Refereed Journal Articles
研究室学生の貢献を赤字(筆頭著者),青字(共著者)としてあらわしています。[CS: CiteScore]
[90] T. Kiriike, K. Izumi, N. Nishioka, G. Tricot, H. Takebe, and A. Saitoh*, “Small photoelastic and large elastic lanthanum aluminosilicate glasses” (invited),
J. Non-Cryst. Solids [CS: 7.0], Vol. 690, (2026) pp. 1242151-1242158.
[DOI] 国外・ 学内共同研究
[89] T. Ogura, K. Sakashita, Y. Ishibashi, K. Mitsui, N. Terakado, and A. Saitoh*, “Photo-induced bending phenomena in GeSe2 glass”,
phys. stat. sol. (b), Vol. 263, (2026) pp. 702551-702555.
[DOI] 国内・学内共同研究
[88] K. Mitsui, S. Imada, S. Inoue, G. Tricot, K. Ben Tayeb, H. Vezin, M. Mori, T. Katase, H. Hiramatsu, and A. Saitoh*, “Degenerate n-type electrical conductivity in WO3-P2O5 glasses with embedded WO3 nanocrystals”,
J. Phys. Chem. Solids [CS: 9.2], Vol. 211, (2026) pp. 1134641-11346410.
[DOI] 国際・国内・学内共同研究
[87] Y. Maeda, A. Saitoh, H. Takebe, M. Uchiyama, and T. Oniki, “Structure and Properties of Iron Phosphate Based-Glasses for Immobilization of Simulated Ferrocyanide Sludge”,
J. Sustainable Mater. Sci. Eng., Vol. 1, (2025) pp. 2550001-2550011.
[DOI] 国内・学内共同研究
[86] K. Tanaka and A. Saitoh, “Photoluminescence in sulfur and selenium chains: Polaronic exciton dynamics”,
Computational Mater. Sci. [CS: 6.6], Vol. 263, (2025) pp. 1144031-1144037.
[DOI] 国内共同研究
[85] K. Miyake, K. Mitsui, S. Imada, S. Inoue, M. Mori, and A. Saitoh*, “Fluorine-doped tin borate semiconducting glasses with room temperature conductivity and visible light transmission”,
J. Non-Cryst. Solids [CS: 7.0], Vol. 669, (2025) pp. 1238171-1238179.
[DOI] 学内共同研究
[84] K. Mitsui, T. Ogura, N. Terakado, Y. Ishibashi, and A. Saitoh*, “Photo-induced bending in (Ag2S)x(As2S3)1-x glasses”,
J. Mater. Sci.: Mater. Electron. [CS: 5.1], Vol. 36, (2025) pp. 15461-15468.
[DOI] 国内共同研究
[82] K. Mitsui, N. Nishioka, H. Takebe, R. K. Brow, and A. Saitoh*, “Degradation of radioactive waste encapsulation of BaO-FeOx-P2O5 glass evaluated from electrical conductivity”,
J. Amer. Ceram. Soc. [CS: 7.2], Vol. 108, (2025) pp. 2043401-2043410.
[DOI] 国際共同研究
[81] K. Izumi, K. Mitsui, R. Miyoshi, G. Tricot, and A. Saitoh*, “Nonlinear composition dependence of structure-related Young's modulus in tin boro-phosphate glasses”,
J. Ceram. Soc. Jpn. [CS: 2.0], Vol. 133, (2025) pp. 52-59.
[DOI] 国際共同研究
[80] K. Mitsui, R. Matsumoto, M. Mori, Z. Hu, T. Katase, H. Hiramatsu, and A. Saitoh*, "Enhancement of n-type electronic conductivity in bismuth iron borate glasses by fluorine addition",
J. Appl. Phys. [CS: 5.1], Vol. 136, (2024) pp. 2351041-2351048.
[DOI] 国内・国際共同研究
[79] K. Hayashi, H. Nishizaki, K. Mitsui, G. Tricot, and A. Saitoh*, “Yttria substitution effect of tantalate aluminosilicate glasses with ultra-high Young’s modulus (Editor's choice in 2024)“,
J. Amer. Ceram. Soc. [CS: 7.5], Vol. 107, (2024) pp. 6774-6782.
[DOI] 国際共同研究
[78] R. Miyoshi, A. Saitoh*, N. Kanno, S. Ohara, S. Yoshida, and H. Hayashi, “Ultra-high refractive niobate-based borate glasses with visible transparent and large elastic properties”,
J. Ceram. Soc. Jpn. [CS: 2.0], Vol. 132, (2024) pp. 422-426.
[DOI] 国内共同研究
[77] Y. Watanabe, K. Hayashi, G. Tricot, B. Doumert, and A. Saitoh*, “Structural insights into properties of SnO-P2O5-B2O3 glasses: P2O5/B2O3 substitution effect“,
Mater. Chem. Phys. [CS: 8.7], Vol. 323, (2024) pp. 1296411-1296418.
[DOI] 国際共同研究
[76] M. Wada, Y. Ishibashi, N. Terakado, K. Kuryu, K. Mitsui, T. Asahi, and A. Saitoh*, “Photo-induced bending of amorphous As2S3 bulk and fiber driven by optical torque”,
J. Mater. Sci.: Mater. Electron. [CS: 4.6], Vol. 35, (2024) pp. 804-812.
[DOI] 国内・学内共同研究
[75] R. Miyoshi, M. Wada, H. Hijiya, M. Nagano, A. Koike, and A. Saitoh*, “A comparison of photoelastic constants of disk- and square-shaped glasses using the heterodyne method: An empirical approach”,
J. Ceram. Soc. Jpn. [CS: 2.0], Vol. 132, (2024) pp. 104-108.
[DOI] 国内共同研究
[74] J. de Clermont-Gallerande, S. Tatsumi, A. Nakatani, T. Suzuki, Y. Ohishi, K. Hayashi, and A. Saitoh, “Zero stress-optic TeO2-Li2O-ZnO-Bi2O3 glass fiber ”,
J. Non-Cryst. Solids [CS: 6.7], Vol. 625, (2024) pp. 1227601-1227608.
[73] K. Hayashi, G. Tricot, and A. Saitoh*, “Colorless Bi2O3-containing borophosphate glasses with high refractivity”,
J. Ceram. Soc. Jpn., Vol. 131, (2023) pp. 889-893.
[DOI] 国際共同研究
[72] A. Saitoh*, Y. Ishibashi, M. Wada, K. Mitsui, and K. Tanaka, “Photo-induced bending of chalcogenide glass fiber”,
Appl. Phys. Express [CS: 5.6], Vol. 16, (2023) pp. 1120021-1120024.
[DOI] 国内共同研究
[71] K. Mitsui, Z. Hu, K. Hanzawa, T. Katase, H. Hiramatsu, and A. Saitoh*, "Effect of iron substitution on electronic conductivity of bismuth sesquioxide glasses",
J. Appl. Phys. [CS: 5.1], Vol. 134, (2023) pp. 0751011-0751016.
[DOI] 国際共同研究
[70] Y. Watanabe, G. Tricot, T. Shimizu, A. Saitoh*, “Effect of B2O3 substitution for P2O5 on the refractive index and optical absorption in pyro SnO-P2O5-B2O3 glasses”,
Optik [CS: 5.7], Vol. 287, (2023) pp. 1711501-1711508.
[DOI] 国際共同研究
[69] T. Shimizu, R. Miyoshi, and A. Saitoh*, “Effect of SnO and Bi2O3 on the elastic moduli of silicate glass with high refractivity and small photoelasticity”,
J. Ceram. Soc. Jpn. [CS: 2.0], Vol. 131, (2023) pp. 320-323.
[DOI]
[68] K. Tanaka and A. Saitoh, “Mechanism of photoinduced gyrotropic phenomena in amorphous As2S3”,
phys. stat. sol. (b) [CS: 3.3], Vol. 260, (2023) pp. 23000931-23000934.
[DOI] 国内共同研究
[67] T. Shimizu, A. Saitoh*, U. Hoppe, G. Tricot, and R. K. Brow, “A prediction of Young’s modulus for tin containing phosphate glasses using quantitative structural information”,
J. Non-Cryst. Solids [CS: 6.7], Vol. 608, (2023) pp. 1222621-122266.
[DOI] 国際共同研究
[66] K. Hayashi, K. Mitsui, T. Shimizu, R. Kado, T. Umada, A. Koike, S. Yoshida, S. Inaba, and A. Saitoh*, “Melt-quenched oxide glasses with ultra-high Young’s modulus and small thermal expansion coefficient“,
J. Amer. Ceram. Soc. [CS: 7.5], Vol. 106, (2023) pp. 1732-1738.
[DOI]国内共同研究
[65] M. Wada, K. Mitsui, Y. Ishibashi, A. Saitoh*, K. Tanaka, “Stress-induced and photo-induced birefringences in As2S3 glass”,
J. Non-Cryst. Solids [CS: 6.7], Vol. 600, (2023) pp. 1220171-1220175.
[DOI] 国内・学内共同研究
[64] R. Miyoshi, K. Mitsui, T. Shimizu, and A. Saitoh*, “Colorless, highly refractive, and zero photoelastic calcium tin phosphate glasses”
Opt. Mater. [CS: 5.6], Vol. 133, (2022) pp. 1130741-1130743.
[DOI]
[63] K. Tanaka and A. Saitoh, “Pulsed light effects in amorphous As2S3: review”,
J. Mater. Sci.: Mater. Electron. [CS: 4.6], Vol. 33, (2022) pp. 22029-22052.
[DOI] 国内共同研究
[62] U. Hoppe, A. Saitoh, T. Shimizu, G. Tricot, A. C. Hannon, “Properties and structure of ternary BaO-SnO-P2O5 glasses”,
J. Non-Cryst. Solids [CS: 6.7], Vol. 597, (2022) pp. 1219091-12190910.
[DOI] 国際共同研究
[61] K. Mitsui, K. Suzuki, and A. Saitoh*, “Colorless SnO- and Sb2O3-containing borate and borosilicate glasses with small photoelastic and high refractive properties”,
Jpn. J. Appl. Phys. [CS: 3.0], Vol. 61, (2022) pp. 0955071-0955077.
[DOI]
[60] K. Hayashi, T. Shimizu, S. Matsuishi, H. Hiramatsu, A. Saitoh*, “Effect of fluorine doping on the optical and mechanical properties of bismuth-containing silicate and borate glasses”,
J. Mater. Sci.: Mater. Electron. [CS: 4.6], Vol. 33, (2022) pp. 2242-2256.
[DOI] 国内共同研究
[59] A. Saitoh*, K. Hayashi, K. Hanzawa, S. Ueda, S. Kawachi, J. Yamaura, K. Ide, J. Kim, G. Tricot, S. Matsuishi, K. Mitsui, T. Shimizu, M. Mori, H. Hosono, H. Hiramatsu, “Origins of the coloration from structure and valence state of bismuth oxide glasses”,
J. Non-Cryst. Solids [CS: 6.4], Vol. 560, (2021) pp. 12072001-12072014.
[DOI] 国際・国内共同研究
[58] H. Takebe, M. Fujisawa, Y. Maeda, and A. Saitoh, "Effect of molybdenum oxide addition on the durability and structure of iron phosphate glasses",
J. Ceram. Soc. Jpn. [CS: 2.0], Vol. 129, (2021) pp. 105-110.
[DOI]
[57] Y. Tomihara, G. Tricot, B. Revel, K. Kishimoto, T. Okamoto, A. Saitoh*, "The relationship among electronic polarizability, photoelasticity, and refractivity in ternary phosphate glasses (invited)",
phys. stat. sol. (b) [CS: 2.9], Vol. 257, (2020) pp. 20001461-20001468.
[DOI] 国際共同研究
[56] A. Ihira, T. Sakamoto, A. Saitoh, and H. Takebe, "Formation of reaction layer and dissolution behavior of alkali and alkaline-earth iron phosphate glasses in water",
Mater. Transactions, Vol. 61, (2020) pp. 1842-1847.
[DOI]
[55] A. Saitoh*, H. Goto, Y. Tamada Y. Ogawa, and H. Takebe, "Immobilization of fluorine in reduced slag by addition of crystalline hydroxyapatite and glassy calcium phosphate using calcining process",
Mater. Transactions, Vol. 61, (2020) pp. 1679-1683.
[DOI] 国内共同研究
[54] K. Kishimoto, G. Tricot, T. Atsumi, S. Murai, K. Tanaka, H. Takebe, and A. Saitoh*, "Durable BaO-ZnO-P2O5 glass with small stress induced birefringence for lead free polarization light controlling devices (invited)",
Int. J. Appl. Glass Sci. [CS: 3.6], Vol. 11, (2020) pp. 27-34.
[DOI] 国際・国内共同研究
[53] K. Suzuki, G. Tricot, B. Revel, and A. Saitoh*, "Properties and structure of SnO-SiO2 and SnO-SnF2-SiO2 glasses",
J. Non-Cryst. Solids [CS: 5.6], Vol. 527, (2020) pp. 1197061-1197069.
[DOI] 国際共同研究
[52] K. Hayashi, Y. Ishibashi, T. Shimizu, T. Asahi, A. Saitoh*, "Correlation with one- and two-photon absorptions in Bi2O3 containing B2O3 and SiO2 glasses with zero photoelastic constant",
Appl. Phys. Express [CS: 4.7], Vol. 12, (2019) pp. 1020101-1020104.
[DOI] 学内共同研究
[51] K. Hayashi, T. Atsumi, S. Murai, K. Tanaka, H. Takebe, and A. Saitoh*, "Measurements of the optical and thermal properties of Bi2O3-SiO2 glass producing fibers with zero photoelasticity",
Opt. Mater. [CS: 4.4], Vol. 96, (2019) pp. 1093551-1093554.
[DOI] 国内共同研究
[50] A. Saitoh*, M. Itadani, K. Suzuki, H. Takebe, and H. Hosono, "Optical properties and zero photoelastic constant of ns2-type metal cation containing oxide glasses",
Opt. Quantum Electron. [CS: 3.1], Vol. 55, (2019) pp. 30201-30210.
[DOI] 国内共同研究
[49] A. Saitoh*, S. Kitani, S. Matsuishi, H. Kawaji, H. Takebe, and H. Hosono, "Structure and photoelastic constant of binary ns2-type metal cation containing silicate glasses",
J. Non-Cryst. Solids [CS: 4.8], Vol. 521, (2019) pp. 1195261-1195265.
[DOI] 国内共同研究
[48] P. Freudenberger, A. Saitoh, H. Ikeda, Md. S. Adnan, H. Takebe, S. Nakane, C.-S. Kim, R. K. Brow, "Characterization of 20Na2O-30((1-x)CaO-xSrO)-50P2O5 Glasses Intended for Biomedical Optical Fibers",
Int. J. Appl. Glass Sci. [CS: 3.9], Vol. 10, (2019) pp. 378-390.
[DOI] 国際・国内共同研究
[47] T. Okamoto, A. Saitoh*, P. Freudenberger, H. Takebe, R. K. Brow, "The structure and properties of xZnO-(67-x)SnO-33P2O5 glasses: (IV) Mechanical properties",
J. Non-Cryst. Solids [CS: 4.8], Vol. 513, (2019) pp. 44-48.
[DOI] 国際共同研究
[46] A. Saitoh*, Y. Ishibashi, R. Kihara, T. Sakamoto, R. Hayashi, T. Asahi, and H. Takebe, "Recycling of calcium phosphate by firing and high-power laser-ablation processes",
J. Ceram. Soc. Jpn. [CS: 2.2], Vol. 127, (2019) pp. 131-135.
[DOI] 学内共同研究
[45] N. Kitamura, A. Nomura, A. Saitoh, H. Kobayashi, I. Amamoto, and H. Takebe, "Effect of ZrO2 addition on water durability in BaO-FeO-Fe2O3-P2O5 glasses",
J. Ceram. Soc. Jpn. [CS: 1.8], Vol. 126, (2018) pp. 948-951.
[DOI] 国内共同研究
[44] A. Saitoh*, Y. Hashida, G. Tricot, and H. Takebe, "Properties and structure in ternary meta-, pyro-, and ortho-zinc tin phosphate glasses with small photoelasticity",
phys. status solidi (b) [CS: 3.3], Vol. 255, (2018) pp. 180318-180328.
[DOI] 国際共同研究
[43] A. Saitoh*, M. Itadani, S. Kitani, S. Matsuishi, M. Sasaki, H. Kawaji, H. Hosono, and H. Takebe, "Characterization and structure of a fiber of BaO-SnO-P2O5-B2O3 glass with a very small photoelastic constant",
Jpn. J. Appl. Phys. Rapid Commun. [CS: 5.0], Vol. 57, (2018) pp. 0803101-0803103.
[DOI] 国内共同研究
[42] A. Saitoh*, U. Hoppe, R. K. Brow, G. Tricot, Y. Hashida, and H. Takebe, "The structure and properties of xZnO-(67-x)SnO-33P2O5 glasses: (III) Photoelastic behavior",
J. Non-Cryst. Solids [CS: 4.3], Vol. 498, (2018) pp. 173-176.
[DOI] 国際共同研究
[41] U. Hoppe, A. Saitoh*, G. Tricot, P. Freudenberger, A. C. Hannon, H. Takebe, and R. K. Brow, "The structure and properties of xZnO-(67-x)SnO-33P2O5 glasses: (II) Diffraction, NMR, and chromatographic studies",
J. Non-Cryst. Solids [CS: 4.3], Vol. 492, (2018) pp. 68-76.
[DOI] 国際共同研究
[40] A. Saitoh*, R. K. Brow, U. Hoppe, G. Tricot, S. Anan, and H. Takebe, "The structure and properties of xZnO-(67-x)SnO-33P2O5 glasses: (I) Optical and thermal properties, Raman and infrared spectroscopies",
J. Non-Cryst. Solids [CS: 4.3], Vol. 484, (2018) pp. 132-138.
[DOI] 国際共同研究
[39] M. Itadani, G. Tricot, B. Doumert, H. Takebe, and A. Saitoh*, "Structure and properties of barium tin boro-phosphate glass systems with very low photoelastic constant",
J. Appl. Phys. [CS: 4.4], Vol. 122, (2017), pp. 0851021-08510210.
[DOI] 国際共同研究
[38] F. Munoz, A. Saitoh, R. J. Jimenez-Rioboo, R. Balda, "Synthesis and properties of Nd-doped oxynitride phosphate laser glasses",
J. Non-Cryst. Solids [CS: 4.0], Vol. 473, (2017), pp. 125-131.
[DOI] 国際共同研究
[37] H. Takebe, S. Tomita, A. Saitoh, M. Kawahara, Y. Sueoka, and M. Sakakibara, "Effect of Crystallization on Microstructure and Elution Properties in Copper Slag",
J. Sustain. Metall., Vol. 3, (2017), pp. 543-550.
[DOI] 国内・学内共同研究
[36] A. Saitoh*, K. Suzuki, Y. Hashida, M. Itadani, and H. Takebe, "Study of the properties and structure of binary tin silicate glasses with zero photoelastic constant",
Opt. Mater. Express [CS: 4.5], Vol. 7, (2017), pp. 760-765.
[DOI]
[35] A. Saitoh*, N. Kitamura, L. Ma, P. Freudenberger, A. Choudhury, H. Takebe, and R. K. Brow, "Structural study of BaO-FeOx-P2O5glasses by Mossbauerspectroscopy and high performance liquid chromatography",
J. Non-Cryst.Solids [CS: 4.0], Vol. 460, (2017), pp. 106-112.
[DOI] 国際共同研究
[34] A. Saitoh*, S. Anan, and H. Takebe, "Surface crystallization behavior during thermal processing of low-photoelastic ZnO-SnO-P2O5 glasses",
J. Mater. Sci. [CS: 4.6], Vol. 52, (2017), pp. 2192-2199.
[DOI]
[33] L. H. Arma, A. Saitoh, and H. Takebe, "Rare earth recovery from soda lime silicate glass cullet by P2O5 Addition",
J. Sustain. Metall., Vol. 2, (2016), pp. 239-247.
[DOI]
[32] M. Itadani, A. Saitoh*, Y. Masaoka, and H. Takebe, "Low photoelastic and optical properties in RO-SnO-P2O5 (R = Zn, Ba, Sr) glasses",
Opt. Lett. [CS: 6.8], Vol. 41, (2016), pp. 45-48.
[DOI]
[31] A. Saitoh*, Y. Oba, H. Takebe, "Fabrication of optical fiber of zinc tin boro-phosphate glass with zero photoelastic constant",
Jpn. J. Appl. Phys. Rapid Commun. [CS: 3.1], Vol. 54, (2015), pp. 1003071-1003073.
[DOI]
[30] A. Saitoh, G. Tricot, P. Rajbhandari, S. Anan, and H. Takebe, "Effect of B2O3/P2O5 substitution on the properties and structure of tin boro-phosphate glasses",
Mater. Chem. Phys. [CS: 4.1], Vol. 149-150, (2015), pp. 648-656.
[DOI] 国際共同研究
[29] G. Tricot, A. Saitoh, H. Takebe, "Intermediate length scale organisation in tin boro-phosphate glasses: new insights from high field correlation NMR",
Phys. Chem. Chem. Phys. [CS: 6.6], Vol. 17, (2015), pp. 29531-29540.
[DOI] 国際共同研究
[28] A. Saitoh*, K. Nakata, Y. Chen, G. Tricot, N. Yamamoto, and H. Takebe, "Zero birefringent and water durable ZnO-SnO-P2O5-B2O3glasses",
APL Materials [CS: 4.1], Vol. 3, (2015), pp. 0461021-0461026.
[DOI] 国際共同研究
[27] L. H. Arma, A. Saitoh, Y. Ishibashi, T. Asahi, Y. Sueoka, M. Sakakibara, H. Takebe,"Red fluorescence lamellae in calcitic prismatic layer of Pinctada vulgaris shell (Mollusc, bibalvia)",
Opt. Mater. Express [CS: 5.3], Vol. 4, No. 9, (2014), pp. 1813-1823.
[DOI] 学内共同研究
[26] H. Takebe, T. Kobatake, A. Saitoh, "Dissolution Behaviour of SnO-P2O5 and SnO-P2O5-B2O3 Glasses in Water",
Physics and Chemistry of Glasses: European Journal of Glass Science and Technology Part B [CS: 1.1], Vol. 54, No. 4, (2013), pp. 182-186.
[DOI]
[25] A. Saitoh*, S. Anan, H. Takebe, "Thermal Properties and Crystallization Behaviour of ZnO-SnO-P2O5Glasses",
Physics and Chemistry of Glasses: European Journal of Glass Science and Technology Part B [CS: 1.1], Vol. 54, No. 4, (2013), pp. 177-181.
[DOI]
[24] 中村洋貴,斎藤 全,武部博倫,"リンケイ酸塩ガラスにおけるレアアース濃縮のための組成条件",
J. MMIJ, Vol. 129, No. 8, 9, (2013), pp. 591-595.
[DOI]
[23] 橋尚志, 上田 康, 斎藤 全, 武部博倫, "CaO/Al2O3 > 1 のモル比を有するCaO-Al2O3-SiO2ガラスの熱的特性と構造の組成依存性",
J. MMIJ, Vol. 128, No. 3, (2012), pp. 150-154.
[DOI]
[22] N. Yamamoto, A. Saitoh, and H. Takebe, "Zero photoelastic zinc tin phosphate glass without lead oxide",
Opt. Lett. [CS: 5.9], Vol. Vol. 37, (2012), pp. 4203-4205.
[DOI]
[21] A. Saitoh and K. Tanaka, "Optical nonlinearity in chalcogenide glasses for near-infrared all-optical devices",
J. Optoelectron. Adv. Mater. Vol. 13, (2011) pp. 71-74.
[DOI]
[20] A. Saitoh, H. Takebe, and K. Tanaka, "Selenium chains in ZSM-5 zeolite: Atomic structure and optical properties" ,
J. Optoelectron. Adv. Mater., Vol. 13, (2011), pp. 1524-1530.
[DOI]
[19] K. Tanaka, A. Saitoh, and N. Terakado, "Anomalous anisotropic deformations of As2S3 flakes induced by linearly-polarized bandgap illumination",
J. Non-Cryst. Solids, Vol. 355, (2009), pp. 1828-1831.
[DOI]
[18] K. Tanaka, N. Terakado, and A. Saitoh, "Visible anisotropic deformation of chalcogenide glass by optical force",
Phys. Stat. Sol., Vol. A206, (2009), pp. 892-897.
[DOI]
[17] K. Tanaka and A. Saitoh, "Optical nonlinearities of Se-loaded zeolite
(ZSM-5): a molded nanowire system",
Appl. Phys. Lett., Vol. 94, (2009), pp. 2419051-2419053.
[DOI]
[16] A. Saitoh and K. Tanaka, "Selenium-loaded zeolite (ZSM-5):
II. Photoinduced phenomena",
J. Appl. Phys., Vol. 105, (2009) pp. 1135311-1135314.
[DOI]
[15] A. Saitoh and K. Tanaka, "Selenium-loaded zeolite (ZSM-5):
I. Structure and fundamental properties",
J. Appl. Phys., Vol. 105, (2009), pp. 1135301-1135307.
[DOI]
[14] A. Saitoh and K. Tanaka, "Optical properties of chalcogen-impregnated zeolite (ZSM-5)",
Solid State Commun., Vol. 149, (2009), pp. 750-753.
[DOI]
[13] K. Tanaka, A. Saitoh, and N. Terakado, "Photoinduced phenomena in group IV glasses",
J. Mater. Sci.: Mater. Electron., Vol. 20, (2009) pp. 38-42.
[DOI]
[12] K. Tanaka, N. Terakado, and A. Saitoh, "Photoinduced anisotropic deformations in covalent chalcogenide glasses",
J. Optoelectron. Adv. Mater. 10, (2008), pp. 124-130.
[DOI]
[11] A. Saitoh, T. Donuma, and K. Tanaka, "Un-stability of sputtered Ge2Sb2Te5 films in electrical phase changes",
Appl. Phys. Express, Vol. 1, (2008), pp. 0215011-0215013.
[DOI]
[10] A. Saitoh, S. Murata, S. Matsuishi, M. Oto, T. Miura, M. Hirano, and H. Hosono, "Phosphorus co-doping effect on photoluminescence in Ce3+-doped SiO2 glasses: The formation of unique ligand field by P-doping",
J. Lumin., Vol. 122-123, (2007), pp. 355-358.
[DOI]
[09] K. Tanaka and A. Saitoh, "Optical nonlinearity in glasses: The origin and photo-excitation effects",
J. Mater. Sci: Mater. Electron., Vol. 18, (2007), pp. S75-S79.
[DOI]
[08] K. Tanaka, A. Saitoh, and N. Terakado, "Giant photo-expansion in chalcogenide glass",
J. Optoelectron. Adv. Mater. Vol. 8, (2006), pp. 2058-2065.
[DOI]
[07] L. Skuja, K. Kajihara, M. Hirano, A. Saitoh, and H. Hosono, "An increased F2 laser damage in "wet" silica glass due to atomic hydrogen: A new hydrogen-related E' center",
J. Non-Cryst. Solids, Vol. 352, (2006), pp. 2297-2302.
[DOI]
[06] A. Saitoh, S. Matsuishi, S. W. Choi, J. Nishii, M. Oto, M. Hirano, and H. Hosono, "Elucidation of codoping effects on solubility enhancement of Er3+ in SiO2 glasses: Striking difference between Al and P codoping",
J. Phys. Chem. B (letter), Vol. 110, (2006), pp. 7615-7620.
[DOI]
[05] A. Saitoh, S. Matsuishi, M. Oto, T. Miura, M. Hirano, and H. Hosono, "Elucidation of coordination structure around Ce3+ in doped SiO2 glasses using pulsed electron magnetic resonance:
Effect on phosphorus, boron and phosphorus-boron co-doping",
Phys. Rev. B, Vol. 72, (2005), pp. 212101-212104.
[DOI]
[04] A. Saitoh, S. Murata, S. Matsuishi, M. Oto, T. Miura, M. Hirano, and H. Hosono, "Elucidation of phosphorus codoping effect on photoluminescence in Ce3+-activated SiO2 glasses: Determination of solvation shell structure by pulsed EPR",
Chem. Lett., Vol. 34, (2005), pp. 1116-1117.
[DOI]
[03] A. Saitoh and K. Tanaka, "Self-developing aspherical chalcogenide-glass microlenses for semiconductor lasers",
Appl. Phys. Lett., Vol. 83, (2003), pp. 1725-1727.
[DOI]
[02] A. Saitoh, T. Gotoh, and K. Tanaka, "Chalcogenide-glass microlenses for optical fibers",
J. Non-Cryst. Solids, Vol. 299-302, (2002), pp. 983-987.
[DOI]
[01] A. Saitoh, T. Gotoh, and K. Tanaka, "Chalcogenide-glass microlens attached to optical-fiber end surface",
Opt. Lett., Vol. 25, (2000), pp. 1759-1761.
[DOI]
Reports, Book Chapters, Miscellaneous Publications
[11] 斎藤 全, "光学的性質;光の透過と吸収・散乱;ガラスの透過率・反射率・散乱" (分担執筆),
新版ガラス工学ハンドブック , 矢野他編, 朝倉書店, 2025, ISBN: 9784254252750.
[10] 斎藤 全, "透明な電気伝導性ガラスも作られている [電子が移動するガラス]" (分担執筆),
トコトンやさしいガラスの本, ニューガラスフォーラム 編著, B&Tブックス 日刊工業新聞社, 2025, ISBN: 9784526083884, pp. 22.
[09] 板垣吉晃, 佐々木秀顕, 斎藤 全, 阪本辰顕, 武部博倫, 宮越 大,"愛媛大学における産学協働による実践型技術教育について",
砥粒加工学会誌, Vol. 63, No. 12, (2019), pp. 612-615 (in Japanese).
[08] 斎藤 全,"ガラス材料で実現する低エネルギー社会",
月刊愛媛ジャーナル, Vol. 32, No. 4, (2018), pp. 80-83 (in Japanese).
[07] 武部博倫, 北村直登, 斎藤 全,"放射性廃棄物固化用鉄リン酸塩系ガラスの組成最適化 (Composition Optimization of Iron Phosphate-Based Glasses for Nuclear Waste Immobilization)",
NEW GLASS, Vol. 32, No. 2, (2017), pp. 23-27 (in Japanese).
[06] 武部博倫 斎藤 全,"リン酸塩ガラスの特徴的な構造と機能およびその応用(Distinctive Structure, Functionality and Applications of Phosphate Glasses)",
セラミックス, Vol. 48, No. 12, (2013), pp. 927-930 (in Japanese).
[05] 斎藤 全,"Optical properties in chalcogen-impregnated zeolite for all optical switching application",
Nippon Sheet Glass annual report, Vol. 29, (2011), pp. 84-87 (in Japanese).
[04] 斎藤 全, "Material Science Fascinating to My Mind",
New Glass, Vol. 22, (2007), pp. 32-36 (in Japanese).
[03] 斎藤 全, 田中啓司, "Self-developing chalcogenide-glass microlenses",
Seed Technology from the Graduate School of Engineering, Hokkaido University, Vol. 4, (2007), #06-0202 (in Japanese).
[02] 斎藤 全, 松石 聡, "透明酸化物機能材料とその応用 (Transparent Oxides as Active Electronic Materials and Their Applications)",
シーエムシ出版, (2006), pp. 273-288 (in Japanese).
[01] 斎藤 全,, 田中啓司, "自己整合型マイクロレンズ(Chalcogenide-glass microlenses for optical fibers)",
応用光学, Vol. 1, (2006), pp. 2-5 (in Japanese).
Patents
[05] 斎藤 全,林 克樹,西ア 光,門 力也,"ガラス",特願2024-004769.
[04] 斎藤 全,林 克樹,冨原佑介,光井和輝,稲葉誠二,小池章夫,門 力也,"ガラス",特開2023-160152.
[03] 斎藤 全,小川佑貴,玉田佳久,武部博倫,"還元スラグに含まれるフッ素の不溶化処理方法",特開2021-113347.
[02] 斎藤 全,板谷雅之,鈴木啓太,武部博倫,佐々木 勝,"低光弾性定数ガラス,光ファイバおよび光ファイバの製造方法",特許第7406747号 (特開2019-189502).
[01] 武部博倫,斎藤 全,山本直樹,黒澤 潔,近藤礼志,"低光弾性ガラスおよびこれを用いた光ファイバ",特許第5919867号 (特開2013-166675).