[1] ANDRADE E N D C. The flow in metals under large constant stresses[J]. Proceedings of the Royal Society of London Series A, Containing Papers of a Mathematical and Physical Character, 1914, 90(619): 329-342. [2] CZOCHRALSKI J. Ein neues verfahren zur messung der kristallisationsgeschwindigkeit der metalle[J]. Zeitschrift Für Physikalische Chemie, 1918, 92U(1): 219-221. [3] GOMPER Z .Untersuchungen an einkristalldrähten[J]. Zeitschrift Für Physik, 1922, 8(1): 184-190. [4] LABELLE H E, MLAVSKY A I. Growth of sapphire filaments from the melt[J]. Nature, 1967, 216(5115): 574-575. [5] GASSON D B, COCKAYNE B. Oxide crystal growth using gas lasers[J]. Journal of Materials Science, 1970, 5(2): 100-104. [6] HAGGERTY J S. Production of fibers by a floating zone fiber drawing technique[R]. 1972. [7] FEJER M, BYER R L, FEIGELSON R, et al. Growth and characterization of single crystal refractory oxide fibers[C]//1982 Los Angeles Technical Symposium. Proc SPIE 0320, Advances in Infrared Fibers II, Los Angeles, USA. 1982, 0320: 50-55. [8] 符森林, 卢子宏, 曹 元. 单晶光纤的研究进展[J]. 材料科学与工程, 1988, 6(2): 1-6. FU S L, LU Z H, CAO Y. Research progress of single crystal optical fiber[J]. Materials Science and Engineering, 1988, 6(2): 1-6 (in Chinese). [9] FEIGELSON R S. The laser-heated pedestal growth method: a powerful tool in the search for new high performance laser crystals[C]//HAMMERLING P, BUDGOR AB, PINTO A. Tunable Solid State Lasers. Berlin, Heidelberg: Springer, 1985: 129-142. [10] FEIGELSON R S. Pulling optical fibers[J]. Journal of Crystal Growth, 1986, 79(1/2/3): 669-680. [11] FEIGELSON R S. Opportunities for research on single-crystal fibers[J]. Materials Science and Engineering: B, 1988, 1(1): 67-75. [12] FEIGELSON R S. Growth of single crystal fibers[J]. MRS Bulletin, 1988, 13(10): 47-55. [13] FEIGELSON R S, KWAY W L, ROUTE R K. Single crystal fibers by the laser-heated pedestal growth method[C]//Proc SPIE 0484, Infrared Optical Materials and Fibers III, 1984, 0484: 133-143. [14] FEJER M M, NIGHTINGALE J L, MAGEL G A, et al. Laser-heated miniature pedestal growth apparatus for single-crystal optical fibers[J]. Review of Scientific Instruments, 1984, 55(11): 1791-1796. [15] FEJER M M, NIGHTINGALE J L, MAGEL G A, et al. Laser assisted growth of optical quality single crystal fibers[C]//1984 Los Angeles Technical Symposium. Proc SPIE 0460, Processing of Guided Wave Optoelectronic Materials I, Los Angeles, USA. 1984, 0460: 26-33. [16] KIM W, SHAW B, BAYYA S, et al. Cladded single crystal fibers for high power fiber lasers[C]//SPIE Optical Engineering + Applications. Proc SPIE 9958, Photonic Fiber and Crystal Devices: Advances in Materials and Innovations in Device Applications X, San Diego, California, USA. 2016, 9958: 117-124. [17] ZHANG J, CHEN Y, PONTING B, et al. Highly efficient waveguided laser performance of diode pumped unclad Yb∶YAG crystalline fibre[J]. Laser Physics Letters, 2016, 13(7): 075101. [18] DUBINSKII M, ZHANG J, FROMZEL V, et al. Low-loss ‘crystalline-core/crystalline-clad’ (C4) fibers for highly power scalable high efficiency fiber lasers[J]. Optics Express, 2018, 26(4): 5092-5101. [19] 丁祖昌, 陈继勤. 宝石单晶光纤与高温光纤测温计[J]. 高技术通讯, 1992, 2(6): 27-30. DING Z C, CHEN J Q. Single crystal sapphire fiber and high temperature optical fiber thermometer[J]. High Technology Letters, 1992, 2(6): 27-30 (in Chinese). [20] 余 四, 叶林华, 陈继勤, 等. Ti3+∶Al2O3单晶光纤的生长[J]. 人工晶体学报, 1991, 20(S1): 333. YU S, YE L H, CHEN J Q, et al. Growth of Ti3+∶Al2O3 single crystal fibers[J]. Journal of Synthetic Crystals, 1991, 20(S1): 333 (in Chinese). [21] 卢子宏, 陈继勤, 陈溪芳, 等. 单晶光纤生长中的直径波动[J]. 硅酸盐学报, 1990, 18(3): 262-267. LU Z H, CHEN J Q, CHEN X F, et al. The diameter fluctuation in the growth of single crystal fibers[J]. Journal of the Chinese Ceramic Society, 1990, 18(3): 262-267 (in Chinese). [22] DAI Y, ZHANG Z H, WANG Y X, et al. Growth of Tm∶Lu3Al5O12 single crystal fiber from transparent ceramics by laser-heated pedestal method and its spectral properties[J]. Optical Materials, 2021, 111: 110674. [23] YANG Y L, YE L H, BAO R J, et al. Growth and characterization of Yb∶Ho∶YAG single crystal fiber[J]. Infrared Physics & Technology, 2018, 91: 85-89. [24] ZHAO Y G, WANG L, CHEN W D, et al. 35 W continuous-wave Ho∶YAG single-crystal fiber laser[J]. High Power Laser Science and Engineering, 2020, 8: e25. [25] WANG N N, WANG X L, HU X H, et al. 41.8 W output power, 200 kHz repetition rate ultra-fast laser based on Yb∶YAG single crystal fiber(SCF)amplifier[J]. Optics & Laser Technology, 2020, 127: 106202. [26] LIU J, DONG J F, WANG Y Y, et al. Tm∶YAG single-crystal fiber laser[J]. Optics Letters, 2021, 46(18): 4454-4457. [27] WANG Y X, WANG S Z, WANG J Y, et al. High-efficiency ~2 μm CW laser operation of LD-pumped Tm3+∶CaF2 single-crystal fibers[J]. Optics Express, 2020, 28(5): 6684-6695. [28] LIU J, DONG J F, WANG Y Y, et al. Laser operation of Tm∶LuAG single-crystal fiber grown by the micro-pulling down method[J]. Crystals, 2021, 11(8): 898. [29] MAXWELL G, PONTING B, GEBREMICHAEL E, et al. Advances in single-crystal fibers and thin rods grown by laser heated pedestal growth[J]. Crystals, 2017, 7(1): 12. [30] BERA S, NIE C D, SOSKIND M G, et al. Optimizing alignment and growth of low-loss YAG single crystal fibers using laser heated pedestal growth technique[J]. Applied Optics, 2017, 56(35): 9649-9655. [31] 上海硅酸盐研究所利用激光加热基座法(LHPG)成功制备高长径比Yb∶YAG单晶光纤[J]. 人工晶体学报, 2020, 49(1): 175. Yb∶YAG single crystal fiber with high aspect ratio was successfully prepared by laser heating pedestal method (LHPG) in Shanghai Institute of Silicate[J]. Journal of Synthetic Crystals, 2020, 49(1): 175 (in Chinese). [32] LAI C C, TSAI H J, HUANG K Y, et al. Cr4+∶YAG double-clad crystal fiber laser[J]. Optics Letters, 2008, 33(24): 2919-2921. [33] WANG S C, HSU C Y, YANG T T, et al. Laser-diode pumped glass-clad Ti∶sapphire crystal fiber laser[J]. Optics Letters, 2016, 41(14): 3217-3220. [34] MERBERG G N, HARRINGTON J A. Optical and mechanical properties of single-crystal sapphire optical fibers[J]. Applied Optics, 1993, 32(18): 3201-3209. [35] WU H F, PERROTTA A J, FEIGELSON R S. Mechanical characterization of single-crystal α-Al2O3 fibres grown by the laser-heated pedestal technique[J]. Journal of Materials Science Letters, 1991, 10(24): 1428-1429. [36] KURLOV V N, KIIKO V M, KOLCHIN A A, et al. Sapphire fibres grown by a modified internal crystallisation method[J]. Journal of Crystal Growth, 1999, 204(4): 499-504. [37] 王 涛, 贾志泰, 李 阳, 等. 激光加热基座技术生长超细单晶光纤研究[J]. 人工晶体学报, 2022, 51(3): 428-433. WANG T, JIA Z T, LI Y, et al. Growth of ultrafine single-crystal fibers by laser heated pedestal growth technique[J]. Journal of Synthetic Crystals, 2022, 51(3): 428-433 (in Chinese). |