kw.\*:("WO4")
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Mode-locked Yb:KGW laser longitudinally pumped by polarization-coupled diode barsHOLTOM, Gary R.Optics letters. 2006, Vol 31, Num 18, pp 2719-2721, issn 0146-9592, 3 p.Article
Spectroscopic properties and orthogonally polarized dual-wavelength laser of Yb3+:NaY(WO4)2 crystals with high Yb3+ concentrationsJIANGHE FENG; JINLONG XU; ZHAOJIE ZHU et al.Journal of alloys and compounds. 2013, Vol 566, pp 229-234, issn 0925-8388, 6 p.Article
Two-color femtosecond optical parametric oscillator with 1.7 W output pumped by a 7.4 W Yb:KGW laserHEGENBARTH, Robin; STEINMANN, Andy; TOTH, Gyorgy et al.Journal of the Optical Society of America. B, Optical physics (Print). 2011, Vol 28, Num 5, pp 1344-1352, issn 0740-3224, 9 p.Article
Carrier envelope phase stabilization of a Yb:KGW laser amplifierBALCIUNAS, Tadas; MÜCKE, Oliver D; MISEIKIS, Paulius et al.Optics letters. 2011, Vol 36, Num 16, pp 3242-3244, issn 0146-9592, 3 p.Article
Effect of Structural Stress on the Laser Quality of Highly Doped Yb:KY(WO4)2/KY(WO4)2 and Yb:KLu(WO4)dKLu(WO4)2 Epitaxial StructuresCARVAJAL, J. J; RAGHOTHAMACHAR, B; SILVESTRE, O et al.Crystal growth & design. 2009, Vol 9, Num 2, pp 653-656, issn 1528-7483, 4 p.Article
Polarization-tunable Yb: KGW laser based on internal conical refractionHELLSTROM, Jonas; HENRICSSON, Hanna; PASISKEVICIUS, Valdas et al.Optics letters. 2007, Vol 32, Num 19, pp 2783-2785, issn 0146-9592, 3 p.Article
Trivalent aluminum ionic conduction in the aluminum tungstate-scandium tungstate-lutetium tungstate solid solution systemTAMURA, S; EGAWA, T; OKAZAKI, Y et al.Chemistry of materials. 1998, Vol 10, Num 7, pp 1958-1962, issn 0897-4756Article
Rare earth conduction in M2(WO4)3-Al2O3 (M = Sc, Lu) compositesKÖHLER, J; IMANAKA, N; ADACHI, G et al.Solid state ionics. 1999, Vol 122, Num 1-4, pp 173-182, issn 0167-2738Article
Optoelectronic terahertz radiation system based on femtosecond 1 μm laser pulses and GaBiAs detectorPACEBUTAS, V; BICIUNAS, A; BERTULIS, K et al.Electronics Letters. 2008, Vol 44, Num 19, pp 1154-1155, issn 0013-5194, 2 p.Article
Thermal expansion and phase transition behavior of Al2-xMx(WO4)3 (M = Y, Ga and Sc) ceramicsSUGIMOTO, Takayuki; AOKI, Yuhshi; NIWA, Eiki et al.Nippon seramikkusu kyokai gakujutsu ronbunshi. 2007, Vol 115, Num 3, pp 176-181, issn 0914-5400, 6 p.Article
Tunable THz frequency difference from a diode-pumped dual-wavelength Yb3+:KGd(WO4)2 laser with chirped volume Bragg gratingsBRENIER, A.Laser physics letters (Print). 2011, Vol 8, Num 7, pp 520-524, issn 1612-2011, 5 p.Article
Generation in a laser with a tubular active element made of a neodymium-doped potassium: gadolinium tungstate crystalGULEV, V. S; MIKERIN, S. L; KLYUCHNIKOV, A. A et al.Quantum electronics (Woodbury). 2001, Vol 31, Num 10, pp 867-869, issn 1063-7818Article
14 W high-efficiency diode-pumped cw Yb:KGd(WO4)2 laser with low thermo-optic aberrationsLOIKO, P. A; KISEL, V. E; KONDRATUK, N. V et al.Optical materials (Amsterdam). 2013, Vol 35, Num 3, pp 582-585, issn 0925-3467, 4 p.Article
Synthesis and characterization of new double tungstates Li2MII(WO4)2 (M = Co, Ni, and Cu)ALVAREZ-VEGA, M; RODRIGUEZ-CARVAJAL, J; REYES-CARDENAS, J. G et al.Chemistry of materials. 2001, Vol 13, Num 11, pp 3871-3875, issn 0897-4756Article
Saturable Bragg reflector-based continuous-wave mode locking of Yb:KGd(WO4)2 laserMAJOR, A; GINIUNAS, L; LANGFORD, N et al.Journal of modern optics (Print). 2002, Vol 49, Num 5-6, pp 787-793, issn 0950-0340Conference Paper
Two-micron lasing in NaLa1/2Gd1/2(WO4)2 crystals doped with Tm3+ ionsBOL'SHCHIKOV, F. A; ZHARIKOV, E. V; ZAKHAROV, N. G et al.Quantum electronics (Woodbury). 2010, Vol 40, Num 2, pp 101-102, issn 1063-7818, 2 p.Article
Spectroscopic properties of Tm3+/Ho3+ co-doped NaLa(WO4)2 single crystalCHENGLI SUN; FUGUI YANG; CHAOYANG TU et al.Journal of luminescence. 2012, Vol 132, Num 5, pp 1232-1236, issn 0022-2313, 5 p.Article
Combustion synthesis and luminescence properties of NaY1-xEux(WO4)2 phosphorsXIANHUA QIAN; XIPENG PU; DAFENG ZHANG et al.Journal of luminescence. 2011, Vol 131, Num 8, pp 1692-1695, issn 0022-2313, 4 p.Article
Ultrafast thin-disk Yb:KY(WO4)2 regenerative amplifier with a 200-kHz repetition rateNICKEL, Detlef; STOLZENBURG, Christian; GIESEN, Adolf et al.Optics letters. 2004, Vol 29, Num 23, pp 2764-2766, issn 0146-9592, 3 p.Article
Efficient diode-pumped Nd:KGd(WO4)2 laser grown by top nucleated floating crystal methodBOULON, G; METRAT, G; MUHLSTEIN, N et al.Optical materials (Amsterdam). 2003, Vol 24, Num 1-2, pp 377-383, issn 0925-3467, 7 p.Conference Paper
Trivalent ion conduction of the Sc2(WO4)3-Lu2(WO4)3 systemKOBAYASHI, Y; EGAWA, T; TAMURA, S et al.Solid state ionics. 1999, Vol 118, Num 3-4, pp 325-330, issn 0167-2738Article
In situ characterization of semiconductor saturable absorber mirrors in an operating Yb:KGW mode-locked laserPAUNESCU, Gabriela; HEIN, Joachim; SAUERBREY, Roland et al.Optics letters. 2005, Vol 30, Num 20, pp 2799-2801, issn 0146-9592, 3 p.Article
Crystal growth of La2(WO4)3XIAODING QI; ZUNDU LUO; JINGKUI LIANG et al.Journal of crystal growth. 2000, Vol 216, Num 1-4, pp 363-366, issn 0022-0248Article
The emission and structure of a new laser crystal Nd3+:NaY(WO4)2HE YIZONG; WANG GUOFU; HUANG XIAOYING et al.Crystal research and technology (1979). 1994, Vol 29, Num 2, pp 267-271, issn 0232-1300Article
Yb-doped LiGd1―xLux(WO4)2 single crystal fibers grown from the melt and optical characterizationREKIK, B; DERBAL, M; BENAMARA, O et al.Journal of crystal growth. 2014, Vol 405, pp 11-15, issn 0022-0248, 5 p.Article