev. B 60, 4937-4943 (1999). |
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| 5. | R. Zheng and M. Matsuura: “Electron-phonon interaction in mixed crystals,” Phys. Rev. B59, 15422-15429(1999). |
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| 6. | K. Oshiro, K. Akai and M. Matsuura: “Size dependence of polaronic effects on an exciton in a spherical quatum dot,” Phys. Rev. B59, 10850-10855(1999). |
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| 7. | R. Zheng and M. Matsuura: “Exciton binding energies in polar quantum wells with finite potential barriers,” Phys. Rev. B58, 10769-10777 (1998). |
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| 8. | K. Oshiro, K. Akai and M. Matsuura: “Polaron in a spherical quatum dot embeded in a nonpolar matrix,” Phys. Rev. B58, 7986-7993 (1998). |
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| 9. | R. Zheng and M.Matsuura: “Polaronic efeects on excitons in quantum wells,” Phys. Rev. B57, 1749-1761(1998). |
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| 10. | R. Zheng and M. Matsuura: “Exciton-phonon interaction effects in quantum wells,” Phys. Rev. B56, 2058-2061 (1997). |
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| 11. | M. Matsuura: “Effects of an Optical Phonon on Excitons in Quantum Wells,” Phys. Rev. B Vol. 37 No.12 6977-6982(1988). |
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| 12. | M. Matsuura: “Perturbation Theory for the Bound Polaron,” J. Phys. Soc. of Japan, Vol.53 No.1 284-288(1984). |
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| 13. | S. Shimamura, M. Matsuura: “Self-trapping of a Wannier Exciton in the Optical Phonon Field,” Solid State Commun. Vol.48 No.10 857-860(1983). |
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| 14. | S. Shimamura, M. Matsuura: “Internal-Motion Dependence of Self-Trapping of a Wannier Exciton,” Solid State Commun. Vol.45 No.7 547-550(1983). |
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| 15. | M. Matsuura: “Discontinuty of the Surface Polaron,” Solid State Commun. Vol.44 No.11 1471-1475(1982). |
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| 16. | M. Matsuura, H. Buttner: “Masses and Oscillator Strengths of Wannier Excitons in Polar Semiconductors,” Proc. 15th Int. Conf. Phys. Of Semiconductors J. Phys. Soc. of Japan Vol. 49 Suppl. A 413-416(1980). |
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| 17. | M. Matsuura, H. Buttner: “Exciton Polaron with the Arbitary Exciton-Phonon Coupling,” Solid State Commun. Vol.36 No.1 81-83(1980). |
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| 18. | M. Matsuura, H. Buttner: “Optical Properties of Excitons in Polar Semiconductors: Energies, Oscillator Strengths, and Phonon Side Bands,” Phys. Rev. B Vol.21 No.2 679-691(1980). |
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| 19. | M. Matsuura, H. Buttner: “Energies, Oscillator Strengths, and Phonon Side Bands for an Exciton in Polar Semiconductors,” Solid State Commun. Vol.33 No.2 221-224(1980). |
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| 20. | M. Matsuura: “Polaron in Polyatomic Crystals,” J. Phys. C Vol. 10 3345-3350(1977). |
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| 21. | M. Matsuura, C. Mavroyannis: “Binding Energy of Wannier Excitons in Polar Semiconductors: Tallium Halides,” J. Low. Tem. Phys. Vol. 28 No.1/2 129-137(1977). |
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| 22. | M. Matsuura: “Polaron Effects on Surface Electron in Polar Semiconductors,” J. Phys. Soc. of Japan Vol. 41 No.2 394-399(1976). |
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| 23. | S. Wang, C.H. Woo, M. Matsuura: “Polaron Bound to a Massive Hole: Binding Energy of a Bound Piezoelectric Polaron,” Phys. Rev. B Vol.11 No.8 2999-3005(1975). |
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| 24. | M. Matsuura, S. Wang: “Perturbation Theory of a Bound Piezoelectric Polaron,” Solid State Comm. Vol.15 No.3 613-615(1974). |
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| 25. | S. Wang, M. Matsuura: “Wannier Excition in a Polarizable Field,” Phys. Rev. B Vol.10 No.8 3330-3337(1974). |
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| 26. | M. Matsuura, S. Wang: “Polaron with the Anisotropic Mass,” Solid State Comm. Vol.14 No.7 533-536(1974). |
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| 27. | M. Matsuura: “Ground State Energy of Polaron Bound in a Coulomb Potential,” Canadian J. of Phys. Vol.52 No.1 1-11(1974). |
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| 28. | S. Wang, M. Matsuura, C.H. Woo: “Phonon Effect on Oscillatore Strengths and f-sum of a Defect Center,” Solid State Commun. Vol.13 No.10 1575-1579(1973). |
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| 29. | M. Matsuura, S. Wang: “Ionic Palarization Effects on a Shallow Exciton at a Finite Temperature,” Solid State Commun. Vol.12 No.10 279-282(1973). |
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| 30. | S. Wang, M. Matsuura, C. C. Wong, M. Inoue: “Relaxed Excited States of the F center: A study of Nearly Degenerate States of Bound Lattice Polaron,” Phys. Rev. B Vol.7 No.4 1695-1712(1973). |
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| 31. | S. Wang, C.K. Mahutte, M. Matsuura: “Electronic Polarization Effect on Electron States in Insulators,” Phys. Stat. Sol. (b) Vol.51 11-55(1972). |
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| 32. | C. K. Mahutte, M. Matsuura, S. Wang: “On the Electronic Polarization Effect on Excitons in Insulators,” Canadian. J. of Phys. Vol.50 No.4 375-391(1972). |
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| 33. | S. Wang, H. L. Arora, M. Matsuura: “Effect of Electronic Polarization on States of Localized Electrons in Insulators,” Phys. Rev. B Vol.4 No.10 3685-3693(1971). |
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| ポーラロン効果・光学特性 著書 |
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| 1. | 松浦 満,篠塚雄三
(共著): “半導体、絶縁体のポーラロン効果,” 固体物理(光物性,電子-格子相互作用)特集号32-39(1987.3) |
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| 2. | 松浦 満(単著) “ワニア型励起子のポーラロン効果,” 固体物理 第15巻 10号 655-663(1980.10) |
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| 量子閉じ込め系(含む光学特性・ポーラロン効果) 論文 |
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| 1. | K. Koga, K. Akai, K. Oshiro, T. Kado, H. Anno and M.
Matsuura: “Electronic Structure and properties of Metal Ti/Insulator MgO Superlattice,” Transaction of the Materials Research Society of Japan 28 [3] 809-812 (2003). |
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| 2. | K. Oshiro and M. Matsuura: “Exciton-LO phonon interaction in a quatum dot,” J. of Luminescence 87-89, 451-453(2000). |
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| 3. | R. Zheng , M. Matsuura and T. Taguchi: “Properties of exciton-LO-phonon interaction systems in zinc-compound quantum wells,” Phys. Rev. B 61, 9960-9963(2000). |
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| 4. | R. Zheng , T. Taguchi and M. Matsuura: “Properties of Ga1-xInxN mixed crystals and Ga1-xInxN/GaN quantum wells,” J. of Applied Phys. 87, 2526-2532(2000). |
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| 5. | R. Zheng and M. Matsuura: “Electron-optical phonon interaction in quantum wells consisiting of mixed crystals,” Phys. Rev. B 60, 4937-4943 (1999). |
|
| 6. | K. Oshiro, K. Akai and M. Matsuura: “Size dependence of polaronic effects on an exciton in a spherical quatum dot,” Phys. Rev. B59, 10850-10855(1999). |
|
| 7. | R. Zheng and M. Matsuura: “Exciton binding energies in polar quantum wells with finite potential barriers,” Phys. Rev. B58, 10769-10777, (1998). |
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| 8. | K. Oshiro, K. Akai and M. Matsuura: “Polaron in a spherical quatum dot embeded in a nonpolar matrix,” Phys. Rev. B58, 7986-7993, (1998). |
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| 9. | R. Zheng and M.Matsuura: “Polaronic efeects on excitons in quantum wells,” Phys. Rev. B57, 1749-1761、(1998). |
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| 10. | R. Zheng and M. Matsuura: “Exciton-phonon interaction effects in quantum wells,” Phys. Rev. B56, 2058-2061, (1997). |
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| 11. | T. Kamizato and M. Matsuura: “Exciton in Double Quantum Wells,” Phys. Rev. B Vol.40 8378-8384(1989). |
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| 12. | M. Matsuura, Y. Shinozuka: “Excitons in Type-USuperlattice Systems,” Proceedings of International Conference on Electronic Materials 89(1989). |
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| 13. | M. Matsuura, Y. Shinozuka: “Excitons in Type-UQuantum-Well Systems: Binding of the Spatially Separated Electron and Hole,” Phys. Rev. B Vol.38 No.14 9830-9837(1988). |
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| 14. | M. Matsuura: “Effects of an Optical Phonon on Excitons in Quantum Wells,” Phys. Rev. B Vol. 37 No.12 6977-6982,(1988). |
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| 15. | M. Nakayama, M. Matsuura: “Phase Shift of an Exciton Scattered by a Surface,” J. Luminescence Vol.38 104-105(1987). |
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| 16. | M. Matsuura, T. Kamizato: “Oscillator Strength of Excitons in Quantum Wells,” Surface Science Vol. 174 183-187(1986). |
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| 17. | M. Matsuura, T. Kamizato: “Subbands and excitons in a Quantum Well in an Electric Field,” Phys. Rev. B. Vol.33 No.12 8385-8389(1986). |
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| 18. | Y. Masumoto, M. Matsuura, S. Tarucha, H. Okamoto: “Two-dimensional shrinkage of the Exciton Wavefunction in Quantum Wells Probed by Optical Absorption,” Surface Science Vol.170 635-640(1986). |
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| 19. | M. Nakamura, M. Matsuura: “Theory of the Quantum Well Excitonic Polariton: Effect of the Valence Subband Splitting,” Surface Science Vol.33 No.12 8385-8389(1986). |
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| 20. | Y. Masumoto, M. Matsuura, S. Tarucha, H. Okamoto: “Direct Experimaental Observation of Two-dimensional Shrinkage of the Exciton Wavefunction in Quantum Wells,” Phys. Rev. B. Vol.32 No.6 4275-4278(1985). |
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| 21. | M. Matsuura, Y. Shinozuka: “A Wannier Exciton in a Quantum Well: Subband Dependence,” J.Phys. Soc. Of Japan Vol.53 No.9 3138-3145(1984). |
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| 22. | Y. Shinozuka, M. Matsuura: “Wannier Exciton in Quantum Wells,” Phys. Rev. B. Vol.28 No.8 4878-4881(1983). |
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| 量子閉じ込め系(含む光学特性・ポーラロン効果) 著書 |
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| 1. | 松浦 満(共著): “山口の先端技術,” 三田出版会(1987) |
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| 2. | 升本奉章,松浦 満(共著): “超格子中の2次元励起子,” 固体物理 21巻 8号 493-500(1986.8) |
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| 第1原理電子構造計算:物性解明・材料設計 |
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| 1. | K. Matsubara and M. Matsuura: “A Thermoelectric Application to Vehicle,” in CRC handbook of THERMOELECTRICS, (Edtied by D, M, Rowe, CRC Press,2005) (in press) |
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| 2. | Kenji Koga, Koji Akai, Kazunori Oshiro, Mitsuru
Matsuura: “Electronic structure and optical properties of binaryskutterudite antimonides,” Phys, Rev, B (2005) (in press) |
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| 3. | Mitsuru Matsuura, Kenji Koga, Kazunori Oshiro and Koji
Akai: “Theory of Nonparabolic Effects of The Thermoelectric Properties,” Transactions of the Materials Research Society of Japan,29(6])2763-2766 (2004) |
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| 4. | Naoki Arita, Shunji Sakurai, Hiroki Kurisu, Setsuo Yamamoto and
Mitsuru Matsuura: “Thermoelectric Properties and Electronic Structure of Mg2Si System,” Transaction of the Materials Research Society of Japan 29 (6)2555-2558(2004) |
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| 5. | Koji Akai, Kenji Koga, Kazunori Oshiro and Mitsuru
Matsuura: “Electronic Structure of Noble-Metal-Doped Clathrates with Nanostructure Si-Network,” Transaction of the Materials Research Society of Japan 29 (8)3647-3650 (2004) |
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| 6. | Tatsuya Kamei, Kenji Koga, Koji Akai, Kazunori Osiro, Mitsuru
Matsuura:“Electronic structure, and thermoelectronic properties of the
clathrates Ba8Ga16Si30 and Ba8Ga16Ge30,” Transaction of the Materials Research Society of Japan 29 (8)3651-3654 (2004) |
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| 7 | Kenji Koga, Koji Akai, Kazunori Ohsiro, and Mitsuru
Matsuura: “Structure, Electronic Structure and Properties of Silicides Compound Systems,” Transaction of the Materials Research Society of Japan (2004)【印刷中】 |
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| 8. | Shunji Sakurai, Kenji Koga, Koji Akai, Hiroki Kurisu, Setsuo Yamamoto
and Mitsuru Matsuura: “Thermoelectric Properties of Mn-Si Ceramics,” Transaction of the Materials Research Society of Japan, 28(3), 801-804(2003). |
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| 9. | Naoki Arita, Shunji Sakurai, Hiroki Kurisu, Setsuo Yamamoto and
Mitsuru Matsuura: “Thermoelectric Properties Mg2Si Processed by Spark Plasma Sintering Method,” Transaction of the Materials Research Society of Japan, 28(3), 797-800(2003). |
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| 10. | K. Koga,K. Akai, K. Oshiro and M. Matsuura: “Electronic Structure and Thermoelectric Properties Skutterudites CoSb3,” Thermoelectric Materials 2001,Research and Applications, Edited by G.S. Nolas, D.C. Johnson, and D.G. Mandrus, pp339-344 (2002). |
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| 11. | H.Anno, G.S.Nolas, K. Akai, K. Ashida, M. Matsuura, and K.
Matsubara: “Electronic Structure of Yb-filled CoSb3 Skutterudites Studied by X-ray Photoelectron Spectroscopy,” Proc. 20-th Int. Conf. on Thermoelectrics, Beijing, China, pp.61-64 (2001). |
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| 12. | K. Akai, K. Koga, K. Oshiro and M. Matsuura: “Electronic Structure and Thermoelectric Properties Skutterudites,” Proc. 20-th Int. Conf. on Thermoelectrics, Bijing, China. Pp.105-108 (2001). |
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| 13. | K. Koga, K. Akai, K. Oshiro and M. Matsuura: “X-ray Spectra of Skutterudites and Filled Skutterudites,” Proc. 20-th Int. Conf. on Thermoelectrics, Beijing, China, pp.105-108 (2001). |
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| 14. | H. Anno, K. Akai, J. Nagoya, K. Ahida, M. Matsuura, and K.
Matsubara: “Electronic Structure and Properties of Co1-xMxSb3 (M=Fe, Ni, Pd, Pt) Skutterudites,” Proc.20-th Int. Conf. on Thermoelectrics, Beijing, China, pp.101-104 (2001). |
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| 15. | K. Akai, K. Oshiro and M. Matsuura: “Thermoelectric propeteties on atimonide skutteruditea and filled skutterdites,” Proc. 18th Int. Conf. Thermoelectrics., 444-447(1999). |
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| 16. | K. Akai, H. Kurisu, T. Moriyama, S. Yamamoto and M.
Matsuura: “Effects of Defects and Impurities on Electronic Properties in Skutterudites,” Proc. 17th Int. Conf. Thermoelectrics. 105-108, (1998). |
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| 17. | K. Akai, H. Kurisu, T. Shimura and M. Matsuura: “Effects of Defects and Impurities on Electronic Properties in CoSb3,” Proc. 16th Int. Conf. Thermoelectrics. 334-337,( 1997). |
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| 18. | D・H.Li, M. Matsuura, S. Wang: “Variational Calculation of Helmholtz Free Energies with Applications to Simple Liquid Metals and Alloys,” J.Phys.F.Vol.14 823-832(1984). |
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| 19. | S. K. Lai, M. Matsuura, S. Wang: “Variational Thermodynamic Caluculation for Simple Liquid Metals and Alkali Alloys,” J. Phys. F. Vol.13 2033-2051(1983). |
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| 20. | M. Matsuura, C. H. Woo, S. Wang: “Electronic Structure of Metals:UPhonon Spectra and Fermi Surface Distortions,” J. Phys. F Vol.5 1849-1859(1975). |
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| 21. | C.H. Woo, S. Wang, M. Matsuura: “Electric Sturucture of Metals: I Energy Independent Model Pseudopotential Formalism,” J. Phys. F Vol.5 1836-1848(1975). |
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| 22. | M. Matsuura: “Heine-Abarenkov Type Model Pseudopotential and the Felmi Surfaces of Alkali Metals,” Phys. Lett. A Vol. 50 No.2 131-132(1974). |
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| 23. | M. Matsuura, M. Watabe: “Nonlocal Pseudopotentioal and the Fermi Surfaces of Alkali Metals,” J. Phys. Soc. Of Japan Vol.31 No.2 403-414(1971). |
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