MAH T I, PARTHASRATHY T A, LEE D L, et al. PolycrystallineYAG structural and functional [J]. J Ceram Process Res, 2004, 5(4):369–379.
[2]
LI J S, SUN X D, LIU S H, et al. A novel stearate melting method forsynthesizing highly reactive YAG nanopowders [J]. J Alloy Compd,2014, 585: 48–53.
[3]
IKESUE A, AUNG Y L, TAIRA T, et al. Progress in ceramic lasers [J].Annu Rev Mater Res, 2006, 36(1): 397–429.
[4]
XU X J, SUN X D, LIU H, et al. Synthesis of monodispersed sphericalyttrium aluminum garnet (YAG) powders by a homogeneousprecipitation method [J]. J Am Ceram Soc, 2012, 95(12): 3821–3826.
[5]
BOULON G. Fifty years of advances in solid-state laser materials [J].Opt Mater, 2012, 34(3): 499–512
[6]
LI J, PAN Y B, ZENG Y P, et al. The history, development, and futureprospects for laser ceramics: A review [J]. Int J Refract Met HardMater, 2013, 39: 44–52.
[7]
MARTIAL I, BIGOTTA S, EICHHORN M, et al. Er:YAG fiber-shapedlaser crystals (single crystal fibers) grown by micro-pulling down:characterization and laser operation[J]. Opt Mater, 2010, 32:1251–1255.
[8]
ZORENKO Y, VOZNYAK T, GORBENKO V V, et al. Comparativestudy of the luminescence of Y3Al5O12 nanoceramics and singlecrystals under excitation by synchrotron radiation [J]. Opt Mater, 2013,35: 2049–2052.
[9]
LIU X, HUANG H T, ZHU H Y, et al. A modified model for the LDpumped 2 μ m Tm:YAG laser: Thermal behavior and laser performance[J]. Opt Commun, 2014, 332: 332–338.
[10]
KIYOKAWA Y, INOUE H, KATSUMATA T, et al. Thermal stabilityand annealing behavior of photoluminescence from Eu doped YAG [J].Opt Mater, 2014, 37: 493–497.
[11]
LI J, WU Y S, PAN Y B, et al.Laminar-structured YAG/Nd:YAG/YAGtransparent ceramics for solid-state lasers[J]. Int J Appl Ceram Tec,2008, 5(4): 360–364.
LI Y K, ZHOU S M, LIN H, et al. Fabrication of Nd:YAG transparentceramics with TEOS, MgO and compound additives as sintering aids[J]. J Alloy Compd, 2010, 502(1): 225–230.
GUO H X, ZHANG M F, HAN J C, et al. Crystal growth, Judd-Ofeltanalysis and radiative properties of Nd:YAG single crystal grown byHDS[J]. J Lumin, 2013, 140: 135–137.
[16]
KANG H X, ZHANG H, YAN P, et al. An end-pumped Nd:YAGplanar waveguides laser with an optical to optical conversionefficiency of 58% [J]. Laser Phys Lett, 2008, 5: 879–881.
[17]
LIU H, GONG M. Compact corner-pumped Nd:YAG/YAG compositeslab laser [J]. Opt Commun, 2010, 283: 1062–1066.
[18]
ZHENG J K, BO Y, XIE S Y. High power quasi-continuous-wavediode-end-pumped Nd:YAG slab amplifier at 1319 nm [J]. Chin PhysLett, 2013, 30(7): 074202.
[19]
SEKINO, T, SOGABE, Y. Process in the YAG crystal growthtechnique for solid state lasers [J]. Rev Laser Eng, 1993, 21: 827–831.
[20]
MEZEIX L, GREEN D J. Comparison of mechanical properties ofsingle crystal and polycrystalline yttrium aluminum garnet [J]. Int JAppl Ceram Tech, 2006, 3: 166–176.
[21]
MONCHAMP R P. The distribution coefficient on neodymium andlutetium in Czochralski grown Y3Al5O12 [J]. J Cryst Growth, 1971,11(3): 310–312.
[22]
IKESUE A, KINOSHITA T, KAMATA K, et al. Fabrication and opticalproperties of high-performance polycrystalline Nd:YAG ceramics forsolid-state laser [J]. J Am Ceram Soc, 1995, 78(4): 1033–1040.
[23]
SHOJI I, KURIMURA S, SATO Y, et al. Optical properties and lasercharacteristics of high Nd3+-doped Y3Al5O12 ceramics [J]. Appl PhysLett, 2000, 77(7): 939–941.
王海丽, 蒲瑞满, 沈德忠, 等. Nd:YAG 透明陶瓷的制备及激光输出[J]. 硅酸盐学报, 2009,37(9): 1506–1509. WANG Haili, PU Ruiman, SHEN Dezhong, et al. J Chin Ceram Soc,2009, 37(9): 1506–1509.
[26]
ZHANG W, LU T C, MA B Y, et al. Improvement of optical propertiesof Nd:YAG transparent ceramics by post-annealing and post hotisostatic pressing [J]. Opt Mater, 2013, 35: 2405–2410.
ZHANG W, LU T C, WEI N. Assessment of light scattering by poresin Nd:YAG transparent ceramics [J]. J Alloy Compd, 2012, 520:36–41.
[30]
ZHU H Y, DUAN Y M, XU C W, et al. Continuous-wave andq-switched neodymium-doped yttrium aluminum garnet ceramic laserat 1356 nm single wavelength [J]. Appl Phys Express, 2013, 6: 022705.
[31]
GE L, LI J, ZHOU Z W, et al. Fabrication of compositeYAG/Nd:YAG/YAG transparent ceramics for planar waveguide laser[J]. Opt Mater Express, 2014, 4(5): 1042–1049.
[32]
KOCHAWATTANA S, STEVENSON A, MESSING G L, et al.Sintering and grain growth in SiO2 doped Nd:YAG [J]. J Eur CeramSoc, 2008, 28 (7): 1527–1534
[33]
闻雷, 孙旭东, 马伟民, 等. 固相反应法制备YAG 透明陶瓷[J]. 硅酸盐学报, 2003, 31(9): 819–822.WEN Lei, SUN Xudong, MA Weimin, et al. J Chin Ceram Soc, 2003,31(9): 819–822.
[34]
LI T K, ZHOU S M, LIN H, et al. Fabrication of Nd:YAG transparentceramics with TEOS, MgO and compound additives as sintering aids[J]. J Alloy Compd, 2010, 502(1): 225–230.
[35]
BA X W, LI J, PAN Y B, et al. Comparison of aqueous- andnon-aqueous-based tape casting for preparing YAG transparentceramics [J]. J Alloy Compd, 2013, 557: 228–231.
[36]
TANG F, CAO Y G, HUANG J Q, et al. MultilayerYAG/RE:YAG/YAG laser ceramic prepared by tape casting andvacuum sintering method [J]. J Eur Ceram Soc, 2012, 32: 3995–4002.
[37]
KOPYLOV Y L, KRAVCHENKO V B, BAGAYEV S N, et al.Development of Nd3+:Y3Al5O12 laser ceramics by high-pressurecolloidal slip-casting (HPCSC) method [J]. Opt Mater, 2008, 31(5):707–710.
[38]
QIN X P, G HZHOU, YANG Y, et al. Gel casting of transparent YAGceramics by a new gelling system [J]. Ceram Int, 2014, 40: 12745–12750.
[39]
FULLMAN R L. Measurement of particle sizes in opaque bodies [J]. JMet, 1953, 197: 447–452.
[40]
周军. Er3+离子激光透明陶瓷材料的研究[D]. 上海: 中国科学院上海硅酸盐研究所, 2010 年. 43–46.ZHOU Jun. Research on the Er3+ doped tranparent laser ceramics(inChinese, dissertartion) . Shanghai: Shanghai Institute of Ceramics,Chinese Academy of Sciences, 2010, 43–46.
[41]
BROOK R J. Controlled grain growth [M]. New York: Academic Press,1976: 331.
[42]
SU H, JOHNSON D L. Master sintering curve: a practical approach tosintering [J]. J Am Ceram Soc, 1996, 79(12): 3211–3177.
