On the design of enhancement cavities for second harmonic generation
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[1] John L. Carlsten,et al. Blue light generation in an external ring cavity using both cavity and grating feedback , 2000 .
[2] J. Bhawalkar,et al. High-power 390-nm laser source based on efficient frequency doubling of a tapered diode laser in an external resonant cavity. , 1999, Optics letters.
[3] J. Torgerson,et al. Tunable cavity coupling scheme using a wedged plate , 1999 .
[4] M. Houssin,et al. Ring cavity enhanced second harmonic generation of a diode laser using LBO crystal , 1998 .
[5] K. Lykke. Internally-coupled build-up cavity for frequency doubling of cw lasers , 1998 .
[6] U. Eichmann,et al. All-diode-laser cooling of single Ca+ ions , 1998 .
[7] Y. Kaneda,et al. Theoretical treatment, simulation, and experiments of doubly resonant sum-frequency mixing in an external resonator. , 1997, Applied optics.
[8] Theodor W. Hänsch,et al. General analysis of type I second-harmonic generation with elliptical Gaussian beams , 1997 .
[9] C. Zimmermann,et al. Tunable frequency-controlled laser source in the near ultraviolet based on doubling of a semiconductor diode laser , 1996 .
[10] Flavio C. Cruz,et al. CW second harmonic generation with elliptical Gaussian beams , 1996 .
[11] D. Cassidy,et al. Flexure-mounted external cavity for single-mode operation of semiconductor diode lasers , 1995 .
[12] Theodor W. Hänsch,et al. ALL SOLID STATE LASER SOURCE FOR TUNABLE BLUE AND ULTRAVIOLET RADIATION , 1995 .
[13] J. S. Nielsen,et al. Generation of 90-mW continuous-wave tunable laser light at 280 nm by frequency doubling in a KDP crystal. , 1995, Optics letters.
[14] Haensch,et al. High-resolution spectroscopy of the 1S-2S transition of atomic hydrogen and deuterium. , 1995, Physical review. A, Atomic, molecular, and optical physics.
[15] J.-P. Weber,et al. Device design using Gaussian beams and ray matrices in planar optics , 1994 .
[16] David J. Webb,et al. Blue light generation by resonator‐enhanced frequency doubling of an extended‐cavity diode laser , 1994 .
[17] C. Wieman,et al. A narrow‐band tunable diode laser system with grating feedback, and a saturated absorption spectrometer for Cs and Rb , 1992 .
[18] C. Zimmermann,et al. Second-harmonic generation and optical stabilization of a diode laser in an external ring resonator. , 1990, Optics letters.
[19] D. Kane. Astigmatism compensation in off-axis laser resonators with two or more coupled foci , 1989 .
[20] R. Kallenbach,et al. Doubly-resonant second-harmonic generation in β-barium-borate , 1989 .
[21] T. Hänsch,et al. Generation of continuous-wave radiation near 243 nm by sum-frequency mixing in an external ring cavity. , 1983, Optics letters.
[22] H. Hemmati,et al. High power second harmonic generation of 257 nm radiation in an external ring cavity , 1982 .
[23] T. Hänsch,et al. Hyperfine structure of the 2 3 S-5 3 P transition in 3 He by high-resolution uv-laser spectroscopy , 1982 .
[24] T. Hänsch,et al. Generation of continuous-wave ultraviolet radiation by sum-frequency mixing in an external ring cavity. , 1982, Optics letters.
[25] M. Dunn,et al. Stability Conditions for Off-axis Laser Resonators with Two Foci , 1981 .
[26] T. Hänsch,et al. Laser frequency stabilization by polarization spectroscopy of a reflecting reference cavity , 1980 .
[27] M. Dunn,et al. Coma compensation in off-axis laser resonators , 1977 .
[28] D. Kuizenga. Optimum focusing conditions for parametric gain in crystals with double refraction , 1972 .
[29] Erich P. Ippen,et al. Astigmatically compensated cavities for CW dye lasers , 1972 .
[30] G. Boyd,et al. Parametric interaction of focused Gaussian light beams , 1968 .