论文信息 - Significant blue-shift in photoluminescence excitation spectra of Nd3+:LaF3 potential laser medium at low-temperature - 字舞流文

Significant blue-shift in photoluminescence excitation spectra of Nd3+:LaF3 potential laser medium at low-temperature

Y. Yokota | A. Yoshikawa | K. Fukuda | N. Kawaguchi | K. Yamanoi | Toshihiko Shimizu | N. Sarukura | Mui Viet Luong | M. Cadatal-Raduban | Y. Minami | M. Empizo | Ren Arita | M. Pham | T. Hori | Kazuyuki Mori | K. Fukuda | Masahiro Takabatake

[1] T. Ishikawa,et al. VUV fluorescence from Nd3+:LuLiF4 by two photon excitation using femtosecond laser , 2013 .

[2] T. Ishikawa,et al. Vacuum Ultraviolet Fluorescence Spectroscopy of Nd3+:LaF3 Using Femtosecond Extreme Ultraviolet Free Electron Laser , 2013 .

[3] Y. Yokota,et al. Scintillation properties of Nd3+, Tm3+, and Er3+ doped LuF3 scintillators in the vacuum ultra violet region , 2011 .

[4] Y. Yokota,et al. ${\hbox {Nd}}^{3+}{\hbox {:LaF}}_{3}$ as a Step-Wise Excited Scintillator for Femtosecond Ultraviolet Pulses , 2010, IEEE Transactions on Nuclear Science.

[5] V. V. Harutunyan,et al. Upconverted 5d-4f luminescence from Er3+ and Nd3+ ions doped into fluoride hosts excited by ArF and KrF excimer lasers , 2010 .

[6] A. Yoshikawa,et al. Vacuum ultraviolet luminescence from a micro-pulling-down method grown Nd3+:(La0.9,Ba0.1)F2.9 , 2009 .

[7] Y. Fujimoto,et al. Nd3+:(La1-xBax)F3-x Grown by Micro-Pulling Down Method as Vacuum Ultraviolet Scintillator and Potential Laser Material , 2007 .

[8] H. Sugimura,et al. Photochemical Oxidation of Chloromethylphenylsiloxane Self-assembled Monolayer Amplified with Atmospheric Oxygen and Its Application to Micropatterning , 2005 .

[9] M. Hirano,et al. Ce/sup 3+/:LiCaAlF/sub 6/ crystal for high-gain or high-peak-power amplification of ultraviolet femtosecond pulses and new potential ultraviolet gain medium: Ce/sup 3+/:LiSr/sub 0.8/Ca/sub 0.2/AlF/sub 6/ , 2001 .

[10] David J. Jones,et al. Optical properties of AlN determined by vacuum ultraviolet spectroscopy and spectroscopic ellipsometry data , 1999 .

[11] I. Shimoyama,et al. Reconstruction of BL7B for UV, VIS and IR spectroscopy with a 3 m normal-incidence monochromator. , 1998, Journal of synchrotron radiation.

[12] S. Govorkov,et al. Efficient High Average Power and Narrow Spectral Linewidth Operation of Ce:LiCAF Laser at 1 kHz Repetition Rate , 1998 .

[13] P. Dorenbos,et al. The intensity of the 173 nm emission of LaFs3:Nd3+ scintillation crystals , 1996 .

[14] A. Cefalas,et al. Efficient Laf3-Nd3+-Based Vacuum-Ultraviolet Laser at 172 Nm , 1992 .

[15] A. Cefalas,et al. Solid state LaF3: Nd3+ vuv laser pumped by a pulsed discharge F2-molecular laser at 157 nm , 1992 .

[16] J. Deluca,et al. Vacuum-ultraviolet excitation studies of 5 d 1 4 f n -1 to 4 f n and 4 f n to 4 f n transitions of Nd 3+ -, Er 3+ -, and Tm 3+ -doped trifluorides , 1978 .

[17] Kei-Hsiung Yang,et al. VUV fluorescence of Nd3+‐, Er3+, and Tm3+‐doped trifluorides and tunable coherent sources from 1650 to 2600 Å , 1976 .

[18] A. Schawlow,et al. Thermal Shifts in the Energy Levels of LaF 3 :Nd 3+ * , 1967 .

[19] A. H. Laufer,et al. Effect of Temperature on the Vacuum Ultraviolet Transmittance of Lithium Fluoride, Calcium Fluoride, Barium Fluoride, and Sapphire* , 1965 .