佐藤 寿志


English version is here.

HOME PAGE of NTT Basic Res. Labs.

  

    

 

Photo_Sato

研究分野

高温超伝導体の薄膜成長

高温超伝導発現機構

高温超伝導体のマイクロ波応用

固体物理一般

 

 

 

 

 

Selected Publications

"Maximum hole concentration for Hydrogen-terminated diamond surfaces with various surface orientations obtained by exposure to highly concentrated NO2" Hisashi Sato, Makoto Kasu, Diamond & Related Materials 31 (2013) 47.

“Electronic properties of H-terminated diamond during NO2 and O3 adsorption and desorption”, Hisashi Sato and Makoto Kasu, Diamond Relat. Mater.  , 24 (2012) 99–103.

“Comprehending High Temperature Superconductivity: A Study on 214-Type Cuprate Superconductor Thin Films”, H. Sato, Y. Krockenberger, H. Yamamoto, A. Tsukada and M. Naito, in “Magnetic Mechanism of Superconductivity in Copper Oxide”, ed. Tanmoy Das (Nova Science Publishers, Inc., New York), pp. 235-392 (2011). 

"Third-order Intermodulation Measurements of Microstrip Bandpass Filters Based on High-Temperature Superconductors ", H. Sato, J. Kurian and M. Naito, IEEE Trans. Microwave Theory Tech., Vol. 52, No.12 (2004) p.2658-2663.

"Growth and properies of La-214 thin films", H. Sato, A. Tsukada, M. Naito, H. Yamamoto and A. Matsuda, in “Studies of High Temperature Superconductors: Organic Superconductors and More on Striped Phase in Cuprates”, Vol. 34, ed. A. Narlikar (Nova Science Publishers, Inc., New York), p.203-278 (2000).

"Absence of "1/8 anomaly" in Strained Thin Films of La2-xBaxCuO4+d", H. Sato, A. Tsukada, M. Naito and A. Matsuda, Phys. Rev. B vol. 62 no. 2 (2000) R799-R802.

"La2-xSrxCuOy epitaxial thin films (x = 0 to 2): Structure, strain, and superconductivity", H. Sato, A. Tsukada, M. Naito and A. Matsuda, Phys. Rev. B 61 (2000) 12447.

"Growth of (001) La1.85Sr0.15CuO4 Ultrathin Films without Buffer or Cap Layers", H. Sato, H. Yamamoto and M. Naito, Physica C 274 No. 3&4 (1997) 227.

"Increase in the Superconducting Transition Temperature by Anisotropic Strain Effect in (001) La1.85Sr0.15CuO4 Thin Films on LaSrAlO4 Substrates", H. Sato and M. Naito, Physica C 274 (1997) 221.

 

 

 

ResearchGate: https://www.researchgate.net/profile/Hisashi_Sato6

 

NTT 物性科学基礎研究所
機能物質科学研究部
243-0198
神奈川県厚木市森の里若宮3-1
TEL: 046-240-3775
FAX: 046-240-4729

 
 
 
 
 
E-mail  f_0s_14c_981089799107b_119104105116101np_0
最終修正月日 2017/09/
20

 

 

 

 

業績リスト(2017/09/20

 

単行本

 

[1]          "Growth and properties of La-214 thin films", H. Sato, A. Tsukada, M. Naito, H. Yamamoto and A. Matsuda, in “Studies of High Temperature Superconductors: Organic Superconductors and More on Striped Phase in Cuprates”, Vol. 34, ed. A. Narlikar (Nova Science Publishers, Inc., New York), p.203-278 (2000).

 

[2]          “Comprehending High Temperature Superconductivity: A Study on 214-Type Cuprate Superconductor Thin Films”, H. Sato, Y. Krockenberger, H. Yamamoto, A. Tsukada and M. Naito, in “Magnetic Mechanism of Superconductivity in Copper Oxide”, ed. Tanmoy Das (Nova Science Publishers, Inc., New York), pp. 235-392 (2011). 

 

 

 

学術論文(英文)

 

[1]          "Bulk superconductivity of Y-Ba-Cu-O and Er-Ba-Cu-O", H. Takagi, S. Uchida, H. Sato, H. Ishii, K. Kishio, K. Kitazawa, K. Fueki, and  S. Tanaka, Jpn. J. Appl. Phys. Pt. 2 26(1987)L601-L602.

 

[2]          "Phonons in (La1-xSrx)2CuO4 and BaPb1-xBixO3", A. Masaki, H. Sato, S. Uchida, K. Kitazawa, S. Tanaka and K. Inoue, Jpn. J. Appl. Phys. Pt. 2 26(1987)L405-L407.

 

[3]         "Specific Heat and Superconductivity of Ba2YCu3Oy", K. Kitazawa, T. Atake, H. Ishii, H. Sato, H. Takagi, S. Uchida, Y. Saito, K. Fueki and S. Tanaka, Jpn. J. Appl. Phys. Pt. 2 26(1987)L748-L750. 

 

[4]          "Transport Properties of High-Tc Superconducting Oxides", H. Ishii, H. Sato, N. Kanazawa, H. Takagi, S. Uchida, K. Kitazawa, K. Kishio, K. Fueki and S. Tanaka, Physica 148B (1987) 419.

 

[5]          "Optical study of the metal-insulator transition on Ba1-xKxBiO3 thin films",  H. Sato, S. Tajima, H. Takagi and S. Uchida, Nature 338 (1989) 241.

 

[6]          "Optical and Transport Studies of Metal-Insulator Transition on (Ba,K)BiO3 Thin Films",  Hisashi Sato, Setsuko Tajima, Hidenori Takagi and Shin-ichi Uchida, Physica C 162-164 (1989) 1121.

 

[7]          "Gap Observation by Tunneling Measurement on Superconducting Ba1-xKxBiO3 Thin Films: A Finite Energy Gap in Ba1-xKxBiO3", H. Sato, H. Takagi and S. Uchida, Physica C 169 (1990) 391.

 

[8]          "Superconducting and Normal States of Ba1-xKxBiO3 Studied by High Quality Thin Films", H. Sato, T. Ido, S. Tajima, M. Yoshida, K. Tanabe and S. Uchida, Physica C 185-189 (1991) 1343.

 

[9]          "Raman-scattering study of the metal-insulator transition in Ba1-xKxBiO3", S. Tajima, M. Yoshida, N. Koshizuka, H. Sato and S. Uchida, Phys. Rev. B 46 (1992) 1232.

 

[10]        "Superconducting and Normal States of Ba1-xKxBiO3 Studied by High Quality Thin Films", H. Sato, T. Ido, S. Uchida, S. Tajima, M. Yoshida, K. Tanabe, K. Tatsuhara and N. Miura, Phys. Rev. B 48 (1993) 6617.

 

[11]        "Magnetoresistance and upper critical fields of Ba1-xKxBiO3 thin films", K. Tatsuhara, N. Miura, H. Sato and S. Uchida, Physica C 212 (1993) 459.

 

[12]       "La2-xSrxCuO4 (110) Thin Films Epitaxially Grown along the CuO2 Plane on Pr2CuO4 Single Crystals", H. Sato, M. Naito, T. Arima and Y. Tokura, Appl. Phys. Lett. 61 (20) (1992) 2470.

 

[13]        "Reflection High Energy Electron Diffraction Study of the Surface Structure of SrTiO3 (001) ", Michio Naito and Hisashi Sato, Advanced Materials 93, VI / A: Superconductors, Surfaces and Superlattices, edited by H. Sakaki et al., Trans. Mat. Res. Soc. Jpn., Volume 19A (1994) Elsevier Science B.V.

 

[14]        "Sm-Ba-Cu-O, La-Ba-Cu-O, and Y-(Ca,La)-Ba-Cu-O Films Grown at Low Temperature and Pressure", H. M. Appelboom, H. Sato, M. Naito, V.C. Matijasevic, F. Mathu, J.E. Mooij, W.G. Sloof, H. Rijken, S.S. Klein and L.J. van IJzendoorn, Advanced Materials ‘93, VI / A: Superconductors, Surfaces and Superlattices, edited by H. Sakaki et al., Trans. Mat. Res. Soc. Jpn., Volume 19A (1994) Elsevier Science B.V.

 

[15]        "Nearly Homoepitaxial Growth of 214-type Superconducting Thin Films on 214 Undoped [110] Crystals", H. Sato, M. Naito, S. Kinoshita, T. Arima and Y. Tokura, Advanced Materials ‘93, VI / A: Superconductors, Surfaces and Superlattices, edited by H. Sakaki et al., Trans. Mat. Res. Soc. Jpn., Volume 19A (1994) Elsevier Science B.V.

 

[16]        "Lanthanum and Calcium Doped YBa2Cu3Oy Films Grown at Low Temperature and Pressure", H.M. Appelboom, H. Sato and M. Naito, Physica C 221 No.1&2 (1994) 125.

 

[17]        "Reflection High-energy Electron Diffraction Study on the SrTiO3 Surface Structure", Michio Naito and Hisashi Sato, Physica C 229 (1994) 1.

 

[18]        "Effect of Lattice Mismatch on Surface Morphology of (110) Thin Films of 214-type Superconductors", H. Sato, M. Naito, S. Kinoshita, T. Arima and Y. Tokura, Appl. Phys. Lett. 66 (4) (1995) 514.

 

[19]        "Stoichiometry Control of Atomic Beam Fluxes by Precipitated Impurity Phase Detection in Growth of (Pr,Ce)2CuO4 and (La,Sr)2CuO4 Films", Michio Naito and Hisashi Sato, Appl. Phys. Lett. 67 (17) (1995) 2557.

 

[20]        "La1.85Sr0.15CuO4-d Bicrystal Grain Boundary Josephson Junctions", A. Beck, O. M. Froehlich, D. Koelle, R. Gross, H. Sato and M. Naito, Appl. Phys. Lett. 68 (23) (1996) 3341.

 

[21]        "In-plane Penetration Depth of High Temperature Superconductors with Single and Double CuO Layers", O. M. Froehlich, A. Beck, R. Gross, H. Sato and M. Naito, Europhys. Lett., 36 (6) (1996) 467.

 

[22]        "Increase in the Superconducting Transition Temperature by Anisotropic Strain Effect in (001) La1.85Sr0.15CuO4 Thin Films on LaSrAlO4 Substrates", H. Sato and M. Naito, Physica C 274 (1997) 221.

 

[23]        "Growth of (001) La1.85Sr0.15CuO4 Ultrathin Films without Buffer or Cap Layers", H. Sato, H. Yamamoto and M. Naito, Physica C 274 No. 3&4 (1997) 227.

 

[24]        "La2-xSrxCuO4 Thin Films Grown by Reactive Coevaporation", Hisashi Sato, Hideki Yamamoto and Michio Naito, Advances in Superconductivity IX (Proceedings of ISS’96), ed., S. Nakajima and M. Murakami (Springer-Verlag Tokyo, Inc., Hong Kong, 1997), p. 1005.

 

[25]        "Anisotropic Resistivity of In-Plane-Aligned La2-xSrxCuO4 (100) Films on LaSrGaO4 (100) Substrates", Hiroaki Myoren, Roger Bergs, Takashi Tachiki, Jian Chen, Kensuke Nakajima, Mitsumasa Suzuki, Tsutomu Yamashita, Hisashi Sato and Michio Naito, Jpn. J. Appl. Phys. 36 (1997) 2642.

 

[26]        "A New Superconducting Cuprate Prepared by Low-Temperature Thin-Film Synthesis in a Ba-Cu-O System", Hideki Yamamoto, Michio Naito and Hisashi Sato, Jpn. J. Appl. Phys. 36 (1997) L341.

 

[27]        "Superconducting thin films of La2CuO4+d by oxygen doping using ozone", H. Sato, M. Naito and H. Yamamoto, Physica C 280 (1997) 178.

 

[28]        "Surface and Interface Study on MBE-grown Nd1.85Ce0.15CuO4 Thin Films by Photoemission Spectroscopy and Tunnel Spectroscopy", H. Yamamoto, N. Naito and H. Sato,  Phys. Rev. B 56 (1997) 2852.

 

[29]        "Surface and Interface Study on MBE-grown Nd1.85Ce0.15CuO4 Thin Films by Photoemission Spectroscopy and Tunnel Spectroscopy", M. Naito, H. Yamamoto and H. Sato, Physica C 282-287 (1997) 965.

 

[30]        "MBE Growh of (La,Sr)2CuO4 and (Nd,Ce)2CuO4 Thin Films", Michio Naito, Hisashi Sato and  Hideki Yamamoto, Physica C 293 (1997) 36-43.

 

[31]        "Surface stability of MBE-grown Nd1.85Ce0.15CuO4 thin films in air investigated by RHEED, XPS, and UPS", H. Yamamoto, M. Naito and H. Sato, Physica C 291 (1997) 67-72.

 

[32]        "A New Superconducting Cuprate Prepared by Low-Temperature Thin-Film Synthesis", Hideki Yamamoto, Michio Naito and Hisashi Sato, Advances in Superconductivity X (Proceedings of ISS97), ed., K. Osamura and I. Hirabayashi (Springer-Verlag Tokyo, Inc., Hong Kong, 1998), p. 965.

 

[33]        "Growth of La2-xSrxCuO4 and La2CuO4+d Thin Films by Reactive Coevaporation", H. Sato, H. Yamamoto and M. Naito, Mat. Res. Soc. Symp. Proc. 502 (1998) 203-208.

 

[34]        "Superconducting Nd1.85Ce0.15CuO4-y Bicrystal Grain Boundary Josephson Junctions", S. Kleefisch, L. Alff, U. Schoop, A. Marx, R. Gross, M. Naito, and H. Sato, Appl. Phys. Lett 72 (22) (1998). 

 

[35]        "Reflection High-Energy Electron Diffraction and Atomic Force Microscopy Studies on Homoepitaxial Growth of SrTiO3 (001)", Michio Naito, Hideki Yamamoto, and Hisashi Sato, Physica C 305 (1998) 233-250.

 

[36]        "Oxygen Nonstoichiometry of MBE-Grown Cuprate Films to Lose or Give High-Tc Superconductivity", Michio Naito, Hisashi Sato, and Hideki Yamamoto, In Superconducting and Related Oxides: Physics and Nanoengineering III, D. Pavuna and I. Bosovic, editors, Proceedings of SPIE Volume 3481 (July 1998), 214-225.

 

[37]        "Superconducting Nd1.85Ce0.15CuO4-y bicrystal grain boundary Josephson junctions", S. Kleefisch, L. Alff, U. Schoop, A. Marx, R. Gross, M. Naito and H. Sato, Appl. Phys. Lett. 72 (1998) 2888-2890.

 

[38]        "Observation of surface bound states in grain-boundary junctions of high-temperature superconductors", L. Alff, A. Beck, R. Gross, A. Marx, S. Kleefisch, Th. Bauch, H. Sato, M. Naito, and G. Koren, Phys. Rev. B58 (1998) 11197-11200.

 

[39]        "Nd1.85Ce0.15CuO4-y Bicrystal Grain Boundary Josephson Junctions", U. Schoop, S. Kleefisch, S. Meyer, A. Marx, L. Alff,  R. Gross, M. Naito, and H. Sato,  IEEE Trans. Appl. Supercond. (Proceedings of the1998 Applied Superconductivity Conference) 9 (1999) 3409.

 

[40]        "Anomalous low temperature behavior of superconducting Nd1.85Ce0.15CuO4-y ", L. Alff, S. Meyer, S. Kleefisch, U. Schoop, A. Marx, H. Sato, M. Naito, and R. Gross, Phys. Rev. Lett. 83, 2644(1999)

 

[41]        "Transport properties of grain boundary junctions fabricated from hole and electron doped high-Tc superconductors", U. Schoop, S. Kleefisch, S. Meyer, A. Marx, M. Naito, H. Sato, L. Alff, and R. Gross,  Advances in Superconductivity (Proceedings of the 11th ISS'98), 11 (1999) 117.

 

[42]        "Nd1.85Ce0.15CuO4-y bicrystal grain boundary Josephson junctions", U. Schoop, S. Kleefisch, S. Meyer, A. Marx, L. Alff, R. Gross, M. Naito and H. Sato,  IEEE Trans. Appl. Supercond. vol. 9 no. 2 (1999) p. 3409-3412.

 

[43]        "Optimal superconductivity in La2-xSrxCuO4", J.-S. Zhou, J. B. Goodenough, H. Sato and M. Naito, Phys. Rev. B 59 (1999) 3827.

 

[44]        "The anomalous resistivity peak of intrinsic layered High-Tc superconductors", C. Buzea, T. Tachiki, Sang-Jae Kim, H. Wang, Y. Uematsu, K. Nakajima, T. Yamashita, H. Sato, M. Naito, in Advances in Cryogenics Engineering Vol. 46.

 

[45]        "A new superconducting cuprate prepared by molecular beam epitaxy", H.  Yamamoto, M. Naito and H. Sato, Physica C vol. 338 no. 1&2 (2000) p. 29-37.

 

[46]        "La2-xSrxCuOy epitaxial thin films (x = 0 to 2): Structure, strain, and superconductivity", H. Sato, A. Tsukada, M. Naito and A. Matsuda, Phys. Rev. B 61 (2000) 12447.

 

[47]        "Absence of "1/8 anomaly" in Strained Thin Films of La2-xBaxCuO4+d", H. Sato, A. Tsukada, M. Naito and A. Matsuda, Phys. Rev. B vol. 62 no. 2 (2000) R799-R802.

 

[48]        "La-214 thin films under epitaxial strain", H. Sato, A. Tsukada, M. Naito and A. Matsuda, Physica C 341-348 (2000) p1767-1770.

 

[49]        "La-214 thin films under epitaxial strain", H. Sato, A. Tsukada, M. Naito and A. Matsuda, in Extended abstracts of 2000 International Workshop on Superconductivity.

 

[50]        "Intrinsic problem of cuprate surface and interface: why good tunnel junctions are difficult to fabricate", M. Naito, H. Yamamoto and H. Sato, Physica C vol. 335 no. 1-4 (2000) 201-206.

 

[51]        "Symmetry of the order parameter in hole and electron doped cuprate superconductors", L. Alff, S. Kleefisch, B. Welter, K. Sengebusch, S. Meyer, U. Schoop, F. Herbstritt, A. Marx, R. Gross, M. Naito and H. Sato, Physica C vol. 341-348 (2000) 1659-1662.

 

[52]        "Influence of substrates on epitaxial thin films of high-temperature superconductors", H. Sato, M. Naito, A. Tsukada, S.Karimoto, and A. Matsuda, Physica C 362 (2001) p186-194.

 

[53]        "Optical Cooper pair breaking spectroscopy of cuprate superconductors", Y. G. Zhao, E. Li, T. Wu, S. B. Ogale, R. P. Sharma, T. Venkatesan, J. J. Li, W. L. Cao, C. H. Lee, H. Sato and M. Naito, Phys. Rev. B vol. 63 no. 13 (2001) 132507.

 

[54]        "Diamagnetic precursor state in high-Tc oxide superconductors near optimal doping using scanning superconducting quantum interference device microscopy", A. Sugimoto, I. Iguchi, T. Miyake and H. Sato, Jpn. J. Appl. Phys. Vol. 41 (2002) pp. L497.

 

[55]       "High-field magnetotransport in strained (La,Sr)2CuO4 films", T. Sekitani, H. Sato, M. Naito and N. Miura, Physica C Vol. 378-381, pt. 1 (2002) 195-198.

 

[56]        "Phase control in La-214 epitaxial thin films ", M. Naito, A. Tsukada, T. Greibe, and H. Sato, in Proceedings of SPIE Vol. 4811 Superconducting and Related Oxides: Physics and Nanoengineering V, edited by Ivan Bozovic and Davor Pavuna (SPIE, Bellingham, WA, 2002) p. 140.

 

[57]        "Quantized vortices and diamagnetic precursor to the Meissner state in high-Tc superconductors", I. Iguchi, A. Sugimoto and H. Sato, J. Low Temp. Phys. vol. 131 no. 3/4 (2003) 451-460.

 

[58]        "Tc versus lattice constants in MBE-grown M2CuO4 (M=La, Sr, Ba)", S. Karimoto, H. Yamamoto, H. Sato, A. Tsukada and M. Naito, J. Low Temp. Phys. vol. 131 no. 3/4 (2003) 619-629.

 

[59]        "High-field magnetotransport in strained La2-xSrxCuO4 films", T. Sekitani, H. Sato, M. Naito and N. Miura, Physica C vol. 388-389 (2003) 345-346.

 

[60]        "Third-order intermodulation measurements of 2-GHz microstrip bandpass filters based on high-temperature superconductors", H. Sato, J. Kurian, and M. Naito, Extended abstracts for ISEC2003 (2003) PTu19.

 

[61]        "Intrinsic Josephson junctions in c-axis-oriented La1.85Sr0.15CuO4 thin films", Y. Mizugaki, Y. Uematsu, S.-J. Kim, J. Chen, K. Nakajima, T. Yamashita, H. Sato, and M. Naito, Journal of Applied Physics, 94 (2003) p. 2534.

 

[62]        "Third-order intermodulation measurements of 2-GHz microstrip bandpass filters based on high-temperature superconductors", H. Sato, K. Cho, J. Kurian, and M. Naito, Superconductors Science and Technology, 16 (2003) p.1503. 

 

[63]        "Third-order Intermodulation Measurements for Superconducting Bandpass Filters", H. Sato and K. Cho, IEICE Trans. Electron., Vol. E87-C, No.5 (2004) p.708-713.

 

[64]        "Third-order Intermodulation Measurements for Microwave Bandpass Filters of Thin Film High-Temperature Superconductors", H. Sato and J. Kurian, NTT Technical Review, Vol. 2, No.6 (2004) p.37-42.

 

[65]        "Third-order Intermodulation Measurements of Microstrip Bandpass Filters Based on High-Temperature Superconductors", H. Sato, J. Kurian and M. Naito, in IEEE MTT-S Int. Microwave Symp. Dig., 2004, p1109-1112.

 

[66]       "Large Area RE-123 Thin Films for Microwave Applications Grown by Molecular Beam Epitaxy", J. Kurian, M. Naito, H. Sato and K. Cho, Physica C 412-414 (2004) p1513-1518. 

 

[67]        " Third-order Intermodulation Measurements of Microstrip Bandpass Filters Based on High-Temperature Superconductors ", H. Sato, J. Kurian and M. Naito, IEEE Trans. Microwave Theory Tech., Vol. 52, No.12 (2004) p.2658-2663.

 

[68]        "La-214 thin films under epitaxial strain ", H. Sato, A. Tsukada, M. Naito, Physica C 408-410 (2004) p848-852.

 

[69]        "Silver assisted growth of NdBa2Cu3O7-8 thin films: a novel approach for the growth of superior quality ceramic oxide films",  J. Kurian, H. Sato, T. Makimoto, M. Naito, Appl. Phys. Lett. 87 (2005) 022501.

 

[70]        "Superconducting bandpass filters on thin films of NdBa2Cu3O7", H. Sato, J. Kurian, Physica C 426-431 (2005) p1616-1621.

 

[71]        "Influence of impurity of MgO substrates on properties of molecular beam epitaxy-grown superconducting NdBa2Cu3O7-d thin films", S. Karimoto, H. Sato, T. Makimoto, Jpn. J. Appl. Phys. 45 (2006) L419-L421.

 

[72]        "Deposition of NdBa2Cu3O7-d thin films on large area of over 5 in. in diameter”, S. Karimoto, H. Sato, H. Shibata, T. Makimoto, Physica C 463-465 (2007) p927-929.

 

[73]        "Thickness dependence of superconductivity and resistivity in La1.85Sr0.15CuO4 films”, Hisashi Sato, Physica C 468 (2008) p991-995.

 

[74]        “Enhanced superconductivity by reducing magnetism in strained La2-xSrxCuO4 films”, Hisashi Sato, Physica C 468 (2008) p2366-2368.

 

[75]        “Electronic properties of H-terminated diamond during NO2 and O3 adsorption and desorption”, Hisashi Sato and Makoto Kasu, Diamond Relat. Mater.  , 24 (2012) 99–103.

 

[76]        "Thermal Stabilization of Hole Channel on H-Terminated Diamond Surface by Using Atomic-Layer-Deposited Al2O3 Overlayer and its Electric Properties", M. Kasu, H. Sato and K. Hirama, Applied Physics Express 5 (2012) 025701.

 

[77]        "Diamond Field-Effect-Transistors with 1.3 A/mm Drain Current Density by Al2O3 Passivation Layer", K. Hirama, H. Sato, Y. Harada, H. Yamamoto and M. Kasu, Jpn. J. Appl. Phys.51 (2012) 090112.

 

[78]        "Thermally Stable Operation of H-Terminated Diamond FETs by NO2 Adsorption and Al2O3 Passivation", Kazuyuki Hirama, Hisashi Sato, Yuichi Harada, Hideki Yamamoto, and Makoto Kasu, IEEE ELECTRON DEVICE LETTERS, VOL. 33, NO. 8, (2012) 1111.

 

[79]        "Mechanism of hole doping into hydrogen terminated diamond by the adsorption of inorganic molecule", Yoshiteru Takagi, Kenji Shiraishi, Makoto Kasu, Hisashi Sato, Surface Science 609 (2013) 203.

 

[80]        "Maximum hole concentration for Hydrogen-terminated diamond surfaces with various surface orientations obtained by exposure to highly concentrated NO2" Hisashi Sato, Makoto Kasu, Diamond & Related Materials 31 (2013) 47.

 

 

 

学術論文(和文)

 

[1] “非軸配向をもつ高温超伝導薄膜−214系での準ホモエピタキシャル成長−”, 内藤方夫, 佐藤寿志, 応用物理 65 (5) (1993) 479.

 

[2] “高温超伝導薄膜”, 内藤方夫, 佐藤寿志,山本秀樹,日本応用電磁気学会第101回研究会資料101−8,1997.07.23.

 

[3] “高温超伝導体での薄膜成長による転移温度上昇と新物質合成”, 佐藤寿志, 山本秀樹, 内藤方夫, 応用物理 67 (4) (1998) 439-443.

 

[4] “Ba-Cu-O系における新超伝導体−薄膜MBE成長による合成−”, 山本秀樹, 内藤方夫, 佐藤寿志,  固体物理 33 (5) (1998) 463-471.

 

[5] “高温超伝導体での格子不整合歪みによる超伝導転移温度上昇”,佐藤寿志, 内藤方夫, NTT R&D 47 (9) (1998) 989-994.

 

[6] “新超伝導体Ba2CuO4-の合成−薄膜成長による新物質創製−”,山本秀樹, 内藤方夫, 佐藤寿志,  NTT R&D 47 (9) (1998) 995-1000.

 

[7] “格子不整合歪みによる高温超伝導体の転移温度の上昇”, 佐藤寿志, 内藤方夫, 山本秀樹, 束田昭雄, 松田梓, 表面科学 VOL.21, NO.6 (2000) 340‐347.

 

[8] “複酸化物の表面・界面 光電子分光で見た銅酸化物超伝導体 (Nd, Ce) 2CuO4の表面・界面 銅酸化物表面/界面での酸化還元反応と酸素ノンストイキオメトリー”, 山本秀樹, 内藤方夫, 佐藤寿志, 表面科学 VOL.21, NO.2 (2000) 89‐96.

 

[9] “高温超伝導酸化物の歪み薄膜, 佐藤寿志”, 電気通信 VOL.63, NO.642 (2000) 9‐13.

 

[10] “NBCO薄膜の表面抵抗測定とYBCO薄膜との比較”, 小高康志,小林禧夫, Jose Kurian, 佐藤寿志,牧本俊樹,信学技報 SCE2004-25 (2004) p5-8.

 

[11] “超伝導バンドパスフィルタの3次相互変調波測定”, 佐藤寿志,NTT技術ジャーナル 新技術とその新機能デバイスへの応用 2005.3(2005) p70-74.

 

[12]  “NO2及びO3吸着による水素終端ダイヤモンド表面の正孔ドーピング”、嘉数 誠、佐藤 寿志、M. Kubovic 表面科学、印刷中(2012).

 

[13]   “ダイヤモンド結晶成長:パワーデバイス応用への現状と課題”、

嘉数 誠、平間一行、佐藤寿志、日本結晶成長学会誌 Vol. 39, No. 4(2012).

 

 

 

国際会議発表(招待)

 

[1]          “La-214 Thin Films under Epitaxial Strain”, H. Sato, A. Tsukada, M. Naito, A. Matsuda, 2000 International Workshop on Superconductivity2000.

 

[2]          “Influence of substrates on epitaxial thin films of high-Tc superconductors”, H. Sat, M. Naito, A. Tsukada, S. Karimoto, A. Matsuda, 2nd International Symposium on Josephson-Plasma2000.

 

[3]          “Phase control in La-214 epitaxial thin films”, M. Naito, A. Tsukada, Tine Greibe and H. Sato, SPIE2002, 2002. 

 

[4]          La-214 Thin Films under Epitaxial Strain”.  H. Sato, A. Tsukada and M. Naito, M2S-HTSC2003, 2003.

 

[5]  Large-Area RE-123 Thin Films for Microwave Applications Grown by Molecular Beam Epitaxy” M. NaitoJose KurianH. Sato, K. Cho, ISS2003, 2003.

 

 

 

国際会議発表

 

[1]          "Transport Properties of High-Tc Superconducting Oxides", H. Ishii, H. Sato, N. Kanazawa, H. Takagi, S. Uchida, K. Kitazawa, K. Kishio, K. Fueki and S. Tanaka, M2S-HTSC-I (1987).

 

[2]          "Optical and Transport Studies of Metal-Insulator Transition on (Ba,K)BiO3 Thin Films",  Hisashi Sato, Setsuko Tajima, Hidenori Takagi and Shin-ichi Uchida, M2S-HTSC-II (1989).

 

[3]          "Superconducting and Normal States of Ba1-xKxBiO3 Studied by High Quality Thin Films", H. Sato, T. Ido, S. Tajima, M. Yoshida, K. Tanabe and S. Uchida, M2S-HTSC-III, Kanazawa, 1991. 7. 22.

 

[4]          “Nearly Homoepitaxial Growth of 214-type Superconducting Thin Films on 214 undoped [110] Crystals”, H.Sato, M.Naito, S.Kinosita, T.Arima and Y.Tokura, 1993.09.02

 

[5]          La2-xSrxCuO4 Thin Films Grown by Reactive CoevaporationH.Sato, H.Yamamoto, M.Naito, ISS96, 1996.10.21.

 

[6]          MBE Growh of (La,Sr)2CuO4 and (Nd,Ce)2CuO4 Thin FilmsM.Naito, H.Sato, H.Yamamoto, High-Tc Plasma, 1997.02.23.

 

[7]          Surface and Interface Study on MBE-grown Nd1.85Ce0.15CuO4 Thin Films by Photoemission Spectroscopy and Tunnel SpectroscopyM. Naito, H. Yamamoto, H. Sato, M2S-HTSC-V, 1997.02.28.

 

[8]          “Growth of La2-xSrxCuO4 and La2CuO4+d thin films by reactive coevaporationH.Sato, H.Yamamoto, M.Naito, MRS 1997 Fall Meetings, 1997.12.04.

 

[9]          “La-214 Thin Films under Epitaxial Strain”, H. Sato, A. Tsukada, M. Naito, A. Matsuda, M2S-HTSC-VI, 1999.  .  .

 

[10]        “La-214 Thin Films under Epitaxial Strain”, H. Sato, A. Tsukada, M. Naito, A. Matsuda, American Physical Society 2001 March Meeting, 2001.03.

 

[11] Tc versus lattice constants in MBE-grown M2CuO4 (M = La, Sr, Ba)” S. Karimoto, H. Yamamoto, H. Sato, A. Tsukada and M. Naito, MOS2002.

 

[12]        Third-order intermodulation measurements of 2-GHz microstrip bandpass filters based on high-temperature superconductors” H. Sato, J. Kurian, and M. Naito, ISEC2003, 2003.

 

[13]        Third-order Intermodulation Measurements of Microstrip Bandpass Filters Based on High-Temperature Superconductors”, H. Sato, J. Kurian and M. Naito, International Microwave Symposium 2004.

 

[14]        “Superconducting bandpass filters on thin films of NdBa2Cu3O7”, H. Sato and J. Kurian, 17th International Symposium on Superconductivity, November 23-25, 2004. 

 

[15]        “Ag assisted growth of NBCO films with improved characteristics by molecular beam epitaxy”, K. Jose, H. Sato, T. Makimoto, M. Naito, 17th International Symposium on Superconductivity, November 23-25, 2004. 

 

[16]        "Enhanced superconductivity by reducing magnetism in strained La2-xSrxCuO4 films", Hisashi Sato, 21th International Symposium on Superconductivity, November 27-29, 2008.

 

[17]        "Hole Mobility on Hydrogen-terminated Diamond Surface with Hole Concentration Increased by NO2 Adsorption", M. Kasu, H. Sato, NDNC2011, May 17, 2011.

 

[18]        "Critical Hole Concentration of H-terminated Diamond and Hole-generation Model during NO2 and O3 adsorption", H. Sato, M. Kasu and K. Hirama, 6th Int. Symp. on Surf. Sci., November 14, 2011.

 

[19]        “Critical Hole Concentration of H-terminated Diamond and Hole-generation Model during NO2 and O3 adsorption”, Hisashi Sato, Makoto Kasu, Kazuyuki Hirama, International Symposium on Surface Science and Nanotechnology (ISSS-6), December 11-15, 2011.

 

[20]        "Critical hole concentration for H-terminated diamond surfaces with various surface orientations obtained by high concentrated NO2 exposure", K. Kasu, H. Sato, Y. Takagi and K. Shiraishi, NDNC2012 May 20, 2012.

 

[21]        "Critical hole concentration for H-terminated diamond surfaces with various surface orientations obtained by high concentrated NO2 exposure", H. Sato, M. Kasu, International conference on diamond and carbon materials, September 6, 2012.

 

[22]        "Thermally stable operation of diamond field-effect-transistors by NO2 adsorption and Al2O3 passivation", K. Hirama, H. Sato, Y. Harada, H. Yamamoto and M. Kasu, SSDM, September 25, 2012.

 

 

 

国内会議発表(招待/依頼)

 

[1] “214型酸化物TSFZ単結晶表面の酸素アニールによる平滑化”, 佐藤寿志, 木下聡,内藤方夫,第38回人工結晶討論会 B34,1993.10.19.

 

[2] “La2−xSrxCuO4(001)MBE薄膜での格子歪みによる転移温度の上昇”, 佐藤寿志,内藤方夫,第3回田中シンポジウム,1996.06.12.

 

[3] “LSCO薄膜での格子不整合歪みによるTcの上昇”, 佐藤寿志,新超伝導材料研究会第36回ワークショップ,1997.07.09.

 

[4] “LSCO超薄膜の超伝導”, 佐藤寿志,応用物理学会超伝導分科会第15回研究会,1997.07.11.

 

[5] “La−214系エピタキシャル歪み薄膜”, 佐藤寿志,束田昭雄,内藤方夫,松田梓,文部省特定領域研究(A)第1回研究会発表,1999.  .  .

 

[6] “薄膜によるストライプ制御”, 佐藤寿志,束田昭雄,内藤方夫,松田梓,日本物理学会2000年秋年会発表(シンポジウム招待講演),2000.0 .  .

 

[7] “高温超伝導薄膜”, 佐藤寿志,束田昭雄,内藤方夫,松田梓, 東京大学物性研究所平成12年度「強相関電子系におけるスピンと電荷の励起」研究成果検討会発表(招待講演),2000.

 

[8] “銅酸化物超伝導体の高Tc化と新物質探索に向けて:薄膜からのアプローチ”, 佐藤寿志,束田昭雄,内藤方夫,松田梓,応用物理学会第24回分科会発表(招待講演),2001.12.11.

 

 

 

国内会議発表

 

[1] “Ba(Pb,Bi)O3における207PbのNMR”, 佐藤寿志,近藤高志、正木篤、滝川仁、安岡弘志、内田慎一、北沢宏一、田中昭二、 日本物理学会1986年秋分科会、1986.

 

[2]  Ba(Pb,Bi)O3における207PbのNMR II”, 佐藤寿志,近藤高志、岸雄光二、滝川仁、安岡弘志、内田慎一、北沢宏一、田中昭二、 日本物理学会1987年春年会、1987.3.30.

 

[3] “酸化物超伝導体Ba1-xKxBiO3のスパッタ薄膜の作製とその物性”, 佐藤寿志,高木英典、田島節子、内田慎一、村上敏明、榎本陽一、日本物理学会1989年春年会、1989.

 

[4] “超伝導酸化物Ba1-xKxBiO3薄膜の物性”, 佐藤寿志,高木英典、内田慎一、 1989年春季第36回応用物理学関係連合講演会、1989.

 

[5] “超伝導酸化物Ba1-xKxBiO3薄膜の物性(II)”, 佐藤寿志,田島節子、高木英典、内田慎一、日本物理学会1989年秋分科会、5p-2B-16、1989.04.05.

 

[6] “超伝導酸化物Ba1-xKxBiO3薄膜の物性(III)”, 佐藤寿志,高木英典、田島節子、内田慎一、日本物理学会1990年春年会、30-TD-9、1990.03.30.

 

[7] “超伝導酸化物Ba1-xKxBiO3薄膜の物性(IV)”, 佐藤寿志,内田慎一、田島節子、吉田政司、田辺圭一、日本物理学会1991年春年会、27p-PS-133、1991.03.27.

 

[8] “La2−xSrxCuO4 非軸配向薄膜の作製”, 佐藤寿志,内藤方夫, 伊藤利充,内田慎一,有馬孝尚,十倉好紀,第39回応用物理学会 講演番号28pPA20,1992.03.27.

 

[9] “2−1−4型非軸配向薄膜の作製”, 佐藤寿志,内藤方夫, 伊藤利充,内田慎一,有馬孝尚,十倉好紀,第53回応用物理学会 講演番号18pF10,1992.03.27.

 

[10] “Nearly-Homoepitaxial-Growthによる2-1-4型超伝導体(110)表面の平滑化”, 佐藤寿志,内藤方夫, 木下聡,有馬孝尚,十倉好紀,第40回応用物理学会関係連合講演会 講演番号1a−GB−4,1993.04.01.

 

[11] “Pr2CuO4単結晶上に成膜したPr2-xCexCuO4(110)膜の異方的電気伝導”, 佐藤寿志,内藤方夫, 木下聡,有馬孝尚,十倉好紀,第40回応用物理学関係連合講演会 講演番号1p-GB-3,1993.04.01.

 

[12] “214型酸化物超伝導体薄膜の表面超構造”, 佐藤寿志,内藤方夫, 木下聡,有馬孝尚,十倉好紀,日本物理学会1993年秋分科会 15pE-10,1993.10.15.

 

[13] “格子不整合による214型酸化物超伝導体(110)薄膜の表面形態の変化”, 佐藤寿志,内藤方夫,有馬孝尚,十倉好紀,応用物理学会1994年秋講演会 20aZT-4,1994.09.20.

 

[14] “(La,Sr)2CuO4薄膜におけるオゾンの効果の成長方位による相違”, 佐藤寿志, 応用物理学会1995年秋講演会 27aB8,1995.08.27.

 

[15] “La2-xSrxCuO4(001)MBE薄膜での格子歪みによる転移温度の上昇”, 佐藤寿志,内藤方夫,日本物理学会1996年春年会 31aYK14,1996.03.31.

 

[16] “6枚以下のCuO2面からなるLa2-xSrxCuO4超薄膜の超伝導”, 佐藤寿志,山本秀樹,内藤方夫,第57回応用物理学会学術講演会 8aKB11,1996.09.08.

 

[17] “オゾンを用いた過剰酸素注入によるLa2CuO4+d超伝導薄膜の作製”, 佐藤寿志,山本秀樹,内藤方夫,第44回応用物理学会関係連合講演会 28aZS9,1997.03.28.

 

[18] “La2-xSrxCuO4+y(001)MBE薄膜の物性測定(2)”, 佐藤寿志,束田昭雄,内藤方夫,日本物理学会秋の分科会,1999.

 

[19] “La2-xSrxCuO4c軸及び非c軸配向薄膜での抵抗率の膜厚依存性”, 佐藤寿志,内藤方夫,日本物理学会秋の分科会,1999.

 

[20] “La-214薄膜での高温抵抗率測定”, 佐藤寿志,内藤方夫,渡辺  ,束田昭雄,松田梓,日本物理学会春の分科会,2000.

 

[21]  “20GHz帯マイクロストリップ方向性結合器における素子冷却による損失低減”,佐藤寿志,関智弘,長敬三,応用物理学会2002年秋学術講演会,

2002.

      

[22]  “高温超伝導2GHz帯マイクロストリップバンドパスフィルタの3次相互変調測定”,佐藤寿志,応用物理学会2003年春学術講演会,2003.

      

[23]  “高温超伝導薄膜マイクロストリップフィルタの3次相互変調測定”,佐藤寿志,長 敬三,Jose Kurian,内藤方夫,応用物理学会2003年秋学術講演会,2003.

      

[24]  “高温超伝導薄膜マイクロストリップフィルタにおける共振器形状および薄膜品質の相互変調特性への影響”,佐藤寿志,長 敬三,Jose Kurian,内藤方夫,電子情報通信学会2003年秋ソサイエティ大会,2003.

 

[25]  “高温超伝導薄膜マイクロストリップフィルタにおける共振器形状および薄膜品質の相互変調特性への影響”,佐藤寿志,長 敬三,Jose Kurian,内藤方夫,低温工学会2003年秋季学会,2003.

 

[26]  “高温超伝導体NdBa2Cu3O7のMBE薄膜を用いたバンドパスフィルタ”,佐藤寿志,Jose Kurian,内藤方夫,電子情報通信学会2004年春全国大会,2004.

 

[27]  “高温超伝導薄膜フィルタの相互変調測定”, 佐藤寿志,Jose Kurian,内藤方夫,電子情報通信学会超伝導エレクトロニクス研究会2004年4月 議題3, 2004.

 

[28]  “高温超伝導体NdBa2Cu3O7のMBE薄膜を用いたバンドパスフィルタ”,佐藤寿志,Jose Kurian内藤方夫,応用物理学会2004年春学術講演会,2004.

      

[29]  “NdBa2Cu3O7薄膜超伝導バンドパスフィルタでの酸素アニール効果”,佐藤寿志,Jose Kurian,応用物理学会2004年秋季講演会3a-A-9,2004.

 

[30]  “Ag添加によるNBCO超伝導薄膜の特性改善”, ジョセクリエン,佐藤寿志,内藤方夫,牧本俊樹,応用物理学会2004年秋季講演会3p-F-7,2004.

 

[31]  “NdBa2Cu3O7薄膜超伝導バンドパスフィルタでの酸素アニール効果”, 佐藤寿志,Jose Kurian,2004年電子情報通信学会エレクトロニクスソサイエティ大会C-2-87,2004.

 

[32]  “22GHzにおけるNBCO薄膜の表面抵抗測定とYBCO薄膜との比較”,小高康志,小林禧夫,Jose Kurian,佐藤寿志,牧本俊樹,2004年電子情報通信学会エレクトロニクスソサイエティ大会C-2-65,2004.

 

[33]  “NBCO薄膜の表面抵抗測定とYBCO薄膜との比較”,小高康志,小林禧夫,Jose Kurian,佐藤寿志,牧本俊樹,電子情報通信学会超伝導エレクトロニクス研究会2004年10月,2004. 

 

[34]  “NO2吸着によって正孔濃度が増大した水素終端ダイヤモンド表面の正孔移動度”, 嘉数 誠, 佐藤 寿志, 第58回 応用物理学関係連合講演会 26p-BC-9 2011.03.24

 

[35]   “水素終端ダイヤモンド表面のNO2吸着による正孔濃度極限値の測定”, 嘉数 誠、 佐藤寿志、応用物理学会2011年秋季講演会30a-P1-31 2011.08.30.

 

[36]   “高濃度NO2吸着による水素終端ダイヤモンドの正孔濃度の増加とFET特性の改善 ”、嘉数 誠、佐藤寿志、平間一行、第25回 ダイヤモンドシンポジウム 112 2011.12.07.

 

[37] “水素終端ダイヤモンド表面に吸着した無機分子によるホールドープ機構の解明”、高木 祥光、白石 賢二、 嘉数 誠、 佐藤寿志、 第59回応用物理学関係連合講演会 18a-F3-7 2012.03.18.

 

[38]   “Al2O3パッシベーションにより熱的安定化した水素終端ダイヤモンドFET”、平間 一行、佐藤寿志、嘉数 誠、第59 回応用物理学関係連合講演会 18a-F3-8 2012.03.18.

 

[39]   “NO2吸着水素終端ダイヤモンド表面の熱的安定化と高温域の電気的特性”、嘉数 誠、佐藤寿志 第59 回応用物理学関係連合講演会 18a-F3-10 2012.03.18.

 

[40] “無機分子吸着による水素終端ダイヤモンド表面へのホールドープのメカニズム”、高木 祥光、白石 賢二、嘉数 誠、佐藤寿志、日本物理学会 第67回年次大会 25aCC-6 2012.03.25.

 

[41]   “水素終端ダイヤモンド表面の正孔生成機構:吸着分子の特定と第一原理計算”、嘉数 誠、 佐藤 寿志、 高木 祥光、白石 賢二、九州表面真空研究会 2012.6.9.

 

[42]   “高濃度NO2ガスを用いた様々な面方位をもつ水素終端ダイヤモンド表面へのホールドーピング”、佐藤 寿志、嘉数 誠、応用物理学会 2012.09.11

 

[43] “Al2O3パッシベーション膜を有するダイヤモンドFETの大電流動作と高周波特性”、平間 一行、佐藤 寿志、原田 裕一、山本 秀樹、嘉数 誠、  応用物理学会 2012.09.11.

 

[44] “Al2O3パッシベーションにより熱的安定化したNO2吸着・水素終端ダイヤモンドFET"、平間一行,佐藤寿志,原田裕一,山本秀樹,嘉数 誠、ダイヤモンドシンポジウム2012.11.20.

 

[45]   “高濃度NO2ガスを用いた水素終端ダイヤモンド表面の正孔生成の面方位依存性"、嘉数 誠,佐藤寿志、ダイヤモンドシンポジウム2012.11.21. 

 

[46]   “Al2O3パッシベーションにより熱的安定化したNO2吸着・水素終端ダイヤモンドFETの動作機構"、平間一行,佐藤寿志,原田裕一,山本秀樹,嘉数誠、応用物理学会 27p-A6-8 2013.03.27. 

 

 

 

特許出願

 

[1]    “酸化物超伝導体の成膜方法”, 佐藤寿志、内藤方夫、特願平4-84630、1992.03.6

 

[2]    “酸化物単結晶の表面形成方法”,  佐藤寿志、内藤方夫、特願平4-157423、1992.05.25

 

[3]    “薄膜成長時の不純物検知方法と組成制御方法およびその装置”,内藤方夫、佐藤寿志, 特願平6-219795、1994.09.14

 

[4]    “超伝導酸化物薄膜”,佐藤寿志、内藤方夫、特願平8-25395、1996.02.13

 

[5]    “酸化物超伝導体の合成方法および酸化物超伝導体”,内藤方夫、佐藤寿志、山本秀樹、特願平9-78903、1997.3.13

 

[6]    “酸化物超伝導体薄膜の作製方法”,内藤方夫、佐藤寿志、山本秀樹、特願平9-952001997.3.27

 

[7]    “酸化物超伝導体”, 狩元慎一、内藤方夫、山本秀樹、佐藤寿志, 特願平11-0354371999.2.15

 

[8]    “LaSrAlO4単結晶基板の溶解性表面処理方法”, 佐藤寿志, 内藤方夫, 特願2001-80787, 2001.3.21

 

[9]    相互変調測定方法及び装置”,佐藤寿志,山口陽、西川健二郎、長敬三、特願2003-3571832003.10.17.

 

[10]   高周波回路”,佐藤寿志,長敬三、特願2004-0354672004.02.12.

 

[11]   超伝導バンドパスフィルタ回路”,佐藤寿志, 特願平2004-1108542004.4.5.

 

[12]   酸化物高温超伝導体高周波素子の作製方法”,佐藤寿志,ジョセクリアン, 特願平2004-1562892004.5.26.

 

[13] “超伝導高周波バンドパスフィルタ”,佐藤寿志, 特願平2004-1562952004.5.26.

 

[14] “酸化物薄膜の作製方法”,佐藤寿志,ジョセクリアン,牧本俊樹, 特願平2004-2344392004.8.11.

[15]   “半導体電子デバイス”、平間一行 嘉数 誠 佐藤寿志 山内喜晴.

 

 

 

委員・委嘱等

 

[1]  論文査読委員, The 14th International Symposium on superconductivity (ISS2001),2001.09.-2002.02.

 

[2]  (社)応用物理学会超伝導分科会 幹事,2004.04.01.-2009.01.01.

 

 

 

表彰

 

[1]  “6枚以下のCuO2面からなるLa2-xSrxCuO4超薄膜の超伝導”, 佐藤寿志,山本秀樹,内藤方夫, “基礎研所長表彰業績賞”(NTT社内), 1997.01.28

 

[2]  “6枚以下のCuO2面からなるLa2-xSrxCuO4超薄膜の超伝導”, 佐藤寿志,山本秀樹,内藤方夫, “第1回応用物理学会講演奨励賞”1997.03.28

 

 

以上

 

HOME PAGE of NTT Basic Res. Labs.