"2013-09-08+02:00"^^ . . "Hrabina, Jan" . "\u0160arbort, Martin" . "Lazar, Josef" . "5"^^ . . . . . "978-3-642-36358-0" . "5"^^ . "Spectral Properties of Saturation Pressure Filled Iodine Absorption Cells"@en . . . "laser spectroscopy; metrology; molecular iodine; absorption cells"@en . . "One of the most common absorption media for frequency stabilization of lasers is molecular iodine. It covers a wide spectral range from green to near IR and offers reach set of strong and narrow lines suitable for these purposes. Thanks to this the molecular iodine is also recommended as an absorption media for realization of laser standards of length at several wavelengths by the CIPM committee. Solid-state, frequency doubled Nd:YAG lasers stabilized by saturation subdoppler spectroscopy to hyperfine transitions in molecular iodine are used in metrological laboratories as reference stabilized lasers and represent the most stable conventional optical references for interferometry and other applications in fundamental metrology. They can achieve long term frequency stability better than 1x10\u200914 for an integration time of 100 s, which means more than two orders better result in comparison to traditionally used He-Ne-I2 stabilized standards and the short term frequency noise of these lasers is also lower. Further, a linear spectroscopy of molecular iodine is also often used technique especially in case of interferometry applied at atmospheric conditions, where influence of refractive index of air plays a dominant role." . "I, P(ED0017/01/01), P(EE2.4.31.0016), P(GPP102/11/P820), P(TA01010995), P(TA02010711), P(TE01020233)" . . "4"^^ . "[F9B9CBFEAFCE]" . "Spectral Properties of Saturation Pressure Filled Iodine Absorption Cells" . . . "Springer-Verlag" . "One of the most common absorption media for frequency stabilization of lasers is molecular iodine. It covers a wide spectral range from green to near IR and offers reach set of strong and narrow lines suitable for these purposes. Thanks to this the molecular iodine is also recommended as an absorption media for realization of laser standards of length at several wavelengths by the CIPM committee. Solid-state, frequency doubled Nd:YAG lasers stabilized by saturation subdoppler spectroscopy to hyperfine transitions in molecular iodine are used in metrological laboratories as reference stabilized lasers and represent the most stable conventional optical references for interferometry and other applications in fundamental metrology. They can achieve long term frequency stability better than 1x10\u200914 for an integration time of 100 s, which means more than two orders better result in comparison to traditionally used He-Ne-I2 stabilized standards and the short term frequency noise of these lasers is also lower. Further, a linear spectroscopy of molecular iodine is also often used technique especially in case of interferometry applied at atmospheric conditions, where influence of refractive index of air plays a dominant role."@en . "Hol\u00E1, Miroslava" . . "10.1007/978-3-642-36359-7_153" . . . . "Berlin" . . . . "Spectral Properties of Saturation Pressure Filled Iodine Absorption Cells" . . "\u010C\u00EDp, Ond\u0159ej" . . "RIV/68081731:_____/14:00398012!RIV14-TA0-68081731" . "N\u00FCrtingen" . . . "46571" . "RIV/68081731:_____/14:00398012" . . "Spectral Properties of Saturation Pressure Filled Iodine Absorption Cells"@en . . . "Fringe 2013. 7th International Workshop on Advanced Optical Imaging and Metrology (Proceedings)" . . . .